CN104394781A - Tissue thickness compensator comprising structure to produce a resilient load - Google Patents

Tissue thickness compensator comprising structure to produce a resilient load Download PDF

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Publication number
CN104394781A
CN104394781A CN201380028299.5A CN201380028299A CN104394781A CN 104394781 A CN104394781 A CN 104394781A CN 201380028299 A CN201380028299 A CN 201380028299A CN 104394781 A CN104394781 A CN 104394781A
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CN
China
Prior art keywords
nail
tissue thickness
compensating part
tissue
deformable tube
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
CN201380028299.5A
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Chinese (zh)
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CN104394781B (en
Inventor
J·S·斯韦兹
F·E·谢尔顿四世
T·威登豪斯
C·W·威登豪斯
T·W·阿伦霍尔特
C·J·沙伊布
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Ethicon Endo Surgery Inc
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Ethicon Endo Surgery Inc
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Publication date
Priority claimed from US13/433,148 external-priority patent/US9220500B2/en
Application filed by Ethicon Endo Surgery Inc filed Critical Ethicon Endo Surgery Inc
Publication of CN104394781A publication Critical patent/CN104394781A/en
Application granted granted Critical
Publication of CN104394781B publication Critical patent/CN104394781B/en
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    • A61B17/0682Surgical staplers, e.g. containing multiple staples or clamps for applying U-shaped staples or clamps, e.g. without a forming anvil
    • A61B17/0684Surgical staplers, e.g. containing multiple staples or clamps for applying U-shaped staples or clamps, e.g. without a forming anvil having a forming anvil staying above the tissue during stapling
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    • A61B17/07207Surgical staplers, e.g. containing multiple staples or clamps for applying a row of staples in a single action, e.g. the staples being applied simultaneously the staples being applied sequentially
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    • A61B2017/07235Stapler heads containing different staples, e.g. staples of different shapes, sizes or materials
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    • A61B2017/0725Stapler heads with settable gap between anvil and cartridge, e.g. for different staple heights at different shots
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Abstract

A fastener cartridge assembly (30000) for an end effector of a surgical instrument can comprise a cartridge body (20070), a deformable tube (3000 31080, 33080, 34080, 35080, 36080, 38080, 39080, 40080, 41080, 41180, 42080, 43080, 44080, 45080, 47080, 48080), and a fastener moveable between an initial position and a fired position. The deformable tube can be longitudinally positioned along a length of the cartridge body. When the fastener is moved to the fired position, the fastener can compress a portion of the deformable tube. The deformable tube can comprise a resilient material such that deformation of the deformable tube generates a restoring force. The deformable tube can comprise a lattice of strands (30092, 0090, 34090, 34092, 35092, 36092, 36080, 37092) woven together to form a tube wall. Further, the deformable tube can be bioabsorbable and can hold a therapeutic agent. The fastener cartridge assembly can comprise multiple, substantially parallel deformable tubes positioned side-by-side and / or within each other.

Description

Comprise tissue thickness's compensating part of the structure producing elastic load
The cross reference of related application
The patent application of this non-transitory is the U.S. Patent Application Serial Number 13/097 that the name submitted to according to the 29 days April in 2011 of 35 U.S.C. § 120 is called " Tissue Thickness Compensator For A Surgical Stapler Comprising AnAdjustable Anvil ", the part continuation application of 891, this U.S. Patent application is the U.S. Patent Application Serial Number 12/894 that the name submitted to for 30th according in the JIUYUE, 2010 of 35 U.S.C. § 120 is called " Selectively Orientable Implantable Fastener Cartridge ", the part continuation application of 377, whole disclosures of above-mentioned patent application are incorporated herein by reference accordingly.
Background technology
The present invention relates to surgical instruments, and in various embodiments, the present invention relates to the surgical cutting and suture instruments and nail bin thereof that are designed to cutting and suture tissue.
Summary of the invention
It is below the incomplete list by claims protection or the claimed embodiment of the present invention of possibility.
1., for a fastener cartridge assembly for surgical instruments, described fastener cartridge assembly comprises:
Warehouse;
Deformable tube, described deformable tube is located relative to described warehouse, and wherein said deformable tube comprises elastomeric material; With
Securing member, described securing member can move between initial position and firing position, and wherein when described securing member moves to its firing position, described securing member can engage a part for described deformable tube.
2. the fastener cartridge assembly according to embodiment 1, wherein said warehouse comprises:
Platform; And
At least a line securing member chamber, described at least a line securing member chamber is arranged in described platform, and wherein said deformable tube covers at least securing member chamber described in a line.
3. the fastener cartridge assembly according to embodiment 2, the described platform location of the contiguous described warehouse of wherein said deformable tube.
4. the fastener cartridge assembly according to embodiment 2 or embodiment 3, wherein said at least a line securing member chamber comprises substantially parallel multirow nail chamber, and wherein said warehouse comprises:
Slit, extends between two row of described slit in described substantially parallel multirow nail chamber; With
Cutting element, described cutting element can translation in described slit, and the described slit of covering at least partially of wherein said deformable tube, makes described cutting element can cut described deformable tube at least partially.
5. the fastener cartridge assembly according to any one of embodiment 2-4, wherein said deformable tube comprises the first deformable tube, wherein said fastener cartridge assembly also comprises the second deformable tube, and wherein said second deformable tube is arranged essentially parallel to described first deformable tube.
6. the fastener cartridge assembly according to embodiment 5, wherein said second deformable tube is positioned in described first deformable tube.
7. the fastener cartridge assembly according to embodiment 6, also comprises the 3rd deformable tube, and wherein said 3rd deformable tube is positioned in described second deformable tube.
8. the fastener cartridge assembly according to embodiment 5 or embodiment 6, also comprise the 3rd deformable tube, wherein said first deformable tube is aimed at the longitudinal axis limited by described warehouse, wherein said second deformable tube is positioned on the first side of described first deformable tube, and wherein said 3rd deformable tube is positioned on the second side of described first deformable tube.
9. the fastener cartridge assembly according to any one of embodiment 5-8, wherein said first deformable tube and described second deformable tube and adjacent part coextrusion are to form single parts.
10. the fastener cartridge assembly according to any one of previous embodiment, wherein said deformable tube comprises strand lattice, and described strand is woven in together to form tube wall.
11. fastener cartridge assemblies according to embodiment 10, wherein said strand lattice comprise tubulose strand.
12. fastener cartridge assemblies according to embodiment 10 or embodiment 11, wherein said strand lattice comprise can the strand of bio-absorbable.
13. fastener cartridge assemblies according to any one of embodiment 10-12, wherein said deformable tube also comprises the non-perforated pipe being positioned at the one of described strand especially in side and inner side, and wherein said non-perforated pipe and the coextrusion of described strand lattice.
14. fastener cartridge assemblies according to embodiment 13, wherein said strand lattice are filled with the therapeutic agent in order to treated tissue at least in part.
15. 1 kinds of fastener cartridge for surgical instruments, described fastener cartridge comprises:
Warehouse, described warehouse limits longitudinal axis;
More than first strand, described more than first strand is woven into elasticity lattice, and wherein said elasticity lattice are arranged essentially parallel to described longitudinal axis; With
Securing member, described securing member can move between initial position and firing position, and wherein when at least one securing member moves to its firing position, at least one this type of securing member can compress a part for described elasticity lattice.
16. fastener cartridge according to embodiment 15, wherein said elasticity lattice comprise the first elasticity lattice, wherein said fastener cartridge also comprises more than second strand being woven into the second elasticity lattice, wherein said second elasticity lattice are arranged essentially parallel to described longitudinal axis, and at least one in wherein said more than first strand and described more than second strand comprises tubulose strand.
17. 1 kinds of end effector assemblies for surgical instruments, described end effector assembly comprises:
Anvil block;
Fastener cartridge, it comprises:
At least a line securing member chamber; With
The securing member that can move between initial position and firing position, wherein when each securing member is in its initial position, each securing member is positioned in securing member chamber; And
Pipe, wherein said pipe comprises elastomeric material, and wherein said pipe be arranged essentially parallel to described at least a line securing member chamber;
Wherein when at least one securing member moves to its firing position, at least one securing member described can make a part for described pipe be out of shape.
18. end effector assemblies according to embodiment 17, wherein said pipe comprises the therapeutic agent in order to treated tissue.
19. end effector assemblies according to embodiment 18, wherein said pipe can bio-absorbable, makes when described pipe is discharged described therapeutic agent by pipe described during bio-absorbable.
20. end effector assemblies according to embodiment 18 or embodiment 19, also comprising can along the cutting element of the translation at least partially of the slit in described fastener cartridge, at least one in wherein said multiple securing member and described cutting element can penetrate described pipe, and described therapeutic agent is discharged from described pipe.
Accompanying drawing explanation
Carry out the following explanation with reference to the embodiment of the present invention in conjunction with the drawings, feature of the present invention and advantage and acquisition methods thereof will become more apparent, and can understand invention itself better, wherein:
Fig. 1 is the sectional view of surgical instruments embodiment;
Figure 1A is the perspective view of an embodiment of implanted nail bin;
Figure 1B-1E shows multiple parts of the end effector using the clamping of implanted nail bin and suture tissue;
Fig. 2 is the partial cross-sectional side view of another end effector of the part being connected to surgical instruments, and its end effector supports surgery nail bin and its anvil block is in an open position;
Fig. 3 is another partial cross-sectional side view in the close position of the end effector shown in Fig. 2;
Fig. 4 is that the end effector shown in Fig. 2 and Fig. 3 begins to pass another partial cross-sectional side view when end effector advances at knife bar;
Fig. 5 is another partial cross-sectional side view when knife bar is partly advanced through wherein of the end effector shown in Fig. 2 to Fig. 4;
Fig. 6 A-Fig. 6 D describes the distortion being positioned at the surgical staples can collapsed in nail bin body according at least one embodiment;
Fig. 7 A illustrates that be positioned at can the schematic diagram of nail in conquassation nail bin body;
Fig. 7 B be illustrate Fig. 7 A can conquassation nail bin body by the schematic diagram of anvil block conquassation;
Fig. 7 C be illustrate Fig. 7 A can conquassation nail bin body by the schematic diagram of the further conquassation of anvil block;
Fig. 7 D be illustrate Fig. 7 A be in complete shaped configuration nail and be in Fig. 7 A in complete conquassation condition can the schematic diagram of conquassation nail bin;
Fig. 8 is the top view of the nail bin according at least one embodiment, and this nail bin comprises the nail embedding and can collapse in nail bin body;
Fig. 9 is the front view of the nail bin of Fig. 8;
Figure 10 is the decomposition diagram of the embodiment of the alternative of compressible nail bin, and this compressible nail bin comprises nail and for against anvil block to drive the system of nail;
Figure 10 A is the partial sectional view of the embodiment of the alternative of the nail bin of Figure 10;
Figure 11 is the sectional view of the nail bin of Figure 10;
Figure 12 can traverse the nail bin of Figure 10 and the front view of the sliding part that nail is moved towards anvil block;
Figure 13 is the schematic diagram of the staple drivers that can be lifted towards anvil block by the sliding part of Figure 12;
Figure 14 is the perspective view of the nail bin according at least one embodiment of the present invention, and this nail bin comprises rigid support part for using together with surgery suturing appliance and compressible tissue thickness compensating part;
Figure 15 is the partial exploded view of the nail bin of Figure 14;
Figure 16 is the complete exploded view of the nail bin of Figure 14;
Figure 17 is another exploded view of the nail bin of Figure 14, and this nail bin does not cover the wrappage of tissue thickness's compensating part;
Figure 18 is the warehouse of the nail bin of Figure 14 or the perspective view of support section;
Figure 19 is the top perspective of sliding part, and this sliding part can move in the nail bin of Figure 14, to dispose nail from nail bin;
Figure 20 is the bottom perspective view of the sliding part of Figure 19;
Figure 21 is the front view of the sliding part of Figure 19;
Figure 22 is the top perspective of driver, and this driver can support one or more nail, and is upwards lifted to be penetrated from nail bin by nail by the sliding part of Figure 19;
Figure 23 is the bottom perspective view of the driver of Figure 22;
Figure 24 is can at least in part around the wrappage of the compressible tissue thickness compensating part of nail bin;
Figure 25 is the partial sectional view of nail bin, and this nail bin comprises rigid support part and compressible tissue thickness compensating part, show nail during First ray never firing position move to firing position;
Figure 26 is the front view of the nail bin of Figure 25;
Figure 27 is the thin portion front view of the nail bin of Figure 25;
Figure 28 is the section end view of the nail bin of Figure 25;
Figure 29 is the bottom view of the nail bin of Figure 25;
Figure 30 is the thin portion bottom view of the nail bin of Figure 25;
Figure 31 is the longitudinal sectional view of nail bin and anvil block in the close position, and this nail bin comprises rigid support part and compressible tissue thickness compensating part, show nail during First ray never firing position move to firing position;
Figure 32 is the anvil block of Figure 31 and another sectional view of nail bin, it illustrates anvil block in an open position after percussion sequence completes;
Figure 33 is the local detail drawing of the nail bin of Figure 31, it illustrates the nail being in non-firing position;
Figure 34 is the cross-section front view of nail bin, and this nail bin comprises rigid support part and compressible tissue thickness compensating part, shows the nail being in non-firing position;
Figure 35 is the detail drawing of the nail bin of Figure 34;
Figure 36 is the front view of nail bin and anvil block in an open position, and this nail bin comprises rigid support part and compressible tissue thickness compensating part, shows the nail being in non-firing position;
Figure 37 is the front view of nail bin and anvil block in the close position, and this nail bin comprises rigid support part and compressible tissue thickness compensating part, shows the nail being in non-firing position and the tissue be trapped between anvil block and tissue thickness's compensating part;
Figure 38 is the anvil block of Figure 37 and the detail drawing of nail bin;
Figure 39 is the front view of nail bin and anvil block in the close position, and this nail bin comprises rigid support part and compressible tissue thickness compensating part, shows the nail being in non-firing position, shows the thicker tissue be positioned between anvil block and nail bin;
Figure 40 is the anvil block of Figure 39 and the detail drawing of nail bin;
Figure 41 is the anvil block of Figure 39 and the front view of nail bin, shows the tissue with different-thickness be positioned between anvil block and nail bin;
Figure 42 is the anvil block of Figure 39 and the detail drawing of nail bin, as shown in figure 41;
Figure 43 shows the schematic diagram to tissue thickness's compensating part that the different tissues thickness be trapped in different nail compensates;
Figure 44 shows tissue thickness's compensating part to the schematic diagram being applied compression pressure by one or more blood vessel of nail line crosscut;
Figure 45 shows the schematic diagram of the imappropriate situation about being shaped of wherein one or more nails;
Figure 46 shows the schematic diagram of tissue thickness's compensating part that can compensate the imappropriate nail be shaped;
Figure 47 shows the schematic diagram of the tissue thickness's compensating part be positioned in tissue regions that multiple nail line intersects;
Figure 48 shows the schematic diagram of the tissue be trapped in nail;
Figure 49 shows the schematic diagram being trapped in tissue in nail and tissue thickness's compensating part;
Figure 50 shows the schematic diagram of the tissue be trapped in nail;
Figure 51 shows the schematic diagram being trapped in thick tissue in nail and tissue thickness's compensating part;
Figure 52 shows the schematic diagram being trapped in thin tissue in nail and tissue thickness's compensating part;
Figure 53 shows the schematic diagram of the tissue thickness's compensating part be trapped in nail and the tissue with interior thickness;
Figure 54 shows the schematic diagram of the tissue thickness's compensating part be trapped in nail and the tissue with another interior thickness;
Figure 55 shows the schematic diagram being trapped in thick tissue in nail and tissue thickness's compensating part;
Figure 56 is the partial sectional view of the end effector of surgery suturing appliance, it illustrates be in retraction, non-firing position trigger shaft and nail percussion sliding part;
Figure 57 is another partial sectional view of the end effector of Figure 56, it illustrates and is in trigger shaft and the nail percussion sliding part that local advances position;
Figure 58 is the sectional view of the end effector of Figure 56, it illustrates the trigger shaft being in propelling or firing position completely;
Figure 59 is the sectional view of the end effector of Figure 56, it illustrates and is being in the trigger shaft of advanced position after being pulled the trigger and is staying the nail percussion sliding part of its complete firing position;
Figure 60 is the detail drawing being in the trigger shaft of advanced position of Figure 59;
Figure 61 is the perspective view of the tissue thickness's compensating part in the end effector of surgical instruments according at least one embodiment;
Figure 62 is the detail drawing of the non-woven material of tissue thickness's compensating part of Figure 61;
Figure 63 illustrates the front view of tissue thickness's compensating part against organizing implanted and Figure 61 from end effector release;
Figure 64 is the detail drawing of the non-woven material of tissue thickness's compensating part according at least one embodiment;
Figure 65 is the schematic diagram of the cluster showing randomly-oriented crimped fibre according at least one embodiment;
Figure 66 is the schematic diagram of the cluster showing randomly-oriented crimped fibre according at least one embodiment;
Figure 67 is the schematic diagram of the structure showing crimped fibre according at least one embodiment;
Figure 68 is the schematic diagram of the structure showing crimped fibre according at least one embodiment;
Figure 69 is the schematic diagram of the structure showing crimped fibre according at least one embodiment;
Figure 70 is the section plan according to the coiling fiber in tissue thickness's compensating part of at least one embodiment;
Figure 70 A is the section plan of the coiling fiber of Figure 70;
Figure 70 B is the cross-sectional details figure of tissue thickness's compensating part of Figure 70;
Figure 71 is the perspective view of the tissue thickness's compensating part in the end effector of surgical instruments according at least one embodiment;
Figure 72 is the schematic diagram of the distortion that the tissue thickness's compensating part shown in Figure 71 is shown;
Figure 73 weaves sutural schematic diagram according to tissue thickness's compensating part of at least one embodiment, it illustrates to be in load to weave stitching thread in configuration;
Figure 74 be Figure 73 weave sutural schematic diagram, it illustrates be in release configuration weave stitching thread;
Figure 75 is the plane graph weaving sutural tissue thickness compensating part in the end effector of surgical instruments with Figure 73;
Figure 76 is the perspective view of the tissue thickness's compensating part in the end effector of surgical instruments according at least one embodiment;
Figure 77 is the partial plan layout of tissue thickness's compensating part of Figure 76;
Figure 78 is the exploded view of the end effector of Figure 61 and the fastener cartridge assembly of tissue thickness's compensating part;
Figure 79 is the partial sectional view of the fastener cartridge assembly of Figure 78, it illustrates the securing member of not pulling the trigger, partly pulling the trigger and pulling the trigger;
Figure 80 is the front view of the fastener cartridge assembly of Figure 78, it illustrates driver percussion securing member and enters into tissue thickness's compensating part from the nail chamber of fastener cartridge assembly;
Figure 81 is the detail drawing of the fastener cartridge assembly of Figure 80;
Figure 82 is tissue thickness's compensating part of Figure 61 and the front view of tissue that is captured in percussion securing member;
Figure 83 is tissue thickness's compensating part of Figure 61 and the front view of tissue that is captured in percussion securing member;
Figure 84 is the perspective view of the tissue thickness's compensating part in the end effector of surgical instruments according at least one embodiment;
Figure 85 is the schematic diagram of the distortion of the deformable tube of tissue thickness's compensating part that Figure 84 is shown;
Figure 86 is the detail drawing of the deformable tube of tissue thickness's compensating part of Figure 84;
Figure 87 is the schematic diagram of the distortion that the deformable tube of tissue thickness's compensating part is shown according at least one embodiment;
Figure 88 is the front view of the tissue thickness's compensating part according at least one embodiment, and this tissue thickness's compensating part comprises the tube element implanted against tissue;
Figure 89 is the front view of the tissue thickness's compensating part according at least one embodiment, and this tissue thickness's compensating part comprises the tube element implanted against tissue;
Figure 90 is the fragmentary, perspective view comprising the deformable tube of tubulose lattice according at least one embodiment;
Figure 91 is the front view of the tubulose strand of the deformable tube of Figure 90.
Figure 92 is the front view of the deformable tube of Figure 90;
Figure 93 is the front view of many tubulose strands of the deformable tube for Figure 90 according to various embodiment;
Figure 94 is the front view against the tubulose lattice organizing the Figure 90 implanted;
Figure 95 is the fragmentary, perspective view of the deformable tube according at least one embodiment;
Figure 96 is the fragmentary, perspective view of the deformable tube according at least one embodiment;
Figure 97 is the fragmentary, perspective view of the deformable tube according at least one embodiment;
Figure 98 is the front view of the deformable tube of Figure 97;
Figure 99 is the fragmentary, perspective view of the deformable tube according at least one embodiment;
Figure 100 is the fragmentary, perspective view of the deformable tube according at least one embodiment;
Figure 101 is the fragmentary, perspective view of the deformable tube according at least one embodiment;
Figure 102 is the perspective view of the tissue thickness's compensating part according at least one embodiment, and this tissue thickness's compensating part is positioned in the end effector of surgical instruments;
Figure 103 is the front view of the tube element of tissue thickness's compensating part of Figure 102;
Figure 104 is tissue thickness's compensating part of Figure 102 and the positive view of end effector, it illustrates the end effector being in non-clamping configuration;
Figure 105 is tissue thickness's compensating part of Figure 102 and the positive view of end effector, it illustrates the end effector being in clamping and percussion configuration;
Figure 106 is the positive view of the tissue thickness's compensating part according at least one embodiment, and this tissue thickness's compensating part is positioned in the end effector of surgical instruments;
Figure 107 is tissue thickness's compensating part of Figure 106 and the positive view of end effector, it illustrates the end effector being in clamping and percussion configuration;
Figure 108 is the positive view of the tissue thickness's compensating part in the end effector of surgical instruments according at least one embodiment;
Figure 109 is the cross-section front view of the tissue thickness's compensating part according at least one embodiment, and this tissue thickness's compensating part is positioned in the end effector of surgical instruments;
Figure 110 is tissue thickness's compensating part of Figure 109 and the cross-section front view of end effector, it illustrates the end effector being in clamping and percussion configuration;
Figure 111 is the perspective view of the tissue thickness's compensating part according at least one embodiment, and this tissue thickness's compensating part is positioned in the end effector of surgical instruments;
Figure 112 is the positive view of the tissue thickness's compensating part according at least one embodiment, and this tissue thickness's compensating part is positioned in the end effector of surgical instruments;
Figure 113 is the positive view of the tissue thickness's compensating part according at least one embodiment, and this tissue thickness's compensating part is positioned in the end effector of surgical instruments;
Figure 114 is the positive view of the tissue thickness's compensating part according at least one embodiment, and this tissue thickness's compensating part is positioned in the end effector of surgical instruments;
Figure 115 is the positive view of the tissue thickness's compensating part according at least one embodiment, and this tissue thickness's compensating part is positioned in the end effector of surgical instruments;
Figure 116 is the partial plan layout of the tissue thickness's compensating part according at least one embodiment, and this tissue thickness's compensating part is positioned in the end effector of surgical instruments;
Figure 117 is the partial plan layout of the tissue thickness's compensating part according at least one embodiment, and this tissue thickness's compensating part is positioned in the end effector of surgical instruments;
Figure 118 is tissue thickness's compensating part of Figure 116 and the local positive view of end effector, it illustrates the end effector being in non-clamping configuration;
Figure 119 is tissue thickness's compensating part of Figure 116 and the local positive view of end effector, it illustrates the end effector being in clamping configuration;
Figure 120 is the perspective view of the tissue thickness's compensating part in the end effector of surgical instruments according at least one embodiment;
Figure 121 is tissue thickness's compensating part of Figure 120 and the front view of end effector;
Figure 122 is tissue thickness's compensating part of Figure 120 and the perspective view of end effector, it illustrates towards the anvil block of the end effector of clamping configuration motion;
Figure 123 is the front view of the tissue thickness's compensating part shown in Figure 120 and end effector, it illustrates the end effector being in clamping configuration;
Figure 124 is the positive view of the tube element of the tissue thickness's compensating part shown in Figure 120 being in non-deformed configuration;
Figure 125 is the positive view of the tube element of tissue thickness's compensating part of the Figure 120 being in deformed configuration;
Figure 126 is the perspective view of the tissue thickness's compensating part in the end effector of surgical instruments according at least one embodiment;
Figure 127 is tissue thickness's compensating part of Figure 126 and the positive view of end effector, it illustrates the end effector being in clamping configuration;
Figure 128 is tissue thickness's compensating part of Figure 126 and the positive view of end effector, it illustrates the end effector being in percussion and the non-clamping configuration of part;
Figure 129 is the perspective view of the tissue thickness's compensating part according at least one embodiment, and this tissue thickness's compensating part is positioned in the end effector of surgical instruments;
Figure 130 is the positive view of the tissue thickness's compensating part according at least one embodiment, and this tissue thickness's compensating part is fixed to the anvil block of surgical end effectors;
Figure 131 is tissue thickness's compensating part of Figure 130 and the positive view of end effector, it illustrates the end effector being in clamping configuration;
Figure 132 is tissue thickness's compensating part of Figure 130 and the positive view of end effector, it illustrates the end effector being in percussion and the non-clamping configuration of part;
Figure 133 is tissue thickness's compensating part of Figure 132 and the detail drawing of end effector;
Figure 134 is the positive view being clamped in the tissue thickness's compensating part in the end effector of surgical instruments according at least one embodiment, it illustrates and disposes nail by nail percussion sliding part;
Figure 135 is tissue thickness's compensating part of Figure 134 and the positive view of end effector, it illustrates the end effector being in clamping configuration;
Figure 136 is tissue thickness's compensating part of Figure 134 and the positive view of end effector, it illustrates the end effector being in percussion configuration;
Figure 137 is the perspective view of the tissue thickness's compensating part in the end effector of surgical instruments according at least one embodiment;
Figure 138 is the perspective view of the tube element of tissue thickness's compensating part of Figure 137;
Figure 139 is the perspective view of the tube element of Figure 138 cut-off between the first end and the second end;
Figure 140 is the perspective view of tissue thickness's compensating part of Figure 137, it illustrates and cuts off the cutting element of tissue thickness's compensating part and the nail of joining tissue thickness compensation part;
Figure 141 is the perspective view can making the framework of tissue thickness's compensating part of Figure 137 according at least one embodiment;
Figure 142 is the positive view of the framework of Figure 141, it illustrates tissue thickness's compensating part of the Figure 137 solidified in the frame;
Figure 143 removes from the framework of Figure 142 and is produced the positive view for the tissue thickness's compensating part being undertaken pruning by least one cutting device;
Figure 144 is the positive view of tissue thickness's compensating part of Figure 143 after at least one cutting device is pruned tissue thickness's compensating part;
Figure 145 is the positive view of the tissue thickness's compensating part formed in the framework of Figure 142, it illustrates the cut off pipe with various cross-sectional geometries;
Figure 146 is the perspective view of the tissue thickness's compensating part in the end effector of surgical instruments according at least one embodiment;
Figure 147 is the detail drawing of tissue thickness's compensating part of Figure 146 according at least one embodiment;
Figure 148 is the fragmentary, perspective view of the tissue thickness's compensating part according at least one embodiment;
Figure 149 is the fragmentary, perspective view of the tissue thickness's compensating part according at least one embodiment;
Figure 150 A is tissue thickness's compensating part of Figure 146 and the positive view of end effector, it illustrates the end effector being in non-clamping configuration;
Figure 150 B is tissue thickness's compensating part of Figure 146 and the positive view of end effector, it illustrates the end effector being in clamping configuration;
Figure 150 C is tissue thickness's compensating part of Figure 146 and the positive view of end effector, it illustrates the end effector being in clamping and percussion configuration;
Figure 150 D is the positive view of tissue thickness's compensating part of the Figure 146 be captured in percussion nail;
Figure 150 E is the positive view of tissue thickness's compensating part of the Figure 146 be captured in percussion nail, it illustrates further expanding of tissue thickness's compensating part;
Figure 151 is the perspective cut-away schematic view of the tissue thickness's compensating part in the end effector of surgical instruments according at least one embodiment;
Figure 152 is the partial elevation view of tissue thickness's compensating part of the Figure 151 be captured in percussion nail;
Figure 153 is the front view of the deformable tube of tissue thickness's compensating part of Figure 151;
Figure 154 is the front view of the deformable tube according at least one embodiment;
Figure 155 is the perspective cut-away schematic view of tissue thickness's compensating part of Figure 151;
Figure 156 is the perspective cut-away schematic view of the tissue thickness's compensating part in the end effector of surgical instruments according at least one embodiment;
Figure 157 is the perspective view of the tissue thickness's compensating part according at least one embodiment;
Figure 158 is the local positive view of tissue thickness's compensating part of Figure 157, it illustrates and the securing member organized and engage with tissue thickness compensating part;
Figure 159 is the perspective cut-away schematic view of the tissue thickness's compensating part according at least one embodiment;
Figure 160 is the front view of the tissue thickness's compensating part according at least one embodiment;
Figure 161 is the front view of the tissue thickness's compensating part according at least one embodiment;
Figure 162 is the front view of the tissue thickness's compensating part according at least one embodiment, and this tissue thickness's compensating part is positioned in the rounded ends executor of surgical instruments;
Figure 163 is the front view of the tissue thickness's compensating part according at least one embodiment;
Figure 164 is the front view of the tissue thickness's compensating part according at least one embodiment;
Figure 165 is the front view of the tissue thickness's compensating part according at least one embodiment;
Figure 166 is the front view of the tissue thickness's compensating part according at least one embodiment;
Figure 167 is the front view of the tissue thickness's compensating part according at least one embodiment;
Figure 168 is the fragmentary, perspective view of the tissue thickness's compensating part according at least one embodiment;
Figure 169 is the fragmentary, perspective view of the tissue thickness's compensating part according at least one embodiment, and this tissue thickness's compensating part is positioned in the end effector of surgical instruments;
Figure 170 is the fragmentary, perspective view of the tissue thickness's compensating part according at least one embodiment, and this tissue thickness's compensating part has the securing member be positioned in its hole;
Figure 171 is the fragmentary, perspective view of tissue thickness's compensating part of Figure 169, it illustrates the tissue thickness's compensating part being in non-deformed configuration;
Figure 172 is the fragmentary, perspective view of the tissue thickness's compensating part shown in Figure 169, it illustrates the tissue thickness's compensating part being in portion deforms configuration;
Figure 173 is the fragmentary, perspective view of tissue thickness's compensating part of Figure 169, it illustrates the tissue thickness's compensating part being in deformed configuration;
Figure 174 is the perspective view of the tissue thickness's compensating part according at least one embodiment;
Figure 175 is the perspective view comprising the end effector of the suture instruments of anvil block and nail bin according at least one embodiment;
Figure 176 is the sectional view of the end effector of Figure 175, it illustrates the nail being in non-cock be positioned in nail bin and the tissue thickness's compensating part comprising the sealed container being in the state of not piercing through, wherein for illustrative purposes, container is illustrated as its part and is removed;
Figure 177 is the sectional view of the end effector of Figure 175, it illustrates the nail of the Figure 176 being at least part of cock and is in the container piercing through state at least partly;
Figure 178 is the perspective view comprising the end effector of the suture instruments of anvil block and nail bin according at least one embodiment;
Figure 179 is the sectional view of the end effector of Figure 178, it illustrates the nail being in non-cock and the sealed container being in the state of not piercing through be positioned in tissue thickness's compensating part of nail bin that are positioned in nail bin, wherein for illustrative purposes, container is illustrated as its part and is removed;
Figure 180 is the sectional view of the end effector of Figure 178, it illustrates to be in the container piercing through state at least partly in the nail of the Figure 179 being at least part of cock and nail bin;
Figure 181 is comprising anvil block and being attached to the perspective view of end effector of suture instruments of sealed container of anvil block according to the embodiment of at least one alternative, and wherein for illustrative purposes, container is illustrated as its part and is removed;
Figure 182 is the sectional view of the end effector of Figure 181, it illustrates at least in part from the nail of nail bin percussion and be attached to anvil block be in the container piercing through state at least partly;
Figure 183 is attached to the sectional view with the container of the anvil block of the Figure 181 shown in extended mode;
Figure 184 is attached to the detail drawing with the container of the anvil block of the Figure 183 shown in extended mode;
Figure 185 shows the container extended on the direction transverse to nail line;
Figure 186 shows the multiple containers extended on the direction transverse to nail line;
Figure 187 is the sectional view of the nail bin according to various embodiment;
Figure 188 is the partial sectional view of the Figure 187 be under implantation condition;
Figure 189 A is the fragmentary, perspective view of tissue thickness's compensating part before expansion;
Figure 189 B is the fragmentary, perspective view of tissue thickness's compensating part between Growth period of Figure 189;
Figure 190 is the fragmentary, perspective view comprising tissue thickness's compensating part of the swollen compositions of fluid-soluble according to various embodiment;
Figure 191 is the sectional view being oriented to the tissue adjacent with tissue thickness compensating part according to various embodiment;
Figure 192 is by the partial sectional view of the Figure 191 after percussion at nail bin;
Figure 193 illustrates the schematic diagram with tissue thickness's compensating part of the Figure 191 organizing adjacent implantation;
Figure 194 is the fragmentary, perspective view of the tissue thickness's compensating part according to various embodiment;
Figure 195 is the perspective view of the jaw of tissue thickness's compensating part that can receive Figure 194;
Figure 196 is the partial sectional view of nail bin, it illustrates the nail disposed from nail bin;
Figure 197 is that the top be positioned in the executor of disposable loading unit organizes thickness compensation part and bottom to organize the perspective view of thickness compensation part;
Figure 198 A is the sectional view organizing thickness compensation part according to the bottom of Figure 197 manufactured in a mold of various embodiment;
Figure 198 B is the sectional view of the three-layer weave thickness compensation part manufactured in a mold according to various embodiment;
Figure 199 is the sectional view of the anvil block according to various embodiment, and this anvil block comprises the tissue thickness's compensating part comprising reinforcing material;
Figure 200 is the sectional view of the tissue according to various embodiment, and this tissue positioned organizes thickness compensation part and bottom to organize in the middle of thickness compensation part on top;
Figure 20 1 is the sectional view of Figure 200, it illustrates the nail disposed from nail bin;
Figure 20 2 is the sectional views of Figure 200 after nail bin is by percussion;
Figure 20 3A shows the pin according to various embodiment, and this pin can deliver a fluid to the tissue thickness's compensating part being attached to nail bin;
Figure 20 3B is the sectional view of the nail bin comprising tissue thickness's compensating part, and this tissue thickness's compensating part can receive the pin of Figure 20 3A;
Figure 20 4 shows the method for the manufacture tissue thickness compensating part according to various embodiment;
Figure 20 5 is schematic diagram and the method for the thickness compensation part expanded according to the formation of various embodiment;
Figure 20 6 shows the micelle comprising hydrogel precursor; And
Figure 20 7 is schematic diagrams of the surgical instruments according to various embodiment, and this surgical instruments comprises tissue thickness's compensating part and can be delivered to the fluid of tissue thickness's compensating part;
Figure 20 8 is fragmentary, perspective views of the tissue thickness's compensating part according at least one embodiment, and this tissue thickness's compensating part is fixed to the anvil block of the end effector of surgical instruments.
Figure 20 9 is perspective views of the tube element of tissue thickness's compensating part of Figure 20 8.
Figure 21 0 is the perspective view of the tube element of Figure 20 9, it illustrates the tube element being cut into two halves and the fluid contacting hydroaropic substance in every half.
Figure 21 1 is the perspective view of the half of the cut-out tube element of Figure 21 0, it illustrates the expansion cutting off tube element.
Run through multiple view, the parts that corresponding reference marks instruction is corresponding.The example illustrated herein shows some embodiment of the present invention in one form, and this type of example should be interpreted as and limit the scope of the invention by any way.
Detailed description of the invention
The applicant of the application also has following U.S. Patent application, and these patent applications are incorporated to herein by reference separately completely:
Name is called the U.S. Patent Application Serial Number 12/894,311 (attorney END6734USNP/100058) of " SURGICAL INSTRUMENTS WITH RECONFIGURABLESHAFT SEGMENTS ";
Name is called the U.S. Patent Application Serial Number 12/894,340 (attorney END6735USNP/100059) of " SURGICAL STAPLE CARTRIDGES SUPPORTING NON-LINEARLY ARRANGED STAPLES AND SURGICAL STAPLINGINSTRUMENTS WITH COMMON STAPLE-FORMING POCKETS ";
Name is called the U.S. Patent Application Serial Number 12/894,327 (attorney END6736USNP/100060) of " JAW CLOSURE ARRANGEMENTS FOR SURGICALINSTRUMENTS ";
Name is called the U.S. Patent Application Serial Number 12/894,351 (attorney END6839USNP/100524) of " SURGICAL CUTTING AND FASTENING INSTRUMENTSWITH SEPARATE AND DISTINCT FASTENER DEPLOYMENT ANDTISSUE CUTTING SYSTEMS ";
Name is called the U.S. Patent Application Serial Number 12/894,338 (attorney END6840USNP/100525) of " IMPLANTABLE FASTENER CARTRIDGE HAVING A NON-UNIFORM ARRANGEMENT ";
Name is called the U.S. Patent Application Serial Number 12/894,369 (attorney END6841USNP/100526) of " IMPLANTABLE FASTENER CARTRIDGE COMPRISING ASUPPORT RETAINER ";
Name is called the U.S. Patent Application Serial Number 12/894,312 (attorney END6842USNP/100527) of " IMPLANTABLE FASTENER CARTRIDGE COMPRISINGMULTIPLE LAYERS ";
Name is called the U.S. Patent Application Serial Number 12/894,377 (attorney END6843USNP/100528) of " SELECTIVELY ORIENTABLE IMPLANTABLE FASTENERCARTRIDGE ";
Name is called the U.S. Patent Application Serial Number 12/894,339 (attorney END6847USNP/100532) of " SURGICAL STAPLING INSTRUMENT WITH COMPACTARTICULATION CONTROL ARRANGEMENT ";
Name is called the U.S. Patent Application Serial Number 12/894,360 (attorney END6848USNP/100533) of " SURGICAL STAPLING INSTRUMENT WITH A VARIABLESTAPLE FORMING SYSTEM ";
Name is called the U.S. Patent Application Serial Number 12/894,322 (attorney END6849USNP/100534) of " SURGICAL STAPLING INSTRUMENT WITHINTERCHANGEABLE STAPLE CARTRIDGE ARRANGEMENTS ";
Name is called the U.S. Patent Application Serial Number 12/894,350 (attorney END6855USNP/100540) of " SURGICAL STAPLE CARTRIDGES WITH DETACHABLESUPPORT STRUCTURES AND SURGICAL STAPLING INSTRUMENTSWITH SYSTEMS FOR PREVENTING ACTUATION MOTIONS WHEN ACARTRIDGE IS NOT PRESENT ";
Name is called the U.S. Patent Application Serial Number 12/894,383 (attorney END6856USNP/100541) of " IMPLANTABLE FASTENER CARTRIDGE COMPRISINGBIOABSORBABLE LAYERS ";
Name is called the U.S. Patent Application Serial Number 12/894,389 (attorney END6857USNP/100542) of " COMPRESSIBLE FASTENER CARTRIDGE ";
Name is called the U.S. Patent Application Serial Number 12/894,345 (attorney END6858USNP/100543) of " FASTENERS SUPPORTED BY A FASTENER CARTRIDGESUPPORT ";
Name is called the U.S. Patent Application Serial Number 12/894,306 (attorney END6859USNP/100544) of " COLLAPSIBLE FASTENER CARTRIDGE ";
Name is called the U.S. Patent Application Serial Number 12/894,318 (attorney END6860USNP/100546) of " FASTENER SYSTEM COMPRISING A PLURALITY OFCONNECTED RETENTION MATRIX ELEMENTS ";
Name is called the U.S. Patent Application Serial Number 12/894,330 (attorney END6861USNP/100547) of " FASTENER SYSTEM COMPRISING A RETENTION MATRIXAND AN ALIGNMENT MATRIX ";
Name is called the U.S. Patent Application Serial Number 12/894,361 (attorney END6862USNP/100548) of " FASTENER SYSTEM COMPRISING A RETENTIONMATRIX ";
Name is called the U.S. Patent Application Serial Number 12/894,367 (attorney END6863USNP/100549) of " FASTENING INSTRUMENT FOR DEPLOYING A FASTENERSYSTEM COMPRISING A RETENTION MATRIX ";
Name is called the U.S. Patent Application Serial Number 12/894,388 (attorney END6864USNP/100550) of " FASTENER SYSTEM COMPRISING A RETENTION MATRIXAND A COVER ";
Name is called the U.S. Patent Application Serial Number 12/894,376 (attorney END6865USNP/100551) of " FASTENER SYSTEM COMPRISING A PLURALITY OFFASTENER CARTRIDGES ";
Name is called the U.S. Patent Application Serial Number 13/097,865 (attorney END6735USCIP1/100059CIP1) of " SURGICAL STAPLER ANVIL COMPRISING A PLURALITYOF FORMING POCKETS ";
Name is called the U.S. Patent Application Serial Number 13/097,936 (attorney END6736USCIP1/100060CIP1) of " TISSUE THICKNESS COMPENSATOR FOR A SURGICALSTAPLER ";
Name is called the U.S. Patent Application Serial Number 13/097,954 (attorney END6840USCIP1/100525CIP1) of " STAPLE CARTRIDGE COMPRISING A VARIABLETHICKNESS COMPRESSIBLE PORTION ";
Name is called the U.S. Patent Application Serial Number 13/097,856 (attorney END6841USCIP1/100526CIP1) of " STAPLE CARTRIDGE COMPRISING STAPLES POSITIONEDWITHIN A COMPRESSIBLE PORTION THEREOF ";
Name is called the U.S. Patent Application Serial Number 13/097,928 (attorney END6842USCIP1/100527CIP1) of " TISSUE THICKNESS COMPENSATOR COMPRISINGDETACHABLE PORTIONS ";
Name is called the U.S. Patent Application Serial Number 13/097,891 (attorney END6843USCIP1/100528CIP1) of " TISSUE THICKNESS COMPENSATOR FOR A SURGICALSTAPLER COMPRISING AN ADJUSTABLE ANVIL ";
Name is called the U.S. Patent Application Serial Number 13/097,948 (attorney END6847USCIP1/100532CIP1) of " STAPLE CARTRIDGE COMPRISING AN ADJUSTABLEDISTAL PORTION ";
Name is called the U.S. Patent Application Serial Number 13/097,907 (attorney END6848USCIP1/100533CIP1) of " COMPRESSIBLE STAPLE CARTRIDGE ASSEMBLY ";
Name is called the U.S. Patent Application Serial Number 13/097,861 (attorney END6849USCIP1/100534CIP1) of " TISSUE THICKNESS COMPENSATOR COMPRISINGPORTIONS HAVING DIFFERENT PROPERTIES ";
Name is called the U.S. Patent Application Serial Number 13/097,869 (attorney END6855USCIP1/100540CIP1) of " STAPLE CARTRIDGE LOADING ASSEMBLY ";
Name is called the U.S. Patent Application Serial Number 13/097,917 (attorney END6856USCIP1/100541CIP1) of " COMPRESSIBLE STAPLE CARTRIDGE COMPRISINGALIGNMENT MEMBERS ";
Name is called the U.S. Patent Application Serial Number 13/097,873 (attorney END6857USCIP1/100542CIP1) of " STAPLE CARTRIDGE COMPRISING A RELEASABLEPORTION ";
Name is called the U.S. Patent Application Serial Number 13/097,938 (attorney END6858USCIP1/100543CIP1) of " STAPLE CARTRIDGE COMPRISING COMPRESSIBLEDISTORTION RESISTANT COMPONENTS ";
Name is called the U.S. Patent Application Serial Number 13/097,924 (attorney END6859USCIP1/100544CIP1) of " STAPLE CARTRIDGE COMPRISING A TISSUE THICKNESSCOMPENSATOR ";
Name is called the U.S. Patent Application Serial Number 13/242,029 (attorney END6841USCIP2/100526CIP2) of " SURGICAL STAPLER WITH FLOATING ANVIL ";
Name is called the U.S. Patent Application Serial Number 13/242,066 (attorney END6841USCIP3/100526CIP3) of " CURVED END EFFECTOR FOR A STAPLINGINSTRUMENT ";
Name is called the U.S. Patent Application Serial Number 13/242,086 (attorney END7020USNP/110374) of " STAPLE CARTRIDGE INCLUDING COLLAPSIBLE DECK ";
Name is called the U.S. Patent Application Serial Number 13/241,912 (attorney END7019USNP/110375) of " STAPLE CARTRIDGE INCLUDING COLLAPSIBLE DECKARRANGEMENT ";
Name is called the U.S. Patent Application Serial Number 13/241,922 (attorney END7013USNP/110377) of " SURGICAL STAPLER WITH STATIONARY STAPLEDRIVERS ";
Name is called the U.S. Patent Application Serial Number 13/241,637 (attorney END6888USNP3/110378) of " SURGICAL INSTRUMENT WITH TRIGGER ASSEMBLY FORGENERATING MULTIPLE ACTUATION MOTIONS "; And
Name is called the U.S. Patent Application Serial Number 13/241,629 (attorney END6888USNP2/110379) of " SURGICAL INSTRUMENT WITH SELECTIVELYARTICULATABLE END EFFECTOR ".
The applicant of the application also has following U.S. Patent application, and these patent applications and the application submit on the same day, and each with way of reference separately entirety be incorporated to herein:
Name be called the U.S. Patent Application Serial Number of " TISSUE THICKNESS COMPENSATOR COMPRISING APLURALITY OF CAPSULES " _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ (attorney END6864USCIP1/100550CIP1);
Name be called the U.S. Patent Application Serial Number of " TISSUE THICKNESS COMPENSATOR COMPRISING APLURALITY OF LAYERS " _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ (attorney END6864USCIP2/100550CIP2);
Name be called the U.S. Patent Application Serial Number of " EXPANDABLE TISSUE THICKNESS COMPENSATOR " _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ (attorney END6843USCIP2/100528CIP2).
Name be called the U.S. Patent Application Serial Number of " TISSUE THICKNESS COMPENSATOR COMPRISING ARESERVOIR " _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ (attorney END6843USCIP3/100528CIP3);
Name be called the U.S. Patent Application Serial Number of " RETAINER ASSEMBLY INCLUDING A TISSUE THICKNESSCOMPENSATOR " _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ (attorney END6843USCIP4/100528CIP4);
Name be called the U.S. Patent Application Serial Number of " TISSUE THICKNESS COMPENSATOR COMPRISING ATLEAST ONE MEDICAMENT " _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ (attorney END6843USCIP5/100528CIP5);
Name be called the U.S. Patent Application Serial Number of " TISSUE THICKNESS COMPENSATOR COMPRISINGCONTROLLED RELEASE AND EXPANSION " _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ (attorney END6843USCIP6/100528CIP6);
Name be called the U.S. Patent Application Serial Number of " TISSUE THICKNESS COMPENSATOR COMPRISING FIBERSTO PRODUCE A RESILIENT LOAD " _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ (attorney END6843USCIP7/100528CIP7);
Name be called the U.S. Patent Application Serial Number of " TISSUE THICKNESS COMPENSATOR COMPRISINGRESILIENT MEMBERS " _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ (attorney END6843USCIP9/100528CIP9);
Name be called the U.S. Patent Application Serial Number of " METHODS FOR FORMING TISSUE THICKNESSCOMPENSATOR ARRANGEMENTS FOR SURGICAL STAPLERS " _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ (attorney END6843USCIP10/100528CP10);
Name be called the U.S. Patent Application Serial Number of " TISSUE THICKNESS COMPENSATORS " _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ (attorney END6843USCIP11/100528CP11);
Name be called the U.S. Patent Application Serial Number of " LAYERED TISSUE THICKNESS COMPENSATOR " _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ (attorney END6843USCIP12/100528CP12);
Name be called the U.S. Patent Application Serial Number of " TISSUE THICKNESS COMPENSATORS FOR CIRCULARSURGICAL STAPLERS " _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ (attorney END6843USCIP13/100528CP13);
Name be called the U.S. Patent Application Serial Number of " TISSUE THICKNESS COMPENSATOR COMPRISINGCAPSULES DEFINING A LOW PRESSURE ENVIRONMENT " _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ (attorney END7100USNP/110601);
Name be called the U.S. Patent Application Serial Number of " TISSUE THICKNESS COMPENSATOR COMPRISED OF APLURALITY OF MATERIALS " _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ (attorney END7101USNP/110602);
Name be called the U.S. Patent Application Serial Number of " MOVABLE MEMBER FOR USE WITH A TISSUETHICKNESS COMPENSATOR " _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ (attorney END7107USNP/110603);
Name be called the U.S. Patent Application Serial Number of " TISSUE THICKNESS COMPENSATOR COMPRISING APLURALITY OF MEDICAMENTS " _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ (attorney END7102USNP/110604);
Name be called the U.S. Patent Application Serial Number of " TISSUE THICKNESS COMPENSATOR AND METHOD FORMAKING THE SAME " _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ (attorney END7103USNP/110605);
Name be called the U.S. Patent Application Serial Number of " TISSUE THICKNESS COMPENSATOR COMPRISINGCHANNELS " _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ (attorney END7104USNP/110606);
Name be called the U.S. Patent Application Serial Number of " TISSUE THICKNESS COMPENSATOR COMPRISING TISSUEINGROWTH FEATURES " _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ (attorney END7105USNP/110607); And
Name be called the U.S. Patent Application Serial Number of " DEVICES AND METHODS FOR ATTACHING TISSUETHICKNESS COMPENSATING MATERIALS TO SURGICAL STAPLINGINSTRUMENTS " _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ (attorney END7106USNP/110608).
Now some exemplary embodiment will be described, to understand the structure of apparatus and method disclosed herein, function, manufacture and purposes on the whole.One or more examples of these embodiments are shown in the drawings.Those of ordinary skill in the art should be appreciated that herein specifically describe and the apparatus and method be illustrated in accompanying drawing are unrestriced exemplary embodiment.Carry out the feature of graphic extension or description with regard to an exemplary embodiment, can combine with the feature of other embodiments.This type of amendment and modification comprise within the scope of the invention.
Can adopt disclosed herein or claimed for the manufacture of, any one in the method for formation or in other words article of manufacture or product manufactures, formed or will all or part of of the goods considered or product be produced in other words, and manufacture in these class methods of employing, when forming or in other words produce the part of goods or the product considered, can the remainder of article of manufacture or product by any way, comprise by adopt disclosed herein and claimed for the manufacture of, formed or in other words article of manufacture or product additive method in any one, and can be combined in any way the various piece of so producing.Similarly, disclosed herein or claimed any goods or product all can individualisms, or are combined with so disclosed any other goods compatible with it or product and exist or exist as its integral part.Therefore, can by conjunction with shown in a kind of goods, product or method or all or part of feature with one or more other biocompatible article, product or methods of described special characteristic, structure or characteristic or characteristic unrestrictedly combine.This type of amendment and modification comprise within the scope of the invention.
With reference to certain figures or otherwise, when specific embodiment of the present invention disclosed herein or some goods, product or method can comprise some structure, characteristic or feature, reader should be appreciated that this represents that those structures, characteristic or feature structure can be embodied in considered goods, product or method by any compatible combination.Specifically, this type of disclosure of multiple optional construction, characteristic or feature should be understood in addition openly all that structure, characteristic or feature in combination, but as the structure each other disclosed in alternative form, characteristic or feature situation except.When this class formation, characteristic or feature as each other disclosed in alternative form, this should be understood to open for those alternative forms as the replacement be used for each other.
Term used herein " nearside " and " distally " are for the clinician of the handle portions of manipulation of surgical apparatus.Term " nearside " refers to the part near clinician, and term " distally " refers to the part away from clinician.It is also understood that for succinct and clear for the purpose of, the spatial terminology of " vertically ", " level ", "up" and "down" and so on can be used such as herein by reference to the accompanying drawings.But surgical instruments uses in many directions and position, and these terms nonrestrictive and/or absolute.
Provide various exemplary means and method to perform abdominal cavity mirror and micro-wound surgical operation operation.But reader is by easy to understand, and various method and apparatus disclosed herein can be used in many surgical procedures and application (comprise and operate with open surgery the application combined).Continue to consult this detailed description of the invention, reader will be further understood that, various apparatus disclosed herein can by any way in insertosome, such as by nature tract, by being formed at the otch or puncturing hole etc. in tissue.The working portion of apparatus or end effector part can be plugged directly in patient body or insert by the access to plant with service aisle, and the end effector of surgical instruments and the axis of elongation advance by described service aisle.
Forward accompanying drawing to, wherein in multiple view, the assembly that similar numeral is similar, Fig. 1 shows the surgical instruments 10 can putting into practice some unique benefit.Surgery suturing appliance 10 is designed to handle and/or activate operationally be attached to the various forms of surgery suturing appliance 10 and the end effector 12 of size.In Fig. 1-Fig. 1 E, such as end effector 12 comprises elongated channel 14, and this elongated channel forms the lower jaw 13 of end effector 12.Elongated channel 14 can support " implantable " nail bin 30 and movably support the anvil block 20 of the upper jaw 15 being used as end effector 12.
Elongated channel 14 can be made, and can be formed with spaced-apart sidewalls 16 by such as 300 & 400 series, 17-4 & 17-7 rustless steel, titanium etc.Anvil block 20 such as can be processed by 300 & 400 serial 17-4 & 17-7 rustless steel, titanium etc., and nail shaped lower face can be had, described nail shaped lower face is totally denoted as 22 and is wherein formed with multiple nail shaping pit 23.See Figure 1B-1E.In addition, anvil block 20 has and is divided into two-part slide assemblies 24 from anvil block 20 proximad projection.Anvil block pin 26, from each horizontal lateral process of slide assemblies 24, to be received in respective slots in the sidewall 16 of elongated channel 14 or opening 18, thus is conducive to anvil block pin 26 movably or to be pivotally attached to described respective slots or opening 18.
Various forms of implanted nail bin can use together with surgical instruments disclosed herein.Below will discuss specific nail bin configuration and structure in more detail.But, in figure ia, show implanted nail bin 30.Nail bin 30 has main part 31, and this main part is made up of compressible hemostatic material (such as oxidized regenerated cellulose (" ORC ") or can the foam of bio-absorbable), is wherein supported with the unfashioned peg 32 of multirow.For anti-non-magnetic shim influenced and prevent hemostatic material introducing and position fixing process during activated, whole storehouse can be coated with or be enclosed with biodegradable film 38, such as with trade mark the six cyclic ketones films sold or polyglycerol sebacate (PGS) film or by PGA (polyglycolic acid, sell with trade mark Vicryl), PCL (polycaprolactone), PLA or PLLA (polylactic acid), PHA (polyhydroxyalkanoatefrom), PGCL (poliglecaprone 25, sell with trade mark Monocryl) or other biodegradable films of being formed of the complex of PGA, PCL, PLA, PDS, described film is only just permeable when breaking.The size of the body 31 of nail bin 30 is configured to be supported on removedly in elongated channel 14 as shown in the figure, make when anvil block 20 be driven to be formed with nail bin 30 contact time, each nail 32 wherein is all aimed at corresponding nail shaping pit 23.
In use, once the contiguous target tissue location of end effector 12, end effector 12 is just handled to be caught by target tissue or be clamped between the upper surface 36 of nail bin 30 and the nail profiled surface 22 of anvil block 20.Nail 32 is shaped in the following way: anvil block 20 is moved in the path being arranged essentially parallel to elongated channel 14, to make nail profiled surface 22 and more specifically to make nail shaping pit 23 wherein substantially contact the end face 36 of nail bin 30 simultaneously.Along with anvil block 20 continues to move in nail bin 30, the leg 34 of nail 32 contacts corresponding nail shaping pit 23 in anvil block 20, and nail shaping pit 23 is for making nail lower limb 34 bending to make nail 32 be configured as " B shape ".Further motion towards the anvil block 20 of elongated channel 14 will be compressed nail 32 further and is made it be configured as the final forming height " FF " of expectation.
Above-mentioned nail forming process is described in Figure 1B-1E substantially.Such as, Figure 1B illustrates end effector 12, and its target tissue " T " is between anvil block 20 and the end face 36 of implantable nail bin 30.Fig. 1 C illustrates the initial clamped position of anvil block 20, and wherein anvil block 20 has been closed up on target tissue " T ", between the end face 36 target tissue " T " being clamped in anvil block 20 and nail bin 30.Fig. 1 D illustrates and initially follows closely shaping, and wherein anvil block 20 has started to compress nail bin 30, makes the leg 34 of nail 32 begin through the nail shaping pit 23 in anvil block 20 and be shaped.Fig. 1 E illustrates the nail 32 being in final shaped state through target tissue " T ", has removed anvil block 20 for clarity.Once nail 32 is shaped and is fastened to target tissue " T ", surgeon just makes anvil block 20 move to open position, can keep being attached to target tissue to make warehouse 31 and nail 32 when withdrawing from end effector 12 from patient.When two jaws 13,15 clamp jointly, end effector 12 makes all nails be shaped simultaneously.All the other " by conquassation " bulk materials 31 are used as hemorrhage (ORC) and nail line reinforcing agent (PGA, PDS or any other film compositions 38 above-mentioned).In addition, need not leave warehouse 31 owing to following closely 32 at shaping, the probability that therefore nail 32 becomes deformity at shaping is minimized.As used herein, term " implanted " refers to except nail, and the warehouse material of support nail also will be maintained in patient body and also can finally be absorbed by patient body.This type of implanted nail bin is different from previous nail bin structure, and this previous nail bin is configured in it and is still intactly positioned in end effector by after percussion.
In various concrete enforcement, end effector 12 can be connected to the axis of elongation assembly 40 from shank assembly 100 projection.End effector 12 (when closed) and axis of elongation assembly 40 can have similar shape of cross section, and its size is configured to pass sleeve pipe needle tubing or service aisle with another kind of access instruments formal operations.As used herein, term " operationally passes " and refers to that end effector and inserting by passage or tube opening at least partially of axis of elongation assembly maybe can pass passage or tube opening, and in passage or tube opening, can handle surgery stitching operation to it.When in the closed position, the jaw 13 and 15 of end effector 12 can be end effector provides the shape of cross section of substantial circular to be beneficial to it through circular path/opening.But, end effector of the present invention can be imagined and axis of elongation assembly provides other shape of cross sections, thus can otherwise through inlet passage and the opening with non-circular transverse cross-section.Therefore, the overall dimension of the cross section of closed end effector by end effector by relevant for the size of the passage that passes or opening.Therefore, an end effector such as can be called as " 5mm " end effector, and this refers to that it operationally can be at least the opening of about 5mm through diameter.
Axis of elongation assembly 40 can have the external diameter substantially equal with the external diameter of end effector in the close position 12.Such as, 5mm end effector can be connected to the axis of elongation assembly 40 with 5mm cross-sectional diameter.But continue to consult this detailed description of the invention, it is evident that, the present invention can use in conjunction with the end effector of different size effectively.Such as, 10mm end effector can be attached to the axis of elongation with 5mm cross-sectional diameter.On the contrary, for the application entering opening or passage wherein providing 10mm or larger, axis of elongation assembly 40 can have the cross-sectional diameter of 10mm (or larger), but also can activate 5mm or 10mm end effector.Therefore, the external diameter of outer shaft 40 can be identical or different with the external diameter of the closed end effector 12 being attached to outer shaft 40.
As shown in the figure, axis of elongation assembly 40 distad extends along straight line substantially from shank assembly 100, to limit longitudinal axis A-A.Such as, axis of elongation assembly 40 can be about 9-16 inch (229-406mm) length.But axis of elongation assembly 40 can other length provide, or wherein can have joint, or otherwise can be conducive to end effector 12 and carry out joint motions relative to other parts of axle or shank assembly, as hereafter discussed in more detail.Axis of elongation assembly 40 comprises ridge component 50, and this ridge component extends to end effector 12 from shank assembly 100.The proximal extremity of the elongated channel 14 of end effector 12 has a pair maintenance gudgeon 17 from its projection, this, in the gudgeon opening keeping the size of gudgeon to be configured to be received in the correspondence provided in the distal end of ridge component 50 or support 52, can connect axis of elongation assembly 40 removedly to make end effector 12.Ridge component 50 can be made up of such as 6061 or 7075 aluminum, rustless steel, titanium etc.
Shank assembly 100 comprises pistol grasping type shell, and this pistol grasping type shell can be made into two or more parts for assembling object.Such as, shank assembly 100 as shown in the figure comprise by polymer or plastic material molding or in other words make and be designed to the right hand housing member 102 that is combined together and left hand housing member (not shown).By molding or the snap in features structure in other words formed, bolt and pod wherein and/or together with this type of housing member being attached to by binding agent, screw etc.Ridge component 50 has proximal extremity 54, and this proximal extremity is formed flange 56.Flange 56 can be supported in groove 106 rotatably, and this groove is formed by from each in housing member 102,104 to the fit ribs 108 of inner process.This structure is conducive to ridge component 50 and is attached to shank assembly 100, makes ridge component 50 can rotate around longitudinal axis A-A along 360 ° of paths relative to shank assembly 100 simultaneously.
As found out further in FIG, ridge component 50 is through installing axle bush 60 and being supported by installation axle bush 60, and this installation axle bush 60 is rotatably attached to shank assembly 100.Install axle bush 60 and have proximal flange 62 and distal lip 64, this proximal flange and distal lip limit rotated trench 65, and the leading edge portion 101 of shank assembly 100 can rotatably be received in therebetween by this rotated trench.This structure makes installation axle bush 60 can rotate around longitudinal axis A-A relative to shank assembly 100.Ridge component 50 is by ridge pin 66 non-rotatably pin joint extremely installation axle bush 60.In addition, rotary knob 70 is attached to and installs axle bush 60.Such as, knob 70 has hollow mounting flange portion 72, and the size in this hollow mounting flange portion is configured to a part of installing axle bush 60 to be received in wherein.Knob 70 can by such as glass or carbon filled nylon, Merlon, etc. making, and be also attached to by ridge pin 66 axle bush 60 is installed.In addition, to be formed in mounting flange portion 72 to the reservation flange 74 of inner process and can to extend in the radial groove 68 being formed at and installing in axle bush 60.Therefore, surgeon by firmly grasping rotary knob 70 and making it rotate relative to shank assembly 100, and makes ridge component 50 (and being attached to the end effector 12 of ridge component 50) rotate around longitudinal axis A-A along 360 ° of paths.
Anvil block 20 remains on open position by anvil block spring 21 and/or another biased configuration.By being substantially marked as the trigger system of 109, anvil block 20 can optionally move to various closed or clamped position and firing position from open position.Trigger system 109 comprises " firing member " 110, and it comprises hollow firing tube 110.Hollow firing tube 110 axially can move on ridge component 50, therefore forms the outside of axis of elongation assembly 40.Firing tube 110 can be made up of polymer or other suitable materials, and has the proximal extremity of the percussion yoke 114 being attached to trigger system 109.Such as, the moldable proximal extremity to firing tube 110 of yoke 114 is pulled the trigger.But, other securing members also can be adopted to construct.
As can be seen in Figure 1, percussion yoke 114 rotatably can be supported on and support in lining ring 120, and this support lining ring can axially-movable in shank assembly 100.Support lining ring 120 and have the fin extended laterally for a pair, this is set to the size of fin in the fin slit that is received in slidably and is formed in left hand housing member and right hand housing member.Therefore, supporting lining ring 120 can slide axially in shank shell 100, makes percussion yoke 114 and firing tube 110 can rotate around longitudinal axis A-A relative to support lining ring 120 simultaneously.According to the present invention, provide longitudinal slit through firing tube 110, to make ridge pin 66 can extend in ridge component 50 through longitudinal slit, be conducive to firing tube 110 simultaneously and axially advance on ridge component 50.
Trigger system 109 also comprises percussion trigger 130, and this percussion trigger is for controlling firing tube 110 moving axially on ridge component 50.See Fig. 1.This kind of firing tube 110 moves to along distal direction and carries out pulling the trigger interactional axially-movable with anvil block 20 and be called as in this article " pull the trigger and move ".As can be seen in Figure 1, pull the trigger trigger 130 and be connected to shank assembly 100 movably or pivotly by pivot pin 132.Adopt torsionspring 135 to be biased percussion trigger 130 and arrive " the opening " or the original position that do not activate away from the pistol grip portion 107 of shank assembly 100.As can be seen in Figure 1, percussion trigger 130 has top 134, and this top is attached (pin joint) movingly to percussion chain link 136, and this percussion chain link is attached (pin joint) movingly to supporting lining ring 120.Therefore, pulling the trigger trigger 130 will make percussion yoke 114 and firing tube 110 move distal direction " DD " from original position (Fig. 1) towards the motion of the percussion trigger 130 of the end position of the pistol grip part 107 of adjacent shank assembly 100.Percussion trigger 130 away from the pistol grip portion 107 of shank assembly 100 motion (torsionspring 135 biased under) will make to pull the trigger yoke 114 and firing tube 110 moves along proximal direction " PD " on ridge component 50.
The present invention can use together with the implanted nail bin of configuration with different size.Such as, when using in conjunction with the first percussion adapter 140, surgical instruments 10 can use together with the 5mm end effector 12 of the about 20mm long (or with other length) of support implanted nail bin 30.This end effector size can be particularly well-suited in the dissection and the management of blood vessels that such as realize opposite fine.But, as hereafter institute is described in more detail, such as, also by the first percussion adapter 140 is replaced by the second percussion adapter, the end effector of surgical instruments 10 and other sizes and nail bin are combined.As other alternative form, axis of elongation assembly 40 can be attached to the end effector of only a kind of form or size.
Now by a kind of method end effector 12 being connected to removedly ridge component 50 of explaination.Connection process is started by being inserted by the maintenance gudgeon 17 in elongated channel 14 in the trunnion mounting 52 in ridge component 50.Subsequently, the pistol grip 107 of percussion trigger 130 shell component 100 toward the outside advances by surgeon, so that firing tube 110 and the first percussion adapter 140 are distad advanced on the proximal end portions 47 of elongated channel 14, thus gudgeon 17 is remained in its respective support 52.This position of the first percussion adapter 140 above gudgeon 17 is referred to here as " coupled position ".The present invention also can have end effector locked component, will pull the trigger trigger 130 locks in place after being attached to ridge component 50 at end effector 12.
More particularly, an embodiment of end effector locked component 160 comprises retaining pin 162, and this retaining pin is supported in the top 134 of percussion trigger 130 movingly.As mentioned above, firing tube 110 first distad must be advanced coupled position, and wherein the maintenance gudgeon 17 of end effector 12 remains in the trunnion mounting 52 in ridge component 50 by the first percussion adapter 140.Percussion adapter 140 is distad advanced to described coupled position by pulling the trigger trigger 130 from original position towards pistol grip 107 tractive by surgeon.When pulling the trigger trigger 130 and first being activated, retaining pin 162 distal motion, until the first percussion adapter 140 is advanced to coupled position by firing tube 110, now retaining pin 162 is biased in the latch well 164 be formed in housing member.Optionally, when retaining pin 162 enters in latch well 164, pin 162 can send " click clatter " sound or other sound that can hear, and for surgeon provide end effector 12 be " locked " on ridge component 50 sense of touch instruction.In addition, only otherwise wittingly reservations pin 162 is biased out latch well 164, surgeon just can not activate unintentionally and pull the trigger trigger 130 to start to make the nail 32 in end effector 12 be shaped.Similarly, if surgeon's release is in the percussion trigger 130 of coupled position, then retains pin 162 and percussion trigger 130 can be made to remain on this position, be back to original position to prevent percussion trigger 130 and therefore discharge end effector 12 from ridge component 50.
The present invention also can comprise trigger system locking press button 137, and this trigger system locking press button is the mode of pivotable can be attached to shank assembly 100.In one form, trigger system locking press button 137 has the breech lock 138 formed in its distal end, and this breech lock is oriented to and engages percussion yoke 114 when pulling the trigger breech lock 138 when release-push is in the first position latching.As can be seen in Figure 1, late spring 139 is for being biased to the first position latching by trigger system locking press button 137.In all cases, breech lock 138 is for engaging percussion yoke 114 at following some place: at this some place, and the position of the percussion yoke 114 on ridge component 50 corresponds to wherein the first percussion adapter 140 and is about to distally be advanced to the point on the clamping slideway 28 on anvil block 20.Should be appreciated that, along with the first percussion adapter 140 advances vertically on clamping slideway 28, anvil block 20 will, along path movement, make to follow closely the end face 36 that profiled surface portion 22 is arranged essentially parallel to nail bin 30.
After end effector 12 is connected to ridge component 50, start to follow closely forming process by first depressing trigger system locking press button 137, with make percussion yoke 114 can on ridge component 50 further distally motion and the most at last anvil block 20 be compressed in nail bin 30.After pressure trigger system locking press button 137, surgeon continues to activate percussion trigger 130 towards pistol grip 107, thus by the nail shaping slideway 29 being driven into correspondence of the first nail lining ring 140, to force anvil block 20 and nail 32 shaping contact in nail bin 30.Trigger system locking press button 137 prevents from by mistake making nail 32 be shaped before surgeon is ready to start to follow closely forming process.In this type of embodiment, surgeon must depress trigger system locking press button 137 to start to follow closely forming process before percussion trigger 130 can be further actuated.
Surgical instruments 10 can be used as tissue apposition device as required and only.But the present invention also can comprise and organizes diced system, and this tissue diced system is marked as 170 substantially.In at least one form, organizing diced system 170 to comprise cutter component 172, by activating cutter trigger 200 of advancing, this cutter component being optionally advanced to actuated position from the unactuated position of the proximal extremity of adjacent side terminal part executor 12.Cutter component 172 is movably supported in ridge component 50, and is attached to knife bar 180 or in other words from knife bar 180 projection.Cutter component 172 can be made up of 420 or 440 rustless steels such as with the hardness being greater than 38HRC (RHC), and can have to be formed at its distal end 174 organizes cutting edge 176, and the slit that can extend through slidably in anvil block 20 and the slit 33 arranged placed in the middle in nail bin 30, to cut the tissue worn and be clamped in end effector 12.Knife bar 180 extends through ridge component 50 and has the proximal end portions joined with the transmission of cutter transporter, and this cutter transporter is operationally attached to cutter and advances trigger 200.Cutter trigger 200 of advancing is attached to pivot pin 132, makes it to carry out pivotable or in other words to activated when without the need to activating percussion trigger 130.According to the present invention, the first cutter tooth wheel 192 is also attached to pivot pin 132, makes the advance actuating of trigger 200 of cutter also make the first cutter tooth take turns 192 pivotables.Be attached with between first cutter tooth wheel 192 and shank housing 100 and pull the trigger return spring 202, be biased to original position or unactuated position cutter to be advanced trigger 200.
Cutter transporter also comprises the second cutter tooth wheel 194, and this second cutter tooth is taken turns rotatably to be supported on the second gear shaft and to take turns 192 with the first cutter tooth and engaged.Second cutter tooth wheel 194 is taken turns 196 with the 3rd cutter tooth be supported on the 3rd gear shaft and is engaged.Four blade gear 198 is also supported on the 3rd gear shaft 195.Four blade gear 198 transmission can be bonded on a series of gear teeth in the proximal extremity of knife bar 180 or ring.Therefore, this structure makes four blade gear 198 axially can drive knife bar 180 along distal direction " DD " or proximal direction " PD ", makes trigger shaft 180 rotate around longitudinal axis A-A relative to four blade gear 198 simultaneously.Therefore, surgeon makes trigger shaft 180 axially advance and final distally promotion cutter component 172 by advancing trigger 200 towards the pistol grip 107 tractive cutter of shank assembly 100.
The present invention also comprises cutter locking system 210, and this cutter locking system prevents the propelling of cutter component 172, unless percussion trigger 130 has been pulled to complete firing position.Therefore, this structure will prevent the activation of cutter propulsion system 170, unless first nail is pulled the trigger or form in tissue.As can be seen in Figure 1, the various concrete enforcement of cutter locking system 210 comprises cutter securing rod 211, and this cutter securing rod 211 is pivotally supported in the pistol grip portion 107 of shank assembly 100.Cutter securing rod 211 has activated end 212, and when pulling the trigger trigger 130 and being in complete firing position, activated end 212 can be engaged by percussion trigger 130.In addition, cutter securing rod 211 has maintenance suspension hook 214 on the other end thereof, and this maintenance suspension hook can engage the latch bar 216 on the first cutting gear 192 in suspension hook mode.Adopt cutter locking spring 218 that cutter securing rod 211 is biased to " locking " position.In this " locking " position, keep suspension hook 214 to keep engaging with latch bar 216, thus prevent cutter from advancing the actuating of trigger 200, unless percussion trigger 130 is in complete firing position.
After nail is " fired " in (shaping) to target tissue, surgeon can depress percussion trigger release-push 167, to make percussion trigger 130 can be back to original position under the bias of torsionspring 135, thus make anvil block 20 can bias downwards into open position at the bias of spring 21.When in open position, surgeon can withdraw from end effector 12 and leave implantable nail bin 30 and nail 32.In the application that end effector is inserted into through passage, service aisle etc. wherein, surgeon will make anvil block 20 be back to make position by activating percussion trigger 130, can be withdrawn to make end effector 12 by described passage or service aisle.But if surgeon wants to cut target tissue after percussion nail, then surgeon activates cutter in the above described manner and to advance trigger 200, arrives the end of end effector to drive knife bar 172 through target tissue.Subsequently, surgeon can discharge cutter and to advance trigger 200, can make percussion transporter that knife bar 172 is back to initial (actuating) position to make percussion return spring 202.Once knife bar 172 is back to original position, surgeon just can open end effector jaw 13,15, also in patient body, withdraws from end effector 12 subsequently to be released in implanted storehouse 30 in patient body.Therefore, this type of surgical instruments is conducive to using the little implanted nail bin be inserted into by relatively little service aisle and passage, simultaneously for surgeon provides following selection: when not cutting and organizing, percussion is followed closely or also cut and organized after percussion nail.
Various uniqueness of the present invention and new embodiment adopt compressible nail bin, described compressible nail bin support be in substantially fixed position for by the nail of anvil block shaping contact.Be driven into by anvil block in unshaped nail, the degree that wherein such as reached nail is shaped depends on how far anvil block is driven in nail.The amount of the shaping that this class formation makes surgeon to regulate to be applied to nail or percussion pressure, thus change the final forming height of nail.In other aspects of the present invention, surgical stapling structure can adopt nail driving element, and nail can lift towards anvil block by this nail driving element.These have more detailed description hereinafter.
Optionally, with reference to above, the amount being applied to the firing action of removable anvil block depends on the degree of the actuating of percussion trigger.Such as, if surgeon goes for only partially-formed nail, then only need towards pistol grip 107 partially to interior pressure percussion trigger.Want to obtain and more follow closely shaping, surgeon only needs to compress percussion trigger further, anvil block is driven further and contacts to form with nail.As used herein, term " shaping contact " refer to nail profiled surface or nail shaping pit contact stud lower limb end and started leg is shaped or is bent to shaping position.The degree that nail is shaped refers to the degree that nail lower limb is folded and finally refers to the forming height of nail referred to above.Those skilled in the art will be further understood that, because when applying percussion motion to anvil block 20, anvil block 20 moves with the relation substantially parallel with nail bin, so nail is substantially shaped and has substantially the same forming height simultaneously.
Fig. 2 and Fig. 3 shows alternative end effector 12 ", except the following difference that can hold knife bar 172 ', end effector 12 " be similar to above-mentioned end effector 12 '.Knife bar 172 ' is connected to knife bar 180 or from knife bar 180 projection, and in addition above to operate about the mode described in knife bar 172.But in this embodiment, cutter rod 172 ' long enough is to traverse end effector 12 " whole length, therefore end effector 12 " in do not adopt independent distal blade component.Cutter rod 172 ' is formed with cross member 173 ' and lower cross member 175 '.Upper cross member 173 ' is oriented to and traverses anvil block 20 slidably " in corresponding elongated slot 250, and lower cross member 175 ' be oriented to traverse end effector 12 " elongated channel 14 " in elongated slot 252.Anvil block 20 " in be also provided with and depart from slit (not shown); make when knife bar 172 ' is driven to end effector 12 " in end position time, upper cross member 173 ' falls through corresponding slit, to make anvil block 20 " can open position be moved to, thus with the tissue sewing up and cut depart from.Anvil block 20 " can be in addition identical with above-mentioned anvil block 20, and elongated channel 14 " can be in addition identical with above-mentioned elongated channel 14.
In these embodiments, anvil block 20 " be biased to fully open position (Fig. 2) by spring or other Unclosing structure (not shown).Anvil block 20 " by percussion adapter 150 axial row of carrying out in the above described manner and then at open position and move between clamped position completely.Once percussion adapter 150 is advanced into complete clamped position (Fig. 3), surgeon just distally can advance knife bar 172 subsequently in the above described manner ".If surgeon wants that end effector is used as grasp device carry out manipulating tissue, then percussion adapter proximally can be moved, to allow anvil block 20 " away from elongated channel 14 " motion, as shown in phantom in figure 4.In this embodiment, shelves cutter rod 172 " when distally moving; upper cross member 173 ' and lower cross member 175 ' pull anvil block 20 simultaneously " and elongated channel 14 ", with at cutter rod 172 " through end effector 12 " reach the nail shaping realizing expecting when distally advancing.See Fig. 5.Therefore, in this embodiment, nail shaping cut occur simultaneously with tissue, but nail itself can at knife bar 172 " be sequentially shaped when distally being driven.
The uniqueness of various surgery nail bin of the present invention and surgical instruments and novel feature enables the nail in described nail bin be arranged in one or more linear or nonlinear line.Each side of elongated slot can provide many this nail lines, described elongated slot is medially arranged in nail bin, organizes cutting element for receiving through described elongated slot.In a kind of arrangement mode, nail such as into a line can be substantially parallel to the nail that is arranged in adjacent nail line but depart from it.As other alternative form, one or more nail line can be essentially nonlinear.In other words, follow closely at least one nail in line base portion can along substantially with the Axis Extension of other base portion crosscuts of following closely in same nail line.Such as, the nail line on every side of elongated slot can have sawtooth appearance.
According to the present invention, nail bin can comprise warehouse and be stored in the multiple nails in warehouse.In use, nail bin can be introduced in operative site and to be located on the side of handled tissue.In addition, nail shaping anvil block can be positioned on the opposite side of tissue.Anvil block can be carried by the first jaw and nail bin can be carried by the second jaw, and wherein the first jaw and/or the second jaw can move towards another jaw.Once nail bin and anvil block are located relative to tissue, then can penetrate nail from staple cartridge body, make nail can piercing tissue contact stud shaping anvil block.Once dispose nail from staple cartridge body, then can remove staple cartridge body from operative site.Nail bin or the implantable at least partially of nail bin have nail.Such as, as hereafter described in more detail, nail bin can comprise warehouse, and when anvil block moves to make position from open position, this warehouse can be compressed by anvil block, crushes and/or collapse.When warehouse compressed, conquassation and/or collapse time, the nail being arranged in warehouse is out of shape by anvil block.Alternately, the jaw for supporting nail bin can move to make position towards anvil block.Two kinds of situations any one in, when follow closely be positioned in warehouse at least in part time, nail deformable.In some cases, nail can not penetrate from nail bin, and in other cases, nail can be penetrated together with a part for warehouse from nail bin.
Referring now to Fig. 6 A-Fig. 6 D, compressible nail bin (such as nail bin 1000) such as can comprise compressible implanted warehouse 1010, and is positioned the multiple nails 1020 in compressible warehouse 1010 in addition, but Fig. 6 A-Fig. 6 D only illustrates a nail 1020.Fig. 6 A illustrates the nail bin 1000 supported by nail bin support member or nail bin path 10 30, and wherein nail bin 1000 is shown as and is in uncompressed condition.In this uncompressed condition, anvil block 1040 can contact or can not contact tissue T.In use, anvil block 1040 can move to from open position and contact with tissue T, as shown in Figure 6B, and tissue T is located against warehouse 1010.Even if the tissue contacting surface 1019 of tissue T against nail bin body 1010 can be located by anvil block 1040, but refer again to Fig. 6 B, nail bin body 1010 now can be subject to little (if any) compression stress or pressure, and follow closely 1020 can remain on unshaped or non-percussion condition under.As shown in Figure 6 A and 6 B, nail bin body 1010 can comprise one or more layer, and the nail lower limb 1021 following closely 1020 upwards can extend through these layers.Warehouse 1010 can comprise ground floor 1011, the second layer 1012, third layer 1013 and the 4th layer 1014, wherein the second layer 1012 can be positioned in the middle of ground floor 1011 and third layer 1013, and wherein third layer 1013 can be positioned in the middle of the second layer 1012 and the 4th layer 1014.Such as, the base portion 1022 of nail 1020 can be positioned in the cavity 1015 in the 4th layer 1014, and follows closely lower limb 1021 and upwards can extend from base portion 1022 and pass the 4th layer 1014, third layer 1013 and the second layer 1012.Optionally, each deformable lower limb 1021 can comprise top, such as sharp top 1023, and such as, when nail bin 1000 is in uncompressed condition, this sharp top can be positioned in the second layer 1012.Such as, top 1023 can not extend to and/or pass ground floor 1011, and wherein when nail bin 1000 is in uncompressed condition, top 1023 can be not projecting through tissue contacting surface 1019.When nail bin is in uncompressed condition, sharp top 1023 can be positioned in third layer 1013 and/or any other suitable layer.Alternatively, the warehouse of nail bin can have any suitable number of layers, such as, be less than four layers or more than four layers.
Optionally, as hereafter described in more detail, ground floor 1011 can be made up of such as buttress material and/or plastic material (such as poly-dioxanone (PDS) and/or polyglycolic acid (PGA)), and the second layer 1012 can by such as can the foamed materials of bio-absorbable and/or compressible hemostatic material (such as oxidized regenerated cellulose (ORC)) forming.Optionally, nail 1020 can remain in nail bin body 1010 by one or more in ground floor 1011, the second layer 1012, third layer 1013 and the 4th layer 1014, and nail 1020 can be made in addition to keep mutual aligning.Third layer 1013 can be made up of buttress material or quite incompressible or non-elastic material, and the nail lower limb 1021 of nail 1020 relative to each other can be remained on appropriate location by this material.In addition the second layer 1012 and the 4th layer 1014, be positioned at the second layer 1012 on the relative both sides of third layer 1013 and the 4th layer of 1014 Absorbable organic halogens or reduce the motion of nail 1020, even if can comprise compressible foam or elastomeric material.The screw top end 1023 of nail lower limb 1021 can embed in ground floor 1011 at least in part.Such as, ground floor 1011 and third layer 1013 can collaboratively and firmly nail lower limb 1021 is remained on appropriate location.Ground floor 1011 and third layer 1013 can respectively by such as can bioabsorbable material (such as with the polyglycolic acid (PGA) that trade name Vicryl sells, polylactic acid (PLA or PLLA), poly-dioxanone (PDS), polyhydroxyalkanoatefrom (PHA), with the poliglecaprone 25 (PGCL) that trade name Monocryl sells, polycaprolactone (PCL), and/or PGA, PLA, PDS, PHA, the complex of PGCL and/or PCL) thin slice form, and the second layer 1012 and the 4th layer 1014 can be made up of at least one hemostatic material or hemorrhage respectively.
Although ground floor 1011 can be compressible, but the second layer 1012 can be substantially more compressible than ground floor 1011.Such as, the compressibility of the second layer 1012 can be ground floor 1011 about twice, about three times, about four times, about five times and/or about ten times.In other words, for given power, the compression degree of the second layer 1012 can be the about twice of ground floor 1011, about three times, about four times, about five times and/or about ten times.The compressibility of the second layer 1012 such as can between about twice of ground floor 1011 and about ten times.The second layer 1012 can comprise the multiple air gaps be defined in wherein, and the amount of the air gap wherein in the second layer 1012 and/or size can be controlled to the expectation compressibility providing the second layer 1012.To similar above, although third layer 1013 can be compressible, but the 4th layer 1014 can have more compressibility substantially than third layer 1013.Such as, the compressibility of the 4th layer 1014 can be third layer 1013 about twice, about three times, about four times, about five times and/or about ten times.In other words, for given power, the compression degree of the 4th layer 1014 can be third layer 1013 about twice, about three times, about four times, about five times and/or about ten times.The compressibility of the 4th layer 1014 can between about twice of third layer 1013 and about ten times.Can comprise the multiple air gaps be defined in wherein for 4th layer 1014, amount and/or the size of the air gap wherein in the 4th layer 1014 can be controlled to the expectation compressibility providing the 4th layer 1014.In various scenarios, the compressibility of warehouse or warehouse layer is expressed by compression ratio (that is, layer is for the distance of compressing to the power of sizing).Such as, compared with the layer had compared with little compressible, the layer with high compression rate for be applied to this layer to the compression stress of sizing by distance larger for compression.So, the comparable ground floor of the second layer 1,012 1011 has higher compression ratio; Similarly, the 4th layer of 1014 comparable third layer 1013 has higher compression ratio.The second layer 1012 can be made up of identical material with the 4th layer 1014 and can have identical compression ratio.The second layer 1012 and the 4th layer 1014 can be made up of the material with different compression ratio.Similarly, ground floor 1011 and third layer 1013 can comprise identical material and can have identical compression ratio.Ground floor 1011 and third layer 1013 can be made up of the material with different compression ratio.
When anvil block 1040 moves towards its make position, anvil block 1040 can contact tissue T apply compression stress to tissue T and nail bin 1000, as shown in Figure 6 C.In this case, anvil block 1040 can promote end face or the tissue contacting surface 1019 of warehouse 1010 downwards towards nail bin support member 1030.Nail bin support member 1030 can comprise storehouse stayed surface 1031, its can between the tissue contacting surface 1041 that nail bin 1000 is compressed in storehouse stayed surface 1031 and anvil block 1040 time support nail bin 1000.Due to anvil block 1040 applied pressures, warehouse 1010 can be compressed and anvil block 1040 can contact stud 1020.More particularly, moving downward of the compression of warehouse 1010 and tissue contacting surface 1019 can make the top 1023 of nail lower limb 1021 pierce through the ground floor 1011 of warehouse 1010, piercing tissue T and entering in the shaping pit 1042 in anvil block 1040.When warehouse 1010 is compressed further by anvil block 1040, top 1023 can contact the wall limiting shaping pit 1042, and therefore, and lower limb 1021 can to internal strain or curling, such as shown in Figure 6 C.When following closely lower limb 1021 and being just out of shape, equally as shown in Figure 6 C, the base portion 1022 of nail 1020 can contact nail bin support member 1030 or be supported by nail bin support member 1030.Optionally, as described in greater detail below, nail bin support member 1030 can comprise multiple supporting construction, such as follows closely support trenches, slit or groove 1032, such as described multiple supporting construction can when nail 1020 is just out of shape support nail 1020 or at least follow closely 1020 base portion 1022.Equally as shown in Figure 6 C, the cavity 1015 in the 4th layer 1014 can be collapsed owing to being applied to the compression stress of nail bin body 1010.Except chamber 1015, staple cartridge body 1010 also can comprise one or more space (such as space 1016), such as, can be positioned with in described one or more space or no-fix has the part of nail, described one or more space can allow warehouse 1010 to collapse.Can collapse in cavity 1015 and/or space 1016, the wall limiting cavity and/or wall is deflected down and contacts the layer be positioned below cavity and/or space of storehouse stayed surface 1031 and/or contact warehouse 1010.
When comparison diagram 6B and Fig. 6 C, obviously, the second layer 1012 and the 4th layer 1014 substantially the compression pressure that applies by anvil block 1040 compress.Also can note, ground floor 1011 and third layer 1013 are also compressed.When anvil block 1040 moves to its make position, anvil block 1040 continues compression warehouse 1010 further by promoting tissue contacting surface 1019 downwards towards nail bin support member 1030.When warehouse 1010 is further compressed, anvil block 1040 can make nail 1020 be deformed to its complete shaping form, as shown in Figure 6 D.See Fig. 6 D, the lower limb 1021 of each nail 1020 can be out of shape downwards towards the base portion 1022 of each nail 1020, so that by tissue T, ground floor 1011, the second layer 1012, being captured at least partially between deformable lower limb 1021 and base portion 1022 of third layer 1013 and the 4th layer 1014.When comparison diagram 6C and Fig. 6 D, more obviously, the second layer 1012 and the 4th layer 1014 substantially the compression pressure that applies by anvil block 1040 compress further.Also it may be noted that when comparison diagram 6C and Fig. 6 D ground floor 1011 and third layer 1013 are also further compressed.After nail 1020 is shaped completely or at least fully, anvil block 1040 can be lifted away from tissue T, and nail bin support member 1030 can away from and/or depart from nail bin 1000 and move.As shown in Figure 6 D, as above-described result, warehouse 1010 is implantable nail 1020.In various embodiments, implanted warehouse 1010 can along nail line supporting tissue.In some cases, the hemorrhage comprised in the warehouse 1010 of implantation and/or any other medicine be applicable to can along with passage of time be to process tissue.Hemorrhage as above can reduce sew up and/or cutting organize hemorrhage, simultaneously bonding agent or tissue adhesive can along with passage of time for tissue provide intensity.The warehouse 1010 implanted can by such as ORC (oxidized regenerated cellulose), extracellular protein (such as collagen), with the polyglycolic acid (PGA) that trade name Vicryl sells, polylactic acid (PLA or PLLA), poly-dioxanone (PDS), polyhydroxyalkanoatefrom (PHA), with the poliglecaprone 25 (PGCL) that trade name Monocryl sells, polycaprolactone (PCL), and/or PGA, PLA, PDS, PHA, the material of the complex of PGCL and/or PCL is formed.In some cases, warehouse 1010 can comprise antibiosis and/or the anti-biotic material of the probability that can reduce surgical site infection, such as collargol and/or triclosan.
The layer of warehouse 1010 can be interconnected.Such as, can utilize at least one binding agent (such as fibrin and/or protein hydrogel) that the second layer 1012 is adhered to ground floor 1011, third layer 1013 be adhered to the second layer 1012, and adheres to third layer 1013 by the 4th layer 1014.Although not shown, the layer of warehouse 1010 links together by interlocking machine feature structure.Such as, ground floor 1011 and the second layer 1012 can comprise corresponding interlocking features structure separately, such as tenon groove structure and/or dovetail structure.Similarly, the second layer 1012 and third layer 1013 can comprise corresponding interlocking features structure separately, and simultaneously third layer 1013 and the 4th layer 1014 can comprise corresponding interlocking features structure separately.Although not shown, nail bin 1000 can comprise such as one or more rivet, and this one or more rivet can extend across one or more layers of warehouse 1010.Such as, each rivet can comprise the second head of the first end or head that adjacent first layer 1011 locates and contiguous 4th layer 1014 and location, and the 4th layer can be assembled into the second end of rivet or be formed by the second end of rivet.Such as, due to the compressible character of warehouse 1010, the compressible warehouse 1010 of rivet, makes the head of rivet can cave in relative to the tissue contacting surface 1019 of warehouse 1010 and/or lower surface 1018.Such as, rivet can by can the material (complex of the polyglycolic acid (PGA) such as sold with trade name Vicryl, polylactic acid (PLA or PLLA), poly-dioxanone (PDS), polyhydroxyalkanoatefrom (PHA), the poliglecaprone 25 (PGCL) sold with trade name Monocryl, polycaprolactone (PCL) and/or PGA, PLA, PDS, PHA, PGCL and/or PCL) of bio-absorbable be formed.Except the nail 1020 by holding in warehouse 1010, the layer of warehouse 1010 can not be connected to each other.Such as, the layer of warehouse 1010 such as can keep together by the frictional engagement between nail lower limb 1021 and warehouse 1010, and once nail is shaped, then described layer can be trapped in nail 1020.Roughened surface or the rough coatings that can comprise the frictional force that can increase between nail 1020 and warehouse 1010 at least partially of nail lower limb 1021.
As mentioned above, surgical instruments can comprise the first jaw and the second jaw, and the first jaw comprises nail bin support member 1030, second jaw and comprises anvil block 1040.Optionally, as hereafter be described in more detail, nail bin 1000 can comprise one or more maintenance feature structure, and this one or more maintenance feature structure can engage nail bin support member 1030, and therefore nail bin 1000 is remained to nail bin support member 1030 releasedly.Such as, by least one binding agent (such as, fibrin and/or protein hydrogel), nail bin 1000 is adhered to nail bin support member 1030.In use, in at least one situation, especially in abdominal cavity mirror and/or endoscopic procedure, such as the second jaw is moveable to the make position relative with the first jaw, and the first jaw and the second jaw are inserted in operative site by the trocar.Such as, the trocar can limit hole or the intubate of about 5mm, and the first jaw and the second jaw are inserted into by it.Second jaw is moveable to the partial closed position between in an open position and make position, and this partial closed position can allow the first jaw and the second jaw to be inserted into through the trocar, and without the need to making the nail 1020 held in nail bin body 1010 be out of shape.Such as, when the second jaw is in the closed centre position of its part, anvil block 1040 can not apply compression stress to nail bin body 1010, and when the second jaw is in the centre position that its part closes, anvil block 1040 can compress nail bin body 1010.Although the compressible staple cartridge body 1010 when anvil block 1040 is in this centre position, but anvil block 1040 can compress staple cartridge body 1010 by halves, to make anvil block 1040 contact stud 1020 and/or to make nail 1020 be out of shape by anvil block 1040.Once the first jaw and the second jaw are inserted into by the trocar in operative site, then the second jaw can be opened again, and anvil block 1040 and nail bin 1000 can position relative to target tissue as mentioned above.
Referring now to Fig. 7 A-Fig. 7 D, the end effector of surgical stapling device can comprise the implanted nail bin 1100 be positioned in the middle of anvil block 1140 and nail bin support member 1130.To similar above, anvil block 1140 can comprise tissue contacting surface 1141, and nail bin 1100 can comprise tissue contacting surface 1119, and nail bin support member 1130 can comprise the stayed surface 1131 that can support nail bin 1100.See Fig. 7 A, anvil block 1140 can be utilized the tissue contacting surface 1119 of tissue T against nail bin 1100 to be located and do not make nail bin 1100 be out of shape, and when anvil block 1140 is in this position, tissue contacting surface 1141 can be oriented to and nail bin stayed surface 1131 distance 1101a, and tissue contacting surface 1119 can be oriented to and nail bin stayed surface 1131 distance 1102a.Then, when anvil block 1140 moves towards nail bin support member 1130, referring now to Fig. 7 B, anvil block 1140 can promote top surface or the tissue contacting surface 1119 of nail bin 1100 downwards, and compresses ground floor 1111 and the second layer 1112 of warehouse 1110.When layer 1111 and layer 1112 are by compression, refer again to Fig. 7 B, the second layer 1112 can by conquassation, and the lower limb 1121 following closely 1120 can pierce through ground floor 1111 and enter into tissue T.Such as, nail 1120 can be positioned in nail chamber in the second layer 1112 or space 1115 at least in part, and when the second layer 1112 is by compression, can collapse in nail chamber 1115 and therefore the permission second layer 1112 is collapsed around nail 1120.The second layer 1112 can comprise cover 1116, and this cover is extensible also to be surrounded or surrounds nail chamber 1115 at least in part on nail chamber 1115.Fig. 7 B shows the cover 1116 being pressed downward and bursting in nail chamber 1115.The second layer 1112 can comprise one or more weakening part, and it can be conducive to collapsing of the second layer 1112.Optionally, this type of weakening part can comprise cut that such as can be conducive to warehouse 1110 controlled collapse, perforation and/or thin cross section.Ground floor 1111 can comprise and can be conducive to following closely one or more weakening parts that lower limb 1121 penetrates ground floor 1111.Optionally, this type of weakening part can comprise and such as can aim at nail lower limb 1121 or at least cut of substantial registration, perforation and/or thin cross section.
Refer again to Fig. 7 A, when anvil block 1140 is in partly closed non-firing position, anvil block 1140 can be oriented to and storehouse stayed surface 1131 distance 1101a, makes to be limited with gap therebetween.This gap can be filled by the nail bin 1100 and tissue T with nail bin height 1102a.When anvil block 1140 moves downward to compress nail bin 1100, refer again to Fig. 7 B, the distance between tissue contacting surface 1141 and storehouse stayed surface 1131 can be limited by the distance 1101b being shorter than distance 1101a.In various scenarios, the gap limited by distance 1101b between the tissue contacting surface 1141 of anvil block 1140 and storehouse stayed surface 1131 can be greater than original undeformed nail bin height 1102a.Referring now to Fig. 7 C, when anvil block 1140 moves to closer to storehouse stayed surface 1131, the second layer 1112 can continue to collapse and the distance of following closely between lower limb 1121 and shaping pit 1142 can reduce.Similarly, the distance between tissue contacting surface 1141 and storehouse stayed surface 1131 can be reduced to distance 1101c, and this distance can be greater than, be equal to or less than and original be not out of shape storehouse height 1102a.Referring now to Fig. 7 D, anvil block 1140 can move to final firing position, wherein follows closely 1120 and is shaped completely or is at least shaped to Desired Height.In this position, the tissue contacting surface 1141 of anvil block 1140 can with storehouse stayed surface 1131 distance 1101d, wherein distance 1101d can be shorter than and original not be out of shape storehouse height 1102a.Equally as illustrated in fig. 7d, can collapse completely or at least substantially in nail chamber 1115, and follow closely 1120 can completely or at least substantially by the second layer 1112 of collapsing around.In various scenarios, anvil block 1140 can move away from nail bin 1100 subsequently.Once anvil block 1140 departs from from nail bin 1100, then warehouse 1110 can such as spread in various position (that is, the position between adjacent nail 1120) at least in part again.The warehouse 1110 of conquassation may not resiliently be expanded again.The nail 1120 be shaped and the warehouse 1110 be positioned in addition between adjacent nail 1120 can apply pressure or compression stress to tissue T, and this can provide various treatment benefit.
As mentioned above, refer again to Fig. 7 A, each nail 1120 can comprise the nail lower limb 1121 extended from it.Although nail 1120 is illustrated as comprising two nail lower limbs 1121, but also can utilize the various nails that can comprise a nail lower limb or alternately comprise more than two nail lower limbs (such as three nail lower limbs or four nail lower limbs).As shown in Figure 7 A, each nail lower limb 1121 all can be embedded in the second layer 1112 of warehouse 1110, and nail 1120 is fixed in the second layer 1112.Nail 1120 can be inserted in the nail chamber 1115 in warehouse 1110, makes top 1123 the advancing in cavity 1115 at base portion 1122 of following closely lower limb 1121.After top 1123 is inserted into cavity 1115, top 1123 can be pressed against in cover 1116 and to cut the second layer 1112.Nail 1120 can be sat the enough depths put in the second layer 1112, makes nail 1120 not move relative to the second layer 1112 or at least substantially not move.Nail 1120 can be sat the enough depths put in the second layer 1112, makes base portion 1122 be located or embed in nail chamber 1115.Alternatively, base portion 1122 can not be located or be embedded in the second layer 1112.Refer again to Fig. 7 A, base portion 1122 can extend below the lower surface 1118 of warehouse 1110.Base portion 1122 can be bearing on storehouse stayed surface 1130 or directly and locate against storehouse stayed surface 1130.Storehouse stayed surface 1130 can comprise the supporting construction extending from it and/or be limited to wherein, such as, support in one or more support trenches, slit or the groove 1132 that the base portion 1122 of nail 1120 can be positioned in such as nail bin support member 1130 or by this one or more support trenches, slit or groove 1132, as described in more detail below.
Referring now to Fig. 8 and Fig. 9, nail bin (such as nail bin 1200) such as can comprise compressible implanted warehouse 1210, and this warehouse comprises outer 1211 and internal layer 1212.To similar above, nail bin 1200 can comprise the multiple nails 1220 being positioned at warehouse 1210.Optionally, each nail 1220 all can comprise base portion 1222 and the one or more nail lower limbs 1221 from its extension.Such as, follow closely lower limb 1221 can to insert in internal layer 1212 and to be sat the degree of depth of putting and such as making the lower surface 1218 of the adjacent and/or contiguous internal layer 1212 of base portion 1222 of nail 1220 locate.In figs. 8 and 9, internal layer 1212 does not comprise the nail chamber of the part that can receive nail 1220, and alternatively, internal layer 1212 can comprise this type of nail chamber.To being described further above, internal layer 1212 can be made up of the compressible material that warehouse 1210 can be allowed to collapse when applying compressive load to it (such as can the foam of bio-absorbable and/or oxidized regenerated cellulose (ORC)).Internal layer 1212 can be made up of the freeze dried foam such as comprising polylactic acid (PLA) and/or polyglycolic acid (PGA).ORC can trade name Surgicel commercially available and loose Woven fabric (as surgical sponge), loose fiber (as cotton balls) and/or foam can be comprised.Internal layer 1212 can by wherein to comprise and/or applied atop has the material of medicine (such as cryodesiccated thrombin and/or fibrin) to form, and this medicine such as can by the fluid water activation in patient body and/or activation.Such as, cryodesiccated thrombin and/or fibrin can remain in such as Vicryl (PGA) substrate.Such as, but in some cases, when being inserted into when nail bin 1200 in the operative site in patient body, activable medicine can by mistake be activated.Refer again to Fig. 8 and Fig. 9, outer 1211 can by water impervious or at least substantially water impervious material form, liquid is not contacted or does not at least substantially contact internal layer 1212, until warehouse 1210 has been compressed and followed closely lower limb penetrated outer 1211 and/or after skin 1211 cut in some manner.Such as, outer 1211 can be made up of buttress material and/or plastic material (such as poly-dioxanone (PDS) and/or polyglycolic acid (PGA)).Outer 1211 can comprise the wrappage around internal layer 1212 and nail 1220.More particularly, follow closely 1220 can be inserted in internal layer 1212 and outer 1211 and to be wrapped around the sub-component comprising internal layer 1212 and nail 1220 and to be sealed subsequently.
As described herein, when anvil block moves to make position, the nail of nail bin can be shaped completely by anvil block.Alternatively, referring now to Figure 10-Figure 13, the nail of nail bin (such as nail bin 4100) such as by the anvil block when anvil block moves to make position, and additionally by making nail be out of shape towards the staple drivers system of closed anvil block motion.Nail bin 4100 can comprise compressible warehouse 4110, and compressible warehouse 4110 can be such as made up of foamed materials and multiple nails 4120 of being positioned at compressible warehouse 4110 at least in part.Staple drivers system can comprise driver clamper 4160, be positioned at multiple staple drivers 4162 in driver clamper 4160 and nail bin dish 4180, and staple drivers 4162 can remain in driver clamper 4160 by this nail bin dish.Such as, staple drivers 4162 can be positioned in the one or more slits 4163 in driver clamper 4160, and wherein the sidewall of slit 4163 can help to boot up staple drivers 4162 towards anvil block.Nail 4120 can be supported in slit 4163 by staple drivers 4162, and wherein when nail 4120 and staple drivers 4162 are in its non-firing position, nail 4120 can be positioned in slit 4163 completely.Alternatively, when nail 4120 and staple drivers 4162 are in its non-firing position, upwards can extending through the opening 4161 of slit 4163 at least partially of nail 4120.Such as, now main see Figure 11, the base portion of nail 4120 can be positioned in driver clamper 4160, and the top of following closely 4120 can embed in compressible warehouse 4110.The height following closely 4120 about 1/3rd can be positioned in driver clamper 4160, and the height following closely 4120 about 2/3rds can be positioned in warehouse 4110.See Figure 10 A, nail bin 4100 also can comprise such as around water impervious wrappage or the film 4111 of warehouse 4110 and driver clamper 4160.
In use, such as, nail bin 4100 can be positioned at nail bin passage, and anvil block can move to make position towards nail bin 4100.When anvil block moves to its make position, anvil block can contact and compress compressible warehouse 4110.When anvil block is in its make position, anvil block can not contact stud 4120.When anvil block moves to its make position, anvil block can contact stud 4120 lower limb and make nail 4120 be out of shape at least in part.In arbitrary situation in both cases, nail bin 4100 also can comprise one or more sledge 4170, described one or more sledge longitudinally can advance in nail bin 4100, makes sledge 4170 can jointing nail driver 4162 staple drivers 4162 and nail 4120 are moved towards anvil block subsequently.Sliding part 4170 can slide between nail bin dish 4180 and staple drivers 4162.When anvil block closed has made the forming process of nail 4120 start, nail 4120 has moved upward towards anvil block and can complete forming process and make the height that nail 4120 is deformed into its height be shaped completely or at least expects.When anvil block closed does not make nail 4120 be out of shape, follow closely 4120 and to move upward towards anvil block and can start and complete forming process and make the height that nail 4120 is deformed into its height be shaped completely or at least expects.Sliding part 4170 can be advanced to the distal end of nail bin 4100 from the proximal extremity of nail bin 4100, make before the nail 4120 in the distal end being positioned nail bin 4100 is shaped completely, the nail 4120 be positioned in the proximal extremity of nail bin 4100 is shaped completely.See Figure 12, sliding part 4170 can comprise at least one surface 4711 that is angled or that tilt separately, and it also can lift staple drivers 4162 as shown in figure 13 in staple drivers 4162 slid underneath.
To being described further above, nail 4120 can be formed, so as by tissue T at least partially with the compressible warehouse 4110 of nail bin 4100 be captured in wherein at least partially.After nail 4120 is shaped, the anvil block of surgical stapling device and nail bin passage 4130 can move away from the nail bin 4100 implanted.In various scenarios, storehouse dish 4180 can jointing nail storehouse passage 4130 in a position-stable manner, and wherein as a result, when nail bin passage 4130 is pulled away from the warehouse 4110 implanted, storehouse dish 4180 can be dismantled from compressible warehouse 4110.Refer again to Figure 10, storehouse dish 4180 can comprise relative sidewall 4181, and warehouse 4110 can be positioned between this relative sidewall 4181 removedly.Such as, compressible warehouse 4110 can be compressed between sidewall 4181, and warehouse 4110 during use can be remained on therebetween removedly, and when storehouse dish 4180 is pulled away from, warehouse 4110 departs from releasedly from storehouse dish 4180.Such as, driver clamper 4160 can be connected to storehouse dish 4180, and make when storehouse dish 4180 removes from operative site, driver holder 4160, driver 4162 and/or sliding part 4170 can remain in storehouse dish 4180.Driver 4162 can penetrate from driver clamper 4160 and stay operative site.Such as, driver 4162 can by can the material (complex of the polyglycolic acid (PGA) such as sold with trade name Vicryl, polylactic acid (PLA or PLLA), poly-dioxanone (PDS), polyhydroxyalkanoatefrom (PHA), the poliglecaprone 25 (PGCL) sold with trade name Monocryl, polycaprolactone (PCL) and/or PGA, PLA, PDS, PHA, PGCL and/or PCL) of bio-absorbable be formed.Driver 4162 can be attached to nail 4120, makes driver 4162 be deployed with nail 4120.Such as, each driver 4162 can comprise the groove of the base portion that such as can receive nail 4120, and wherein said groove can receive nail base portion with pressure fitted mode and/or snap fit.
To being described further above, driver clamper 4160 and/or sliding part 4170 can coil 4180 injections from storehouse.Such as, sliding part 4170 can coil between 4180 and driver clamper 4160 in storehouse and slide, make when sliding part 4170 advances upwards to drive staple drivers 4162 and nail 4120, sliding part 4170 also can make driver clamper 4160 move upward to outside storehouse dish 4180.Such as, driver clamper 4160 and/or sliding part 4170 can by can the material (such as with polyglycolic acid (PGA), polylactic acid (PLA or PLLA), poly-dioxanone (PDS) that trade name Vicryl sells, the complex of polyhydroxyalkanoatefrom (PHA), the poliglecaprone 25 (PGCL) sold with trade name Monocryl, polycaprolactone (PCL) and/or PGA, PLA, PDS, PHA, PGCL and/or PCL) of bio-absorbable be formed.Sliding part 4170 can integrally form and/or be attached to driving rod or cutting element, and described driving rod or cutting element promote sliding part 4170 through nail bin 4100.In this case, sliding part 4170 can not penetrate from storehouse dish 4180 and can keep together with surgical stapling device, and under sliding part 4170 is not attached to other situations of driving rod wherein, sliding part 4170 can be stayed in operative site.In any case, to being described further above, the compressibility tolerable of warehouse 4110 uses thicker nail bin in the end effector of surgical stapling device, this is because when the anvil block of stiching instrument closes, warehouse 4110 is compressible or shrink.As the nail when anvil block closes by the result of being out of shape at least in part, higher nail (such as have about 0.18 " nail of staple height) can be used; such as wherein about 0.12 " staple height can be positioned in compressible stratum 4110, and wherein compressible stratum 4110 can have about 0.14 " uncompressed height.
As described herein, multiple nail can be comprised in nail bin.Optionally, this type of nail can be made up of the metal wire rod with two nail lower limbs being deformed into U-shaped configuration substantially.The alternative form that wherein nail can comprise different configuration (two or more wire rods with three or more nail lower limbs be such as joined together) can be dreamed up.One or more wire rods for the formation of nail can comprise round or at least substantially round cross section.Nail wire rod can comprise any other suitable cross section, such as the cross section of square and/or rectangle.Nail can be made up of plastic wire.Nail can be made up of the metal wire rod being coated with plastics.According to the present invention, substituting except nail or as nail, storehouse can comprise the securing member of any suitable type.Such as, this securing member can comprise pivotable arm, and described arm can be folded when being engaged by anvil block.Two-part securing member can be used.Such as, nail bin can comprise multiple first fastener portion, and anvil block can comprise multiple second fastener portion; When anvil block is compressed against nail bin, the second fastener portion is connected to the first fastener portion.As mentioned above, sliding part or driver can be advanced in nail bin to complete the forming process of nail.Sliding part or driver can be advanced in anvil block, engage with relative nail bin and nail or the securing member be positioned in nail bin to make one or more formed parts move downwardly to.
As described herein, nail bin can comprise four the nail row be stored in wherein.Described four nail row can be configured to two inner side nail row and two outside nail row.Such as, inner side nail row and outside are followed closely row and can be positioned on the first side of cutting element in nail bin or cutter slit; Similarly, inner side nail row and outside nail row can be positioned on the second side of cutting element or cutter slit.Nail bin can not comprise cutting element slit; But substituting as nail bin slit, this nail bin can comprise the specified portions can cut by cutting element.Similarly, can inner side nail row be arranged in nail bin, make itself and cutting element slit equidistantly or at least substantially equidistantly spaced apart.Similarly, can each outside nail row be arranged in nail bin, make itself and cutting element slit equidistantly or at least substantially equidistantly spaced apart.According to the present invention, nail bin can comprise be stored in nail bin greater or less than four nail row.Nail bin can comprise six nail row.Such as, nail bin can comprise three nail row on the first side of cutting element slit, and on the second side of cutting element slit, comprise three nail row.Nail bin can comprise odd number nail row.Such as, nail bin can comprise two nail rows on the first side of cutting element slit, and on the second side of cutting element slit, comprise three nail rows.Nail row can comprise the nail with identical or at least substantially the same unshaped staple height.Alternatively, one or more nail is capable comprises the nail having and follow closely different unshaped staple heights from other.Such as, the nail on the first side of cutting element slit can have the first unshaped height, and the nail on the second side of cutting element slit can have the second unshaped height, and this second unshaped height is different from the first height.
Optionally, as mentioned above, nail bin can comprise warehouse, and this warehouse comprises multiple nail chamber be limited to wherein.Warehouse can comprise platform and top platform surface, and wherein each nail chamber can limit the opening in platform surface.Also described above, nail can be positioned in each nail intracavity, and nail is stored in warehouse until it is penetrated from warehouse.Before being penetrated from warehouse, nail can be accommodated in warehouse, makes nail not projecting above platform surface.In this case, when nail is positioned in below platform surface, can reduce to follow closely probability that is damaged and/or premature contact destination organization.In all cases, nail can move between non-firing position and firing position, and in non-firing position, it is not from warehouse projection, and in firing position, it has exposed from warehouse and can contact the anvil block being positioned in nail bin opposite.Anvil block and/or the shaping pit be defined in anvil block can be oriented to anomaly platform surface preset distance, and make when nail is deployed from warehouse, nail is deformed into predetermined forming height.In some cases, be trapped in the thickness variable of the tissue between anvil block and nail bin, therefore, thicker tissue can be trapped in thinner tissue in some nail and can be trapped in some other nail.In any one situation, be applied to the clamping pressure of tissue by nail or power such as can be different because of nail, or change between nail on the other end of nail on one end of nail row and nail row.In some cases, the gap between anvil block and nail bin platform can be controlled, make nail in each nail, apply a certain minimum clamping pressure.But at some in this case, the significant change of the clamping pressure in different nails may still exist.The U.S. Patent No. 7,380 that surgery suturing appliance was announced on June 3rd, 2008, disclosed in having in 696, whole disclosures of this patent are incorporated herein by reference.To be called the U.S. Patent application No.10/374 of " SURGICAL STAPLING INSTRUMENT INCORPORATING AMULTISTROKE FIRING POSITION INDICATOR AND RETRACTIONMECHANISM " at CO-PENDING and the name owned together for surgical stapling and the illustrative multiple-pass shank that cuts off apparatus, describe in more detail in 026, the disclosure of this patent application is incorporated to way of reference accordingly in full.Other application according to the invention can in conjunction with clicking distribution journey, such as be called " SURGICALSTAPLING INSTRUMENT HAVING SEPARATE DISTINCT CLOSING ANDFIRING SYSTEMS " U.S. Patent application No.10/441 at CO-PENDING and the name owned together, described in 632, the disclosure of this patent application is incorporated to way of reference accordingly in full.
As described herein, nail bin can comprise as lower device: the thickness that this device is used for being captured in from the tissue in the nail of nail bin deployment compensates.See Figure 14, nail bin (such as nail bin 10000) such as can comprise Part I (such as support section 10010) and the compressible Part II (such as tissue thickness's compensating part 10020) of rigidity.First see Figure 16, support section 10010 can comprise warehouse, top platform surface 10011 and multiple nail chamber 10012, and be wherein similar to mentioned above, each nail chamber 10012 can limit the opening in platform surface 10011.Nail 10030 such as can be positioned in each nail chamber 10012 removedly.Such as, each nail 10030 can comprise base portion 10031 and the one or more lower limbs 10032 from base portion 10031 extension.Before nail 10030 is deployed, also as described in more detail below, the base portion 10031 of nail 10030 can be supported by the staple drivers be positioned in support section 10010, and simultaneously, the lower limb 10032 of nail 10030 can at least be partly accommodated in nail chamber 10012.Nail 10030 can be deployed between non-firing position and firing position, lower limb 10032 is made to move through tissue thickness's compensating part 10020, the top surface of penetrate tissue thickness compensation part 10020, penetrate tissue T, and contact is positioned in the anvil block on nail bin 10000 opposite.When lower limb 10032 is out of shape against anvil block, the lower limb 10032 of each nail 10030 can the part of tissue T in the part of capture tissue thickness compensation part 10020 and each nail 10030, and compression stress is applied to tissue.To being described further above, the lower limb 10032 of each nail 10030 can be made downwards to be out of shape towards the base portion 10031 of nail, and retain region 10039 to form nail, retain region at this nail, tissue T and tissue thickness's compensating part 10020 can be captured.In all cases, nail retain that region 10039 can be limited at strained lower limb 10032 between inner surface and the inner surface of base portion 10031.The size that nail retains region can be depending on some questions, the width of the length of such as lower limb, the diameter of lower limb, base portion and/or the degree of such as lower limb distortion.
In the past, surgeon usually needed the suitable nail for the organizational choice that will sew up with suitable staple height.Such as, surgeon can select high nail to use together with thick organizing and select low nail to use together with thin tissue.But in some cases, organizing of being just sewn does not have consistent thickness, therefore, some nails cannot realize the percussion configuration of expectation.Such as, Figure 48 shows for the high nail in thin tissue.Referring now to Figure 49, when tissue thickness's compensating part (such as tissue thickness's compensating part 10020) such as uses together with thin tissue, such as larger nail can be configured as the percussion configuration of expectation.
Due to the compression ratio of tissue thickness's compensating part, tissue thickness's compensating part can compensate the thickness of the tissue be captured in each nail.More particularly, referring now to Figure 43 and Figure 44, tissue thickness's compensating part (such as tissue thickness's compensating part 10020) such as can retain according to nail the larger and/or less part that nail that the thickness of the tissue held in region 10039 and/or type occupy each nail 10030 retains region 10039.Such as, when thicker tissue T is trapped in nail 10030, if thinner tissue T is trapped in nail 10030, then tissue thickness's compensating part 10020 can occupy the major part that nail retains region 10039.Correspondingly, be trapped in the situation in nail 10030 compared to thinner tissue T, if thicker tissue T is trapped in nail 10030, then tissue thickness's compensating part 10020 can occupy the smaller portions that nail retains region 10039.Like this, tissue thickness's compensating part can compensate for slower thin tissue and/or thicker tissue, and guarantees that compression stress is applied to tissue, no matter no matter and or the tissue thickness be at least substantially trapped in nail.In addition to the above, tissue thickness's compensating part 10020 can compensate the tissue that is dissimilar or different compression ratio be trapped in different nail 10030.Referring now to Figure 44, compression stress can be applied to the vascular tissue T that can comprise blood vessel V by tissue thickness's compensating part 10020, and therefore limit blood flows through not too compressible blood vessel V, but still the compression stress of expectation is applied to the tissue T of surrounding.In all cases, to being described further above, tissue thickness's compensating part 10020 can also compensate strained nail.See Figure 45, the distortion of various nail 10030 can cause larger nail to retain region 10039 being limited in this type of nail.Due to the resilience force of tissue thickness's compensating part 10020, referring now to Figure 46, even if be limited to this nail be out of shape in nail 10030 retain region 10039 can be extended, be positioned at the tissue thickness's compensating part 10020 be out of shape in nail 10030 and still enough compression pressures can be applied to tissue T.In all cases, the tissue thickness's compensating part 10020 be positioned in the middle of adjacent nail 10030 can be biased against tissue T by the nail 10030 of the suitable shaping of being out of shape around nail 10030, and therefore compression pressure is applied to such as around and/or be trapped in the tissue be out of shape in nail 10030.In all cases, tissue thickness's compensating part can compensate different tissue densities, and described different tissue density can such as produce due to calcification, zone of fiber and/or the tissue previously having sewed up or processed.
According to the present invention, fixing or unmodifiable interstice can be limited between support section and anvil block, no matter why the thickness being therefore trapped in the tissue in nail all can make nail be deformed into predetermined height.When tissue thickness's compensating part is used for this situation, tissue thickness's compensating part can adapt to be trapped in the tissue between anvil block and support section nail bin, and due to the resilience force of tissue thickness's compensating part, additional compression pressure can be applied to tissue by tissue thickness's compensating part.Referring now to Figure 50-Figure 55, nail 10030 has been configured as predefined height H.See Figure 50, tissue thickness's compensating part is not used, and tissue T occupies whole nail retains region 10039.With reference to Figure 57, a part for tissue thickness's compensating part 10020 has been trapped in nail 10030, tissue T is compressed, and has occupied nail and retain region 10039 at least partially.Referring now to Figure 52, thin tissue T has been trapped in nail 10030.In this embodiment, be there is by the tissue T compressed the height of about 2/9H, and by the tissue thickness's compensating part 10020 compressed, be there is the height of such as approximately 7/9H.Referring now to Figure 53, the tissue T with interior thickness has been trapped in nail 10030.In this embodiment, be there is by the tissue T compressed the height of about 4/9H, and by the tissue thickness's compensating part 10020 compressed, be there is the height of such as approximately 5/9H.Referring now to Figure 54, the tissue T with interior thickness has been trapped in nail 10030.In this embodiment, be there is by the tissue T compressed the height of about 2/3H, and by the tissue thickness's compensating part 10020 compressed, be there is the height of such as approximately 1/3H.Referring now to Figure 53, thick tissue T has been trapped in nail 10030.In this embodiment, be there is by the tissue T compressed the height of about 8/9H, and by the tissue thickness's compensating part 10020 compressed, be there is the height of such as approximately 1/9H.In all cases, tissue thickness's compensating part can comprise compression height, and this compression height comprises: the such as nail of about 10% retain height, about 20% nail retain height, about 30% nail retain height, about 40% nail retain height, about 50% nail retain height, about 60% nail retain height, about 70% nail retain height, about 80% nail retain height and/or about 90% nail retain height.
Nail 10030 can comprise any suitable unshaped height.Nail 10030 can comprise such as between about 2mm and the unshaped height approximately between 4.8mm.Nail 10030 can comprise such as the unshaped height of approximately 2.0mm, approximately 2.5mm, about 3.0mm, about 3.4mm, approximately 3.5mm, approximately 3.8mm, approximately 4.0mm, about 4.1mm and/or about 4.8mm.Follow closely deformable height H to be decided by the distance between the platform surface 10011 of support section 10010 and relative anvil block.Distance between platform surface 10011 and the tissue contacting surface of anvil block can be such as about 0.097 ".Height H also can be determined by the degree of depth of the shaping pit be limited in anvil block.Shaping pit such as can have the degree of depth measured from tissue contacting surface.Optionally, as described in more detail below, nail bin 10000 also can comprise staple drivers, and nail 10030 can lift towards anvil block by this staple drivers, and nail is lifted or " excessively drive " above platform surface 10011.In this case, the distance that the forming height H following closely 10030 also can be overdriven by nail 10030 decides.The height that such as, nail 10030 can be overdriven such as approximately .028 ", and nail 10030 can be caused to be shaped as such as about 0.189 ".Nail 10030 can be shaped as the height of such as about 0.8mm, approximately 1.0mm, approximately 1.5mm, approximately 1.8mm, approximately 2.0mm and/or about 2.25mm.Nail can be shaped as such as between about 2.25mm and the height approximately between 3.0mm.To being described further above, the height that the nail of nail retains region by the forming height followed closely and can comprise the width of wire rod of nail and diameter determined.The forming height H that the height that the nail of nail 10030 retains region 10039 can comprise nail deducts two diameter widths of wire rod.Nail line can comprise such as about 0.0089 " diameter.Nail line can comprise the diameter such as between about 0.0069 " and about 0.0119 ".Such as, the forming height H of nail 10030 can be about 0.189 ", and follow closely linear diameter can be about 0.0089 ", thus such as produces about 0.171 " nail retain height.
To being described further above, tissue thickness's compensating part can comprise the height of unpressed or pre-deployment, and can be deformed in multiple compression height.Tissue thickness's compensating part can comprise such as about 0.125 " uncompressed height.The compensating part of tissue thickness can comprise and is such as more than or equal to about 0.080 " uncompressed height.Tissue thickness's compensating part can comprise the height of unpressed or pre-deployment, and this is highly greater than not pulling the trigger highly of nail.Not pulling the trigger of the comparable nail of height of the unpressed or pre-deployment of tissue thickness's compensating part is highly such as high about 10%, high about 20%, high about 30%, high about 40%, high about 50%, high about 60%, high about 70%, high by about 80%, high about 90% and/or high about 100%.Not pulling the trigger of the comparable nail of height of the unpressed or pre-deployment of tissue thickness's compensating part is highly high by such as at the most about 100%.Not pulling the trigger of the comparable nail of height of the unpressed or pre-deployment of tissue thickness's compensating part is highly high such as more than 100%.Tissue thickness's compensating part can comprise the uncompressed height of not pulling the trigger height equaling to follow closely.Tissue thickness's compensating part can comprise the uncompressed height of not pulling the trigger height being less than nail.The comparable nail of height of the unpressed or pre-deployment of tissue thickness's compensating part do not pull the trigger highly such as low about 10%, low about 20%, low about 30%, low about 40%, low about 50%, low about 60%, low about 70%, low about 80% and/or low by about 90%.Compressible Part II can comprise uncompressed height, and this uncompressed height is higher than the uncompressed height of the tissue T be just sewn.Tissue thickness's compensating part can comprise uncompressed height, and this uncompressed height equals the uncompressed height of the tissue T be just sewn.Tissue thickness's compensating part can comprise uncompressed height, and this uncompressed height is lower than the uncompressed height of the tissue T be just sewn.
As mentioned above, no matter be that thick tissue or thin tissue are trapped in nail, tissue thickness's compensating part all can be compressed in multiple one-tenth staple.Such as, can make the nail distortion in nail line or nail row, the height making the nail of each nail retain region to comprise such as approximately 2.0mm, wherein tissue T and tissue thickness's compensating part can be compressed in this height.In some cases, tissue T can be included in the compression height that nail retains the about 1.75mm in region, and tissue thickness's compensating part can be included in the compression height that nail retains the about 0.25mm in region, thus the nail obtaining adding up to such as approximately 2.0mm retains region height.In some cases, tissue T can be included in the compression height that nail retains the about 1.50mm in region, and tissue thickness's compensating part can be included in the compression height that nail retains the about 0.50mm in region, thus the nail obtaining adding up to such as approximately 2.0mm retains region height.In some cases, tissue T can be included in the compression height that nail retains the about 1.25mm in region, and tissue thickness's compensating part can be included in the compression height that nail retains the about 0.75mm in region, thus the nail obtaining adding up to such as approximately 2.0mm retains region height.In some cases, tissue T can be included in the compression height that nail retains the about 1.0mm in region, and tissue thickness's compensating part can be included in the compression height that nail retains the about 1.0mm in region, thus the nail obtaining adding up to such as approximately 2.0mm retains region height.In some cases, tissue T can be included in the compression height that nail retains the about 0.75mm in region, and tissue thickness's compensating part can be included in the compression height that nail retains the about 1.25mm in region, thus the nail obtaining adding up to such as approximately 2.0mm retains region height.In some cases, tissue T can be included in the compression height that nail retains the about 1.50mm in region, and tissue thickness's compensating part can be included in the compression height that nail retains the about 0.50mm in region, thus the nail obtaining adding up to such as approximately 2.0mm retains region height.In some cases, tissue T can be included in the compression height that nail retains the about 0.25mm in region, and tissue thickness's compensating part can be included in the compression height that nail retains the about 1.75mm in region, thus the nail obtaining adding up to such as approximately 2.0mm retains region height.
To being described further above, tissue thickness's compensating part can comprise the uncompressed height of the percussion height being less than nail.Tissue thickness's compensating part can comprise the uncompressed height of the percussion height equaling to follow closely.Tissue thickness's compensating part can comprise the uncompressed height of the percussion height higher than nail.Such as, the uncompressed height of tissue thickness's compensating part can comprise such as following thickness: this thickness is about 180%, about 190% of shaping staple height and/or about 200% of shaping staple height of about 170%, the shaping staple height of about 160%, the shaping staple height of about 150%, the shaping staple height of about 140%, the shaping staple height of about 130%, the shaping staple height of about 120%, the shaping staple height of about 110%, the shaping staple height of shaping staple height.Tissue thickness's compensating part can comprise uncompressed height, and this is highly more than the twice of percussion height of nail.Tissue thickness's compensating part can comprise compression height, and this is highly about 85% of such as shaping staple height to about 150%.Optionally, as mentioned above, tissue thickness's compensating part can be compressed between uncompressed thickness and compressed thickness.The compressed thickness of tissue thickness's compensating part can be such as about 70%, about 80% of its uncompressed thickness and/or about 90% of its uncompressed thickness of about 60%, its uncompressed thickness of about 50%, its uncompressed thickness of about 40%, its uncompressed thickness of about 30%, its uncompressed thickness of about 20%, its uncompressed thickness of about 10%, its uncompressed thickness of its uncompressed thickness.The uncompressed thickness of tissue thickness's compensating part can such as about twice thicker in its compressed thickness, about ten times, about 50 times and/or about 100 times.The compressed thickness of tissue thickness's compensating part can between about 60% of its uncompressed thickness to about 99%.Uncompressed thickness its compressed thickness thick at least 50% comparable of tissue thickness's compensating part.Thick 100 times at the most of uncompressed thickness its compressed thickness comparable of tissue thickness's compensating part.Compressible Part II can be elastic, or elastic at least partly, and the distortion lower limb of tissue T against nail can be biased.Such as, compressible Part II can between tissue T and the base portion of nail resilient expansion so that against nail lower limb promote tissue T.As hereafter will discussed in detail further, tissue thickness's compensating part can be positioned in the middle of the nail lower limb of tissue T and distortion.In all cases, due to mentioned above, tissue thickness's compensating part can eliminate any gap of following closely and retaining in region.
Tissue thickness's compensating part can comprise one or more the material be characterised in that in following characteristic: such as, biocompatibility, bioresorbable, bioresorbability, biodurable, biological degradability, compressibility, fluid absorbability, swellability, from autgmentability, biological activity, Drug, pharmaceutically active, resistance to blocking, hemostatic, antibiosis disposition, antibiotic property, antiviral property, trophism, adhesiveness, permeability, hydrophilic and/or hydrophobicity.According to the present invention, the surgical instruments comprising anvil block and nail bin can comprise the tissue thickness's compensating part be associated with anvil block and/or nail bin, and it comprises at least one in hemorrhage (such as fibrin and thrombin), antibiotic (such as doxycpl) and medicine (such as matrix metalloproteinase (MMPs)).
Tissue thickness's compensating part can comprise synthesis and/or non-synthetic materials.Tissue thickness's compensating part can comprise polymer composition, and described polymer composition comprises one or more synthetic polymers and/or one or more non-synthetic polymer.Synthetic polymer can comprise the absorbable polymer of synthesis and/or the non-absorbable polymer of synthesis.Polymer composition can comprise such as biocompatible foam.Biocompatible foam can comprise the open celled foam of such as porous and/or the closed-cell foam of porous.Biocompatible foam can have uniform pore morphology maybe can have gradient pore form (that is, on the whole depth of foam in a direction, orifice size increases gradually and becomes macropore).Polymer composition can comprise the combination of one or more and they in porous support, porous matrix, gel-type vehicle, hydrogel matrix, solution substrate, thread substrate, tubulose substrate, composite interstitial substance, membrane matrix, Biostatic polymer and biodegradable polymer.Such as, tissue thickness's compensating part can comprise the foam by thread matrix enhancement, maybe can comprise the foam with additional hydrogel layer, and the expansion under body fluid exists of this additional hydrogel layer, to provide compression further organizationally.According to the present invention, tissue thickness's compensating part can also be made up of the coating on material and/or the second layer or third layer, and this coating is expansion under body fluid exists, to provide compression further organizationally.This type of layer can be hydrogel, this hydrogel can be synthesis and/or natural source material, and such as can be biological durable and/or biodegradable.Tissue thickness's compensating part can comprise microgel or nanogel.Hydrogel can comprise coming microgel and/or the nanogel of self-carbon water compound.Can use and the fibrous nonwoven material of additional flexibility, rigidity and/or intensity or fiber mesh type element can be provided to strengthen tissue thickness's compensating part.According to the present invention, tissue thickness's compensating plate has porous form, and this porous form shows gradient-structure, such as aperture on a surface and larger hole on the other surface.This type of form is even more ideal for tissue growth or hemostasis behavior.In addition, gradient also can be combined with the bio-absorbable section of change.Short-term absorption profile can be preferably, to solve hemostasis problem, and the problem that Long-term absorption section makes tissue better heal under can solving ne-leakage situation.
The example of non-synthetic materials includes but not limited to lyophilizing polysaccharide, glycoprotein, bovine pericardium, collagen, gelatin, fibrin, Fibrinogen, elastin laminin, Dan Baiduotang proteoglycan PG, keratin, albumin, hydroxyethyl-cellulose, cellulose, oxidized cellulose, oxidized regenerated cellulose (ORC), hydroxypropyl cellulose, carboxyethyl cellulose, carboxymethyl cellulose, chitin, chitosan, casein, alginate and their combination.
The example of synthesis absorbable material includes but not limited to gather (lactic acid) (PLA), PLLA (PLLA), pla-pcl (PCL), polyglycolic acid (PGA), PTMC (TMC), polyethylene terephthalate (PET), polyhydroxyalkanoatefrom (PHA), the copolymer of Acetic acid, hydroxy-, bimol. cyclic ester and 6-caprolactone (PGCL), the copolymer of Acetic acid, hydroxy-, bimol. cyclic ester and trimethylene carbonate, poly-(decanedioic acid glyceride) (PGS), poly-(dioxanone) (PDS), polyester, poly-(ortho esters), poly-esters of oxyacids, polyether ester, Merlon, polyesteramide, condensing model, polysaccharide, poly-(ester-acid amide), tyrosine-based polyarylate, polyamine, tyrosine-based gathers imido-carbonic ester, tyrosine-based polycarbonate, poly-(D, L-lactide-carbamate), poly-(butyric ester), poly-(B-butyric ester), poly-(E-caprolactone), Polyethylene Glycol (PEG), poly-[two (carboxyphenoxy) phosphonitrile], poly-(aminoacid), intend poly-(aminoacid), Absorbable rod polyurethane, poly-(phosphazine), polyphosphazene, polyoxyalkylene, polyacrylamide, poly hydroxy ethyl acrylate, polyvinylpyrrolidone, polyvinyl alcohol, poly-(caprolactone), polyacrylic acid, poly-acetas, polypropylene, aliphatic polyester, glycerol, copolymerization (ether-ester), poly-oxalic acid alkylidene diol ester, polyamide, poly-(iminocarbonic ester), poly-oxalic acid alkylidene diol ester and their combination.Polyester is optional from polylactide, PGA, trimethylene carbonate, poly-dioxanone, polycaprolactone, polybutester and their combination.
Synthesis absorbable polymer can comprise such as can brand name VICRYL (polyglactic 910) from Ethicon, Inc. 90/10 commercially available poly-(Acetic acid, hydroxy-, bimol. cyclic ester-L-lactide) copolymer, can brand name DEXON from the commercially available PGA of American Cyanamid Co., can brand name PDS from Ethicon, Inc. commercially available poly-dioxanone, can brand name MAXON from commercially available poly-(Acetic acid, hydroxy-, bimol. cyclic ester-trimethylene carbonate) statistic copolymer of American Cyanamid Co., can brand name MONOCRYL from one or more commercially available 75/25 poly-(glycolide-s-caprolactone-poliglecaprolactone 25) copolymer of Ethicon company.
The example of the non-absorbable material of synthesis includes but not limited to polyurethane, polypropylene (PP), polyethylene (PE), Merlon, polyamide, and z is nylon, polrvinyl chloride (PVC), polymethyl methacrylate (PMMA), polystyrene (PS), polyester, polyether-ether-ketone (PEEK), politef (PTFE), polytrifluorochloroethylene (PTFCE), polyvinyl fluoride (PVF), PEP (FEP), polyacetals, polysulfones, silicon and their combination such as.The non-absorbable polymer of synthesis can include but not limited to foam elastomer and porous elastomers, such as siloxanes, polyisoprene and rubber.Synthetic polymer can comprise the politef (ePTFE) of expansion, can brand name GORE-TEX soft tissue sheet from W.L.Gore & Associates, Inc. is commercially available; And copolyether ester polyurethane foam, it is commercially available from Polyganics with brand name NASOPORE.
Polymer composition can comprise such as by weight about 50% to about 90% the polymer composition of PLLA, and by weight about 50% to about 10% the polymer composition of PCL.Polymer composition can comprise such as by weight about 70% PLLA, and by weight about 30% PCL.Polymer composition can comprise such as by weight about 55% to about 85% the polymer composition of PGA, and by weight 15% to 45% the polymer composition of PCL.Polymer composition can comprise such as by weight about 65% PGA, and by weight about 35% PCL.Polymer composition can comprise such as by weight about 90% to about 95% the polymer composition of PGA, and by weight about 5% to about 10% the polymer composition of PLA.
Synthesis absorbable polymer can comprise can bio-absorbable, biocompatible elastomers copolymer.Suitable biological absorbable, biocompatible elastomer copolymer includes but not limited to that (mol ratio of 6-caprolactone and Acetic acid, hydroxy-, bimol. cyclic ester is preferably about 30:70 to about 70:30 for the copolymer of 6-caprolactone and Acetic acid, hydroxy-, bimol. cyclic ester, be preferably 35:65 to about 65:35, and be more preferably 45:55 to 35:65); The elastomer copolymer (mol ratio of 6-caprolactone and lactide is preferably about 35:65 to about 65:35, and is more preferably 45:55 to 30:70) of 6-caprolactone and lactide (comprising L-lactide, D-lactide, their blend or lactic acid copolymer); To the elastomer copolymer (being preferably about 40:60 to about 60:40 to the mol ratio of dioxanone and lactide) of dioxanone (Isosorbide-5-Nitrae-dioxane-2-ketone) and lactide (comprising L-lactide, D-lactide and lactic acid); 6-caprolactone and the elastomer copolymer (6-caprolactone is preferably about 30:70 to about 70:30 with to the mol ratio of dioxanone) to dioxanone; To the elastomer copolymer (being preferably about 30:70 to about 70:30 to the mol ratio of dioxanone and trimethylene carbonate) of dioxanone and trimethylene carbonate; The elastomer copolymer (mol ratio of trimethylene carbonate and Acetic acid, hydroxy-, bimol. cyclic ester is preferably about 30:70 to about 70:30) of trimethylene carbonate and Acetic acid, hydroxy-, bimol. cyclic ester; The elastomer copolymer (mol ratio of trimethylene carbonate and lactide is preferably about 30:70 to about 70:30) of trimethylene carbonate and lactide (comprising L-lactide, D-lactide, their blend or lactic acid copolymer); And their blend.Elastomer copolymer can be the copolymer of Acetic acid, hydroxy-, bimol. cyclic ester and 6-caprolactone.Alternatively, elastomer copolymer is the copolymer of lactide and 6-caprolactone.
The name being published in November 21 nineteen ninety-five is called the United States Patent (USP) 5 of " ELASTOMERIC MEDICALDEVICE ", 468,253 and be published in the United States Patent (USP) 6 that the calendar year 2001 December name of 4 days is called " FOAM BUTTRESS FOR STAPLING APPARATUS ", the disclosure of 325,810 is incorporated herein by reference accordingly separately in full.
Tissue thickness's compensating part can comprise emulsifying agent.The example of emulsifying agent can include but not limited to water-soluble polymer, such as polyvinyl alcohol (PVA), vinylpyrrolidone (PVP), Polyethylene Glycol (PEG), polypropylene glycol (PPG), pluronic (PLURONICS), tween (TWEENS), polysaccharide and their combination.
Tissue thickness's compensating part can comprise surfactant.
The example of surfactant can include but not limited to polyacrylic acid, methylase, methylcellulose, ethyl cellulose, propyl cellulose, hydroxy ethyl cellulose, carboxy methyl cellulose, Polyoxyethylene cetyl ether, polyoxyethylene lauryl ether, polyoxethylene octylphenyl ether, NONIN HS 240, polyoxyethylene oleyl ether, Tween 20, polyoxyethylene stearyl base ether, ethylene nonyl phenyl ether, dialkyl group phenoxy group gathers (ethyleneoxy) ethanol, and poloxamer.
Polymer composition can comprise pharmaceutically active agents.Polymer composition can discharge the pharmaceutically active agents for the treatment of effective dose.When polymer composition is desorbed/absorbs, pharmaceutically active agents can be released.Pharmaceutically active agents can be released to fluid and such as flow through on polymer composition or through in the blood of polymer composition.The example of pharmaceutically active agents can include but not limited to hemorrhage and medicine, such as fibrin, thrombin and oxidized regenerated cellulose (ORC); Anti-inflammatory drug, such as diclofenac, aspirin, naproxen, sulindac and hydrocortisone; Antibiotic and antimicrobial agents or preparation, such as triclosan, ionic silver, ampicillin, gentamycin, polymyxin B, chloromycetin; And anticarcinogen, such as cisplatin, mitomycin, amycin.
Polymer composition can comprise hemostatic material.Tissue thickness's compensating part can comprise hemostatic material, and it comprises poly-(lactic acid), poly-(glycolic), poly-(butyric ester), poly-(caprolactone), poly-(dioxanone), polyoxyalkylene, copolymerization (ether-ester), collagen, gelatin, thrombin, fibrin, Fibrinogen, FN, elastin laminin, albumin, hemoglobin, ovalbumin, polysaccharide, hyaluronic acid, chondroitin sulfate, hetastarch, hydroxyethyl-cellulose, cellulose, oxidized cellulose, hydroxypropyl cellulose, carboxyethyl cellulose, carboxymethyl cellulose, chitin, chitosan, agarose, maltose, maltodextrin, alginate, thrombin, methacrylate, polyurethane, acrylate, platelet agonist, vasoconstrictor, vitriol, calcium, RGD peptide, protein, Protamine sulfates., episilon amino caproic acid, iron sulfate, ferric subsulfate, iron chloride, zinc, zinc chloride, aluminum chloride, aluminum sulfate, aluminum acetate, permanganate, tannin, bone wax, Polyethylene Glycol, fucosan and their combination.The feature of tissue thickness's compensating part can be haemostatic properties.
The feature of the polymer composition of tissue thickness's compensating part is such as percent porosity, hole dimension and/or hardness.Polymer composition can have such as by volume about 30% to about 99% percent porosity.Polymer composition can have such as by volume about 60% to about 98% percent porosity.Polymer composition can have such as by volume about 85% to about 97% percent porosity.Polymer composition can comprise such as by weight about 70% PLLA and by weight about 30% PCL, and can comprise such as by volume about 90% porosity.Such as, the therefore polymer composition copolymer that will comprise by volume about 10%.Polymer composition can comprise such as by weight about 65% PGA and by weight about 35% PCL, and can have such as by volume about 93% to by volume about 95% percent porosity.Polymer composition can comprise the porosity being greater than 85% by volume.Polymer composition can have the hole dimension of such as about 5 microns to about 2000 microns.Polymer composition can have the hole dimension such as between about 10 microns to about 100 microns.Such as, polymer composition such as can comprise the copolymer of PGA and PCL.Polymer composition can have the hole dimension such as between about 100 microns to about 1000 microns.Such as, polymer composition such as can comprise the copolymer of PLLA and PCL.
According to some aspect, the hardness of polymer composition can Shore hardness represent, this Shore hardness can be defined as the toleration of the permanent indenture to material such as measured by sclerometer.In order to assess the durometer value of given material, the ASTM program D2240-00 of " Standard Test Method for RubberProperty-Durometer Hardness " is called according to name, with penetrator foot, pressure is applied to material, it is incorporated to herein in full by reference.Penetrator foot can be administered to material and continue enough a period of times, such as 15 seconds, such as, wherein reading read from suitable scale.According to scale type used, when the complete penetrable material of pressure head foot, reading 0 can be obtained, and when material is not penetrated, reading 100 can be obtained.This reading dimensionless.Such as can decide durometer according to ASTMD2240-00 according to any suitable scale such as category-A and/or OO class scale.The polymer composition of tissue thickness's compensating part can have the Shore A Hardness value of about 4A to about 16A, and this Shore A Hardness value is such as in the Shore OO scope of about 45OO to about 65OO.Such as, polymer composition can comprise such as PLLA/PCL copolymer or PGA/PCL copolymer.The polymer composition of tissue thickness's compensating part can have the Shore A Hardness value being less than 15A.The polymer composition of tissue thickness's compensating part can have the Shore A Hardness value being less than 10A.The polymer composition of tissue thickness's compensating part can have the Shore A Hardness value being less than 5A.Polymeric material can have the Shore OO compositions value of such as approximately 35OO to about 75OO.
Polymer composition can have at least two kinds in the above-mentioned characteristic identified.Polymer composition can have at least three kinds in the above-mentioned characteristic identified.Polymer composition can have such as the porosity of 85% to 97%, the Shore OO hardness value of the hole dimension of 5 microns to 2000 microns and the Shore A Hardness value of 4A to 16A and 45OO to 65OO by volume.Polymer composition can comprise the polymer composition of the polymer composition of the PLLA of 70 % by weight and the PCL of 30 % by weight; Described polymer composition has such as the porosity of 90%, the Shore OO hardness value of the hole dimension of 100 microns to 1000 microns and the Shore A Hardness value of 4A to 16A and 45OO to 65OO by volume.Polymer composition can comprise the polymer composition of the polymer composition of the PGA of 65 % by weight and the PCL of 35 % by weight; Described polymer composition has such as by volume from the Shore OO hardness value of the porosity of 93% to 95%, the hole dimension of 10 microns to 100 microns and the Shore A Hardness value of 4A to 16A and 45OO to 65OO.
Tissue thickness's compensating part can comprise the material of expansion.As mentioned above, the compression material expanded when tissue thickness's compensating part can be included in uncompressed or deployment.Tissue thickness's compensating part can comprise original position formed from expansion material.Tissue thickness's compensating part can comprise at least one precursor, and this precursor can be selected spontaneously to be cross-linked when contacting with at least one in other one or more precursor, water and/or body fluid.See Figure 20 5, the first precursor can contact other precursors one or more to form tissue thickness's compensating part of extendible and/or swellable.Tissue thickness's compensating part can comprise the swollen compositions of such as fluid-soluble, the compositions of such as water-swellable.Tissue thickness's compensating part can comprise the gel comprising water.
See Figure 189 A and Figure 189 B, such as, tissue thickness's compensating part 70000 can comprise at least one hydrogel precursor 70010, and this hydrogel precursor 70010 is selected to form hydrogel in position and/or in body, thus tissue thickness's compensating part 70000 is expanded.Figure 189 A shows the tissue thickness's compensating part 70000 comprising packaging part, and this packaging part comprised the first hydrogel precursor 70010A and the second hydrogel precursor 70010B before expansion.As shown in Figure 189 A, the first hydrogel precursor 70010A and the second hydrogel precursor 70010B can be physically separated from one another in identical packaging part.First packaging part can comprise the first hydrogel precursor 70010A, and the second packaging part can comprise the second hydrogel precursor 70010B.Figure 189 B show when hydrogel in position and/or formed in body time thickness organize the expansion of compensating part 70000.As shown in Figure 189 B, packaging part can break, and the first hydrogel precursor 70010A can contact the second hydrogel precursor 70010B to form hydrogel 70020.Hydrogel can comprise extendible material.Such as, hydrogel easily extensible reaches 72 hours.
Tissue thickness's compensating part can comprise biodegradable foam, and this biodegradable foam has and comprises embedding dried hydrogel granule wherein or the packaging part of granule.Do not wish to be limited to any particular theory, the packaging part in foam is formed by the contact aqueous solution of hydrogel precursor and the organic solution of biocompatible materials, thus forms foam.As shown in Figure 20 6, aqueous solution and organic solution can form micelle.Aqueous solution and organic solution can be dried to encapsulate dried hydrogel granule in foam or granule.Such as, hydrogel precursor (such as hydrophilic polymer) is dissolvable in water water to form the dispersion of micelle.Aqueous solution can contact the organic solution of the dioxane comprising poly-(glycolic) and polycaprolactone.Aqueous solution and organic solution can be lyophilized thus be formed has dispersion dried hydrogel granule wherein or the biodegradable foam of granule.Do not wish to be limited to any particular theory, it is believed that micelle formation to there is the packaging part being dispersed in dried hydrogel granule in foaming structure or granule.This packaging part can break, and dried hydrogel granule or granule can contacting with fluid (such as body fluid) expanding.
Such as, tissue thickness's compensating part can be expanded when contact activation agent (such as fluid).See Figure 190, such as, tissue thickness's compensating part 70050 can comprise swellable material, such as hydrogel, and described swellable material is such as expanded when contacting with fluid 70055 (such as body fluid, saline solution, water and/or activator).The example of body fluid can include but not limited to blood, blood plasma, peritoneal fluid, cerebrospinal fluid, urine, lymph fluid, synovial fluid, vitreous humor, saliva, gastrointestinal cavity content, bile and/or gas (such as CO 2).Tissue thickness's compensating part 70050 can be expanded when tissue thickness's compensating part 70050 absorption fluids.And for example, tissue thickness's compensating part 70050 can comprise non-cross-linked hydrogels, and this non-cross-linked hydrogels is expanded when contacting and comprising the activator 70 055 of cross-linking agent to form cross-linked hydrogel.Tissue thickness's compensating part can be expanded when contact activation agent.Tissue thickness's compensating part can be expanded or swellingly reach 72 hours from contact, such as from 24 hours to 72 hours, reaches 24 hours, reaches 48 hours and reach 72 hours, thus such as tissue provides the pressure and/or compression increased continuously.As shown in Figure 190, after fluid 70055 contact tissue thickness compensation part 70050, the original depth of tissue thickness's compensating part 70050 can be less than expansion thickness.
See Figure 187 and Figure 188, nail bin 70100 can comprise tissue thickness's compensating part 70105 and comprise multiple nails 70110 of nail lower limb 70112 separately.As shown in Figure 187, tissue thickness's compensating part 70105 can have original depth or the compression height of the percussion height being less than nail 70110.Tissue thickness's compensating part 70100 can when contacting with fluid 70102 (such as body fluid, saline solution and/or activator) original position and/or expand in vivo, thus such as promote tissue T against the lower limb 70112 of nail 70110.As shown in Figure 188, tissue thickness's compensating part 70100 can be expanded when contacting with fluid 70102 and/or swelling.Tissue thickness's compensating part 70105 can compensate the thickness of the tissue T at each nail 70110 IT.As shown in Figure 188, tissue thickness's compensating part 70105 can have the expansion thickness of the percussion height being less than nail 70110 or uncompressed height.
Optionally, as mentioned above, tissue thickness's compensating part can comprise original depth and expansion thickness.The original depth of tissue thickness's compensating part can be such as, about 70%, about 80% of its expansion thickness and/or about 90% of its expansion thickness of about 60%, its expansion thickness of about 50%, its expansion thickness of about 40%, its expansion thickness of about 30%, its expansion thickness of about 20%, its expansion thickness of about 10%, its expansion thickness of about 1%, its expansion thickness of about 0.1%, its expansion thickness of about 0.01%, its expansion thickness of about 0.001%, its expansion thickness of its expansion thickness.Thick such as about 2 times, about 5 times, about 10 times, about 50 times, about 100 times, about 200 times, about 300 times, about 400 times, about 500 times, about 600 times, about 700 times, about 800 times of expansion thickness its original depth comparable of tissue thickness's compensating part, about 900 times and/or about 1000 times.The original depth of tissue thickness's compensating part can up to its expand thickness 1%, up to its expansion thickness 5%, up to its expansion thickness 10% and up to 50% of its expansion thickness.Expansion thickness its original depth comparable of tissue thickness's compensating part is thick at least 50%, thicker than its original depth at least 100%, than its original depth thick at least 300% and than its original depth thick at least 500%.As mentioned above, in all cases, as above-described result, tissue thickness's compensating part can occupy any gap of following closely and retaining in region.
As mentioned above, tissue thickness's compensating part can comprise hydrogel.Hydrogel can comprise homopolymer hydrogel, copolymer aquagel, multipolymer hydrogel, interpenetrating polymer hydrogel and their combination.Hydrogel can comprise microgel, nanogel and their combination.Hydrogel can comprise the hydrophilic polymer network that can absorb and/or retain fluid substantially.Hydrogel can comprise noncrosslinking hydrogel, crosslinked hydrogel and their combination.Hydrogel can comprise chemical cross-linking agent, physical crosslinking agent, hydrophobic fragment and/or the undissolved fragment of water.By polyreaction, micromolecule, crosslinked and/or Polymer-Polymer is cross-linked and is chemically cross-linked hydrogel.Hydrogel is physically cross-linked by ionic interaction, hydrophobic interaction, hydrogen bonded interaction, stereocomplex and/or supramolecular chemistry.Due to cross-linking agent, hydrophobic fragment and/or the undissolved fragment of water, hydrogel can be essentially undissolved, but owing to absorbing and/or keeping fluid, and hydrogel is easily extensible and/or swellable.Precursor and/or can be organized crosslinked with endogenous material.
Hydrogel can comprise enviromental sensitive hydrogel (ESH).ESH can comprise the material with the fluid swollen characteristic relevant to environmental condition.Environmental condition can include but not limited at the physical condition of operative site, biotic factor and/or electrochemical conditions.Such as, in response to temperature, pH, electric field, ionic strength, enzyme and/or chemical reaction, electricity and/or Neural stem cell, and other physiological and variablees that are environment, hydrogel swellable or contraction.ESH can comprise polyfunctional acrylate, hydroxyethyl methylacrylate (HEMA), elastomeric acrylate and relevant monomer.
The tissue thickness's compensating part comprising hydrogel can comprise at least one in above-mentioned non-synthetic materials and synthetic material.Hydrogel can comprise synthetic water gel and/or non-synthetic hydrogel.Tissue thickness's compensating part can comprise multiple layer.Multiple layer can comprise porous layer and/or non-porous layer.Such as, tissue thickness's compensating part can comprise non-porous layer and porous layer.And for example, tissue thickness's compensating part can comprise the porous layer in the middle of the first non-porous layer and the second non-porous layer.And for example, tissue thickness's compensating part can comprise the non-porous layer in the middle of the first porous layer and the second porous layer.Non-porous layer and porous layer can be located relative to the surface of nail bin and/or anvil block in any order.
The example of non-synthetic materials can include but not limited to albumin, alginate, carbohydrate, casein, cellulose, chitin, chitosan, collagen, blood, glucosan, elastin laminin, fibrin, Fibrinogen, gelatin, heparin, hyaluronic acid, keratin, protein, serum and starch.Cellulose can comprise hydroxyethyl-cellulose, oxidized cellulose, oxidized regenerated cellulose (ORC), hydroxypropyl cellulose, carboxyethyl cellulose, carboxymethyl cellulose and their combination.Collagen can comprise bovine pericardium.Carbohydrate can comprise polysaccharide, such as lyophilizing polysaccharide.Protein can comprise glycoprotein, Dan Baiduotang proteoglycan PG and their combination.
The example of synthetic material can include but not limited to gather (lactic acid), poly-(glycolic), poly-(butyric ester), poly-(phosphazine), polyester, Polyethylene Glycol, poly(ethylene oxide), poly(ethylene oxide)-polypropylene oxide copolymers, copolymerization oxirane, polyoxyalkylene, polyacrylamide, poly hydroxy ethyl acrylate, PVP, polyvinyl alcohol, poly-(caprolactone), poly-(dioxanone), polyacrylic acid, poly-acetas, polypropylene, aliphatic polyester, glycerol, poly-(aminoacid), copolymerization (ether-ester), poly-oxalic acid alkylidene diol ester, polyamide, poly-(iminocarbonic ester), poly-esters of oxyacids, poe, polyphosphazene and their combination.Conventional method can be used to prepare above-mentioned non-synthetic materials synthetically, such as, synthesize hyaluronic acid.
Hydrogel can be made up of one or more hydrogel precursor.Precursor can comprise monomer and/or macromonomer.Hydrogel precursor can comprise electrophile functional group and/or the electrophile functional group of nucleophile.In general, electrophilely can react to form chemical bond with nucleophile.Term used herein " functional group " refers to electrophilic group or the nucleophilic group that can react to be formed chemical bond each other.The example of Qin electricity functional group can include but not limited to N-hydroxy-succinamide (" NHS "), sulfosuccinimide, carbonyl dimidazoles, sulfonic acid chloride, aryl halide, sulfosuccinic ester, N-hydroxy-succinamide ester, succinimide ester, such as succinimidyl succinate and/or succinimidyl propionate, isocyanide ester, sulfocyanic ester, carbodiimides, Benzotriazole carbonate, epoxide, aldehyde, maleimide, imino-ester, their combination etc.Qin electricity functional group can comprise succinimide ester.The example of nucleophilic functional group can include but not limited to-NH 2,-SH ,-OH ,-PH 2with-CO-NH-NH 2.
Hydrogel can be formed by single precursor or multiple precursor.Hydrogel can be formed by the first precursor and the second precursor.First hydrogel precursor and the second hydrogel precursor can original positions or form hydrogel in vivo when contacting.Hydrogel precursor generally can refer to polymer, functional group, macromole, micromolecule and/or can participate in reaction with the cross-linking agent forming hydrogel.Precursor can comprise the solution of such as homogenizing, the inhomogeneous or solution that is separated in appropriate solvent, such as water or buffer.The pH of buffer can be such as about 8 to about 12, and all according to appointment 8.2 to about 9.The example of buffer can include but not limited to borate buffer solution.Precursor can in emulsion.According to the present invention, the first precursor can with the second precursors reaction to form hydrogel.First precursor can being spontaneously cross-linked with during the second precursor thereof.According to the present invention, the first Zu Qin electricity functional group on the first precursor can react with group nucleophilic functional group of second on the second precursor.When precursor is blended in the environment allowing reaction (such as, when relevant to pH, temperature and/or solvent), functional group can react to form covalent bond each other.When at least some in precursor and more than other a precursors reaction, precursor can become crosslinked.
Tissue thickness's compensating part can comprise at least one monomer, and described monomer is selected from 3-sulfopropyl acrylic acid potassium salt (" KSPA "), sodium acrylate (" NaA "), N-(three (hydroxymethyl) methyl) acrylamide (" triacryl ") and 2-acrylamide-2-methyl isophthalic acid-propane sulfonic acid (AMPS).Tissue thickness's compensating part can comprise copolymer, and this copolymer comprises two or more monomer being selected from KSPA, NaA, triacryl, AMPS.Tissue thickness's compensating part can comprise the homopolymer deriving from KSPA, NaA, triacryl and AMPS.Tissue thickness's compensating part can comprise can with the hydrophilically modified monomer of its copolymerization.Hydrophilically modified monomer can comprise methyl methacrylate, butyl acrylate, cyclohexyl acrylate, styrene, styrene sulfonic acid.
Tissue thickness's compensating part can comprise cross-linking agent.Cross-linking agent can comprise low-molecular-weight two or polyvinyl crosslinking agents, such as glycol diacrylate or dimethylacrylate, two, three or tetravinyl-glycol diacrylate or dimethylacrylate, pi-allyl (methyl) acrylate, C 2-C 8-alkylidene diacrylate or dimethylacrylate, divinyl ether, divinyl sulfone, two and trivinylbenzene, trimethylolpropane triacrylate or trimethyl acrylic ester, tetramethylol methane tetraacrylate or tetramethyl acrylate, bisphenol a diacrylate or dimethylacrylate, methylene-bisacrylamide or DMAA, ethylene bisacrylamide or ethylene DMAA, triallyl phthalate or diallyl phthalate.Cross-linking agent can comprise N, N'-methylene-bisacrylamide (" MBAA ").
Tissue thickness's compensating part can comprise acrylate and/or methacrylate official energy hydrogel, biocompatibility light trigger, alkyl-cyanoacrylate, at least one in isocyanate-functional macromonomer, optionally comprise amine official energy macromonomer, succinimide ester official energy macromonomer, optionally comprise amine and/or Mercaptofunctional macromonomer, epoxy functional macromonomer, optionally comprise amine official energy macromonomer, the mixture of protein and/or polypeptide and aldehyde cross-linking agent, the carbodiimides of genipin (Genipin) and water dissolvable, anion polysaccharide and polyvalent cation.
Tissue thickness's compensating part can comprise undersaturated organic acid monomer, acrylic acid substituted alcohols and/or acrylamide.Tissue thickness's compensating part can comprise methacrylic acid, acrylic acid, glyceryl acrylate, glycerol methacrylate, 2-HEMA, 2-2-(Acryloyloxy)ethanol, 2-(dimethyl aminoethyl) methacrylate, NVP, Methacrylamide and/or N,N-DMAA poly-(methacrylic acid).
Tissue thickness's compensating part can comprise reinforcing material.Reinforcing material can comprise at least one in above-described non-synthetic materials and synthetic material.Reinforcing material can comprise collagen, gelatin, fibrin, Fibrinogen, elastin laminin, keratin, albumin, hydroxyethyl-cellulose, cellulose, oxidized cellulose, hydroxypropyl cellulose, carboxyethyl cellulose, carboxymethyl cellulose, chitin, chitosan, alginate, poly-(lactic acid), poly-(glycolic), poly-(butyric ester), poly-(phosphazine), polyester, Polyethylene Glycol, polyoxyalkylene, polyacrylamide, poly hydroxy ethyl acrylate, polyvinylpyrrolidone, polyvinyl alcohol, poly-(caprolactone), poly-(dioxanone), polyacrylic acid, poly-acetas, pla-pcl, polypropylene, aliphatic polyester, glycerol, poly-(aminoacid), copolymerization (ether-ester), poly-oxalic acid alkylidene diol ester, polyamide, poly-(iminocarbonic ester), poly-oxalic acid alkylidene diol ester, poly-esters of oxyacids, poe, polyphosphazene and their combination.
Tissue thickness's compensating part can comprise the layer comprising reinforcing material.The porous layer of tissue thickness's compensating part and/or non-porous layer can comprise reinforcing material.Such as, porous layer can comprise reinforcing material and non-porous layer can not comprise reinforcing material.Enhancement layer can comprise the internal layer in the middle of the first non-porous layer and the second non-porous layer.Enhancement layer can comprise the skin of tissue thickness's compensating part.Enhancement layer can comprise the outer surface of tissue thickness's compensating part.
Reinforcing material can comprise mesh sheet, monofilament, multifilament weave fabric, fiber, pad, felt, granule and/or powder.Reinforcing material can be attached in the layer of tissue thickness's compensating part.Reinforcing material can be attached at least one in non-porous layer and porous layer.Can use routine techniques (such as knitting, braiding, tatting and/knitting or form the mesh sheet comprising reinforcing material.
According to the present invention, multiple reinforcing material can random direction and/or common direction orientation.Common direction can be such as be parallel to nail line and perpendicular to nail line in one.Such as, monofilament and/or multifilament weave fabric can random direction and/or common direction orientations.Monofilament and multifilament weave fabric can be associated with non-porous layer and/or porous layer.Tissue thickness's compensating part can be included in non-porous layer with multiple fortifying fibres of random direction orientation.Tissue thickness's compensating part can be included in non-porous layer with multiple fortifying fibres of common direction orientation.
See Figure 199, anvil block 70300 can comprise tissue thickness's compensating part 70305, and this tissue thickness's compensating part 70305 comprises the first non-porous layer 70307 and the second non-porous layer 70309 encapsulating enhancement layer 70310 hermetically.Enhancement layer 70310 can comprise hydrogel, and this hydrogel comprises embedding ORC granule wherein or fiber, and non-porous layer can comprise ORC.As shown in Figure 199, tissue thickness's compensating part 70305 can conform to the profile of anvil block 70300.The internal layer of tissue thickness's compensating part 70305 can conform to the inner surface of anvil block 70300, and it comprises formation pit 70301.
Fiber can form such as non-woven material, such as pad and felt.Fiber can have any suitable length, such as, from 0.1mm to 100mm and 0.4mm to 50mm.Reinforcing material can be ground into powder.Powder can have such as from the granularity of 10 microns to 1 centimetre.Powder can be attached in tissue thickness's compensating part.
Tissue thickness's compensating part can original position be formed.Hydrogel can original position be formed.Tissue thickness's compensating part is formed by covalency ion and/or hydrophobic bond original position.Physics (non-covalent) is crosslinked can be caused by complexation, hydrogen bonding, desolvation, Van der Waals interaction, ionic bonding and their combination.Chemistry (covalency) is crosslinked to be realized by any one in multiple mechanism, and described mechanism comprises: Raolical polymerizable, polycondensation reaction, anion or cationic polymerization, step-growth polymerization reaction, electrophile-nucleophile reaction and their combination.
Optionally, the original position of tissue thickness's compensating part is formed to comprise and makes two or more precursors reaction, and described precursor is physically separated until original position contacts and/or reacts to environmental condition, thus reacts each other to form hydrogel.The polymerisable polymer of original position can be prepared by precursor, and described precursor can react to form polymer at operative site.Tissue thickness's compensating part is formed by precursor cross-linking reaction in position.Precursor can comprise the initiator of the polyreaction of the formation that can cause for original position tissue thickness compensating part.The precursor that tissue thickness's compensating part can be activated when can be included in the application forming cross-linked hydrogel.The original position of tissue thickness's compensating part is formed to comprise and excites at least one precursor to form chemical bond, thus formative tissue thickness compensation part.Optionally, activate and realize by the change at operative site physical condition, biotic factor and/or electrochemical conditions, described change includes but not limited to temperature, pH, electric field, ionic strength, enzyme and/or chemical reaction, electricity and/or Neural stem cell, and other physiological and environmental variables.Precursor can be touched at body exterior and can be introduced in operative site.
Tissue thickness's compensating part comprises one or more packaging part or unit that can store wherein at least one component.Packaging part can store hydrogel precursor wherein.Packaging part can store such as two kinds of components wherein.Packaging part can store the first hydrogel precursor wherein and the second hydrogel precursor.First packaging part can store the first hydrogel precursor wherein, and the second packaging part can store the second hydrogel precursor wherein.As mentioned above, packaging part can be aimed at nail lower limb or at least substantial registration thus pierce through packaging part when following closely lower limb and contacting packaging part and/or in other words make packaging part break.When disposing nail, this packaging part can be compressed, conquassation, collapse and/or in other words break.After packaging part breaks, the component stored wherein can flow out packaging part.Store component wherein and can contact other components, the layer of tissue thickness's compensating part and/or tissue.Other components from identical or different packaging part, can provide and/or are provided to operative site by clinician in the layer of tissue thickness's compensating part.As above-described result, the component be stored in packaging part can provide the expansion of tissue thickness's compensating part and/or swelling.
Tissue thickness's compensating part can comprise the layer comprising packaging part.Packaging part can comprise be associated with layer space, pit, dome, pipe and their combination.This packaging part can comprise the space in layer.Layer can comprise two layers that can be attached to each other, and wherein packaging part can be defined between two layers.Packaging part can comprise the dome on layer surface.Such as, can being positioned at least partially in the dome that upwards extends from layer of packaging part.Packaging part can be included in the pit formed in layer.The Part I of packaging part can comprise dome, and the Part II of packaging part can comprise pit.Packaging part can be included in the pipe that layer is embedded in.Pipe can comprise non-synthetic materials as herein described and/or synthetic material, such as PLA.Tissue thickness's compensating part can comprise can the foam of bio-absorbable, such as ORC, describedly the foam of bio-absorbable can comprise embedding PLA pipe wherein, and this pipe can encapsulate such as hydrogel.Packaging part can comprise mutual unconnected separate unit.In packaging part one or more can via extend through one or more paths of layer, conduit and/or passage and mutually fluid be communicated with.
Release rate from the component of packaging part can be controlled by the following stated: the thickness of such as tissue thickness's compensating part, the ingredient of tissue thickness's compensating part, the size of component, the hydrophilic of component and/or the physics in component and/or chemical interaction, the ingredient of tissue thickness's compensating part and/or surgical instruments.Layer can comprise one or more thin section or weakening part (such as local perforations), and such as described one or more thin section or weakening part can be conducive to incision layer and packaging part is broken.Local perforations not exclusively can extend through layer, and in some cases, perforation may extend entirely through layer.
See Figure 194 and Figure 195, tissue thickness's compensating part 70150 can comprise the outer 70152A and internal layer 70152B that comprise packaging part 70154.Packaging part can comprise the first encapsulation component and the second encapsulation component.Packaging part can comprise the one in the first encapsulation component and the second encapsulation component independently.First encapsulation component can encapsulate component and separates with second.Outer 70152A can comprise tissue contacting surface.Internal layer 70152B can comprise device contacts surface.Device contacts surface 70152B can be attached to anvil block 70156 releasedly.Outer 70152A can be attached to internal layer 70152B to limit space between outer 70152A and internal layer 70152B.As shown in Figure 194, each packaging part 70154 can be included in the dome on the device contacts surface of internal layer 70152B.This dome can comprise local perforations to promote incision layer by nail lower limb and breaking of packaging part.As shown in Figure 195, anvil block 70156 can comprise multiple shaping pit row 70158, and wherein the dome of packaging part 70154 can be aimed at shaping pit 70158.Tissue contacting surface can comprise and not have vaulted flat surfaces.Tissue contacting surface can comprise one or more packaging part, such as from the packaging part 70154 that it extends.
Optionally, anvil block can comprise tissue thickness's compensating part, and this tissue thickness's compensating part comprises the encapsulation component comprising at least one microsphere particle.Tissue thickness's compensating part can comprise the packaging part comprising the first encapsulation component and the second encapsulation component.Tissue thickness's compensating part can comprise the packaging part comprising the first microsphere particle and the second microsphere particle.
See Figure 196, robotic suturing device can comprise anvil block 70180 and nail bin (being shown in other accompanying drawings).The nail 70190 of nail bin can be out of shape by anvil block 70180 when anvil block 70180 moves into make position and/or pass through the staple drivers system 70192 of nail 70190 to the movement of closed anvil block 70180 to be out of shape.The lower limb 70194 of nail can contact anvil block 70180, and nail 70190 is out of shape at least in part.Anvil block 70180 can comprise tissue thickness's compensating part 70182, and it comprises outer 70183A, internal layer 70183B.Tissue thickness's compensating part 70182 can comprise the first encapsulation component and the second encapsulation component.Packaging part 210185 can be aimed at or at least substantial registration, and make when following closely lower limb 70194 and being pushed through tissue T and outer 70183A, nail lower limb 70194 can pierce through packaging part 70185 and/or in other words make packaging part 70185 break.As shown in Figure 196, nail 70190C is in its complete firing position, and nail 70190B is in just by the process pulled the trigger, and follows closely 70190A and be in its non-firing position.The lower limb of nail 70190C and 70190B has moved through the internal layer 70183B of tissue T, outer 70183A and tissue thickness's compensating part 70182, and has contacted the anvil block 70180 being positioned at nail bin opposite.After packaging part 70185 breaks, encapsulation component can flow out and contact with each other such as body fluid and/or tissue T.Encapsulation component can be reacted with forming reactions product (such as hydrogel), such as to expand between tissue T and the base portion of nail and to promote tissue T against the lower limb followed closely.In all cases, due to mentioned above, tissue thickness's compensating part can occupy any gap of following closely and retaining in region.
Tissue thickness's compensating part can be suitable for using together with surgical instruments.As mentioned above, tissue thickness's compensating part can be associated with nail bin and/or anvil block.Tissue thickness's compensating part can be configured to any shape, size and/or the dimension that are suitable for coordinating nail bin and/or anvil block.As described herein, tissue thickness's compensating part can be attached to nail bin and/or anvil block releasedly.Before sewing process and during sewing process, any machinery that tissue thickness's compensating part can keep tissue thickness's compensating part to contact with nail bin and/or anvil block and/or the mode of chemistry be attached to nail bin and/or anvil block.After nail piercing tissue thickness compensation part, can remove from nail bin and/or anvil block or discharge tissue thickness's compensating part.When nail bin and/or anvil block move away from tissue thickness's compensating part, can remove from nail bin and/or anvil block or discharge tissue thickness's compensating part.
See Figure 191-Figure 193, robotic suturing device 70118 can comprise anvil block 70120 and comprise the nail bin 70122 of firing member 70124, multiple nail 70128, blade 70129 and tissue thickness's compensating part 70130.Tissue thickness's compensating part 70130 can comprise at least one encapsulation component.When tissue thickness's compensating part is compressed, sews up and/or cuts, encapsulation component can be broken.See Figure 192, such as, nail 70128 can be deployed between non-firing position and firing position, make the motion of nail lower limb through tissue thickness's compensating part 70130, the lower surface of penetrate tissue thickness compensation part 70130 and top surface, penetrate tissue T, and contact is positioned at the anvil block 70120 on nail bin 70118 opposite.Encapsulation component can interreaction, with embedding and the lyophilic powder be dispersed in tissue thickness's compensating part reacts and/or with humoral response to make tissue thickness's compensating part 70130 expand or swelling.When lower limb is out of shape against anvil block, the lower limb of each nail can tissue T in the part of capture tissue thickness compensation part 70130 and each nail 70128 a part and compression stress is applied to tissue T.As shown in Figure 192 and Figure 193, tissue thickness's compensating part 70130 can compensate the thickness of the tissue T at each nail 70128 IT.
See Figure 197, surgical instruments 70200 can comprise anvil block 70205 and nail bin 70215, and described anvil block 70205 comprises top and organizes thickness compensation part 70210, and described nail bin 70215 comprises the bottom with outer 70220 and internal layer 70225 and organizes thickness compensation part.Top organizes thickness compensation part 70210 can be positioned on the first side of destination organization, and bottom organizes thickness compensation part can be positioned on the second side of tissue.Top organizes thickness compensation part 70210 to comprise ORC, and the hydrogel of embedding ORC granule is wherein organized the skin of thickness compensation part to comprise to have in bottom, and bottom organizes the internal layer of thickness compensation part can comprise such as ORC.
See Figure 200-Figure 20 2, surgical instruments 70400 can comprise nail bin 70405 and anvil block 70410.Nail bin 70405 can comprise tissue thickness's compensating part 70415, and it comprises can the foam of bio-absorbable.The foam of bio-absorbable can comprise packaging part, it comprises encapsulation component 70420.The foam of bio-absorbable can comprise ORC, and encapsulate component and can comprise such as medicine.Tissue thickness's compensating part 70415 of anvil block 70410 can comprise internal layer 70425 and outer 70430.Internal layer 70425 can comprise can the foam of bio-absorbable, and outer 70430 can comprise the hydrogel such as optionally comprising reinforcing material.During exemplary percussion sequence, first see Figure 20 1, sliding part 70435 can first contact stud 70440A and start nail upwards to lift.When sliding part 70435 is towards when more distally is further promoted, sliding part 70435 can start nail 70440B-D and any other follow-up nail to lift with sequential order.Sliding part 70435 can upwards drive nail 70440, makes the lower limb followed closely contact relative anvil block 70410 and be deformed into required shape.With reference to the percussion sequence shown in Figure 20 1, nail 70440A-follows closely the complete firing position that 70440C has been moved to them, and nail 70440D is in just by the process pulled the trigger, and follows closely 70420E and be still in its non-firing position.During exemplary percussion sequence, encapsulation component 70470 is broken by nail lower limb.Encapsulation component 70420 can from the packaging part around nail lower limb with contact tissue T.In all cases, extra medicine can be extruded packaging part by the compression that tissue thickness's compensating part is extra.This medicine can treated tissue and can reducing be organized hemorrhage immediately.
In all cases, surgeon or other clinician can will be included in tissue thickness's compensating part of at least one medicine wherein storing and/or absorb with manufacture in liquid delivery to tissue thickness's compensating part.According to the present invention, nail bin and/or anvil block can comprise the mouth that can provide and lead to tissue thickness's compensating part entrance.See Figure 20 3B, nail bin 70500 can comprise such as at the mouth 70505 of its distal end.Mouthfuls 70505 can receive pin 70510, and being such as shown in has vent needle in Figure 20 3A.Pin 70510 can be inserted in tissue thickness's compensating part 70515 by mouth 70505 by clinician, thus delivers a fluid to tissue thickness's compensating part 70515.Fluid can comprise such as medicine and hydrogel precursor.As mentioned above, when tissue thickness's compensating part breaks and/or compresses, fluid can be discharged into tissue from tissue thickness's compensating part.Such as, when tissue thickness's compensating part 70515 carries out biodegradation, medicine can discharge from tissue thickness's compensating part 70515.
Referring now to Figure 14, nail bin (such as nail bin 10000) such as can comprise support section 10010 and compressible tissue thickness compensating part 10020.Referring now to Figure 16-Figure 18, multiple nail chambeies 10012 that support section 10010 can comprise platform surface 10011 and be limited in support section 10010.The size in each nail chamber 10012 such as can be set to and can store nail removedly wherein, such as follows closely 10030.Nail bin 10000 also can comprise multiple staple drivers 10040, and when nail 10030 and staple drivers 10040 are in its non-firing position, each staple drivers can one or more nails 10030 in support nail chamber 10012.Such as, first see Figure 22 and Figure 23, each staple drivers 10040 can comprise such as one or more support or groove 10041, and this support or groove can support nail the relative motioies limited between nail 10030 and staple drivers 10040.Refer again to Figure 16, nail bin 10000 also can comprise nail percussion sliding part 10050; This nail percussion sliding part can move to distal end 10002 from the proximal extremity 10001 of nail bin, staple drivers 10040 and nail 10030 to be lifted from its non-firing position towards the anvil block being positioned at nail bin 10000 opposite successively.First see Figure 16 and Figure 18, one or more lower limbs 10032 that each nail 10030 can comprise base portion 10031 and extend from base portion 10031, wherein each nail can be at least one in such as basic U-shaped and basic V-arrangement.Nail 10030 can make when nail 10030 is in its non-firing position, caves in relative to the platform surface 10011 of support section 10010 in the top of nail lower limb 10032.Nail 10030 can make when nail 10030 is in its non-firing position, and the top of nail lower limb 10032 flushes relative to the platform surface 10011 of support section 10010.Nail 10030 can make when nail 10030 is in its non-firing position, and the top of nail lower limb 10032 or at least certain part of nail lower limb 10032 extend to above the platform surface 10011 of support section 10010.In this case, when nail 10030 is in its non-firing position, nail lower limb 10032 may extend into and enters and be embedded in tissue thickness's compensating part 10020.Such as, follow closely lower limb 10032 and such as can to extend to above platform surface 10011 about 0.075 ".Nail lower limb 10032 such as can extend to the distance above platform surface 10011 between about 0.025 " and about 0.125 ".To being described further above, tissue thickness's compensating part 10020 can comprise the uncompressed thickness such as between about 0.08 " and about 0.125 ".
In use, to be described further above and main see Figure 31, anvil block such as anvil block 10060 is such as moveable to the make position relative with nail bin 10000.As described in more detail below, tissue can be located against tissue thickness's compensating part 10020 and such as tissue thickness's compensating part 10020 be pressed to the platform surface 10011 of support section 10010 by anvil block 10060.Once anvil block 10060 is appropriately located, then can dispose nail 10030, equally as shown in figure 31.Optionally, as mentioned above, nail percussion sliding part 10050 can move from proximal extremity 10001 distal end 10002 of nail bin 10000, as shown in figure 32.When sliding part 10050 is pushed into, sliding part 10050 can contact stud driver 10040 and nail chamber 10012 in staple drivers 10040 is upwards lifted.Sliding part 10050 and staple drivers 10040 can comprise one or more slope or inclined-plane separately, and this one or more slope or inclined-plane can cooperate staple drivers 10040 is moved upward from its non-firing position.Such as, see Figure 19-Figure 23, each staple drivers 10040 can comprise at least one inclined surface 10042, and sliding part 10050 can comprise one or more inclined surface 10052, it can make when sliding part 10050 is distally pushed in nail bin, and inclined surface 10052 can in inclined surface 10042 lower slider.When staple drivers 10040 is upwards lifted in its respective nail chamber 10012, nail 10030 can upwards lift by staple drivers 10040, and nail 10030 is exposed from its nail chamber 10012 by the opening in nail platform 10011.During exemplary percussion sequence, first see Figure 25-Figure 27, sliding part 10050 can first contact stud 10030a and start nail 10030a upwards to lift.When sliding part 10050 is distally further promoted, sliding part 10050 can start nail 10030b, 10030c, 10030d, 10030e and 10030f and any other follow-up nail to lift in order.As shown in figure 27, nail 10030 can upwards drive by sliding part 10050, makes the lower limb 10032 followed closely contact relative anvil block, is deformed into the shape of expectation, and penetrates from support section 10010.In all cases, as a part for percussion sequence, multiple nail can move upward by sliding part 10030 simultaneously.With reference to the percussion sequence shown in Figure 27, nail 10030a and 10030b has moved to its complete firing position and has penetrated from support section 10010, nail 10030c and 10030d is in and is at least partly accommodated in support section 10010 in the process pulled the trigger, and follows closely 10030e and 10030f and be still in its non-firing position.
As mentioned above and see Figure 33, when nail 10030 is in its non-firing position, the nail lower limb 10032 of nail 10030 can extend to above the platform surface 10011 of support section 10010.With further reference to this percussion sequence shown in Figure 27, nail 10030e and 10030f is depicted as and is in its non-firing position, and its nail lower limb 10032 to extend to above platform surface 10011 and extends in tissue thickness's compensating part 10020.When nail 10030 is in its non-firing position, the top tissue contacting surface 10021 of the top of nail lower limb 10032 or any other part possibility Bu Tuchuan tissue thickness compensating part 10020 of nail lower limb 10032.As shown in figure 27, when nail 10030 moves to its firing position from its non-firing position, tissue contacting surface 10032 convexly can be worn in the top of nail lower limb.The top of nail lower limb 10032 can comprise the sharp top can cut with penetrate tissue thickness compensation part 10020.Tissue thickness's compensating part 10020 can comprise multiple hole, and described multiple hole can receive nail lower limb 10032 and allow nail lower limb 10032 to slide relative to tissue thickness's compensating part 10020.Support section 10010 also can comprise the multiple guiding pieces 10013 extended from platform surface 10011.Guiding piece 10013 can be oriented to the nail chamber opening of contiguous platform surface 10011, and nail lower limb 10032 can be supported by guiding piece 10013 at least in part.Guiding piece 10013 can be positioned in proximal extremity and/or the distal end place of nail chamber opening.According to the present invention, first guiding piece 10013 can be positioned in the first end of each nail chamber opening, and the second guiding piece 10013 can be positioned in the second end of each nail chamber opening, make each first guiding piece 10013 can support nail 10030 first nail lower limb 10032, and each second guiding piece 10013 can support nail second nail lower limb 10032.See Figure 33, each guiding piece 10013 can comprise groove or slit, such as groove 10016, and such as following closely lower limb 10032 can be received in the groove slidably.Optionally, each guiding piece 10013 can comprise and can extend from platform surface 10011 and can extend to anti-skid stud, projection and/or the spike tissue thickness's compensating part 10020.As described in more detail below, anti-skid stud, projection and/or spike can reduce the relative motion between tissue thickness's compensating part 10020 and support section 10010.The top of nail lower limb 10032 can be positioned in guiding piece 10013 and can not to extend to when nail 10030 is in its non-firing position above the top surface of guiding piece 10013.Such as, guiding piece 10013 can limit steering level, and can not extend to above this steering level when nail 10030 is in its non-firing position.
According to the present invention, tissue thickness's compensating part (such as tissue thickness's compensating part 10020) such as can be made up of single material piece.Tissue thickness's compensating part can comprise continuous sheet, and this continuous sheet can cover the whole top platform surface 10011 of support section 10010, or alternatively, covers and be less than whole platform surface 10011.Material piece can cover the nail chamber opening in support section 10010, but alternatively, material piece can comprise opening that is that can aim at nail chamber opening or that aim at least partly.According to the present invention, tissue thickness's compensating part can be made up of multilayer material.Referring now to Figure 15, tissue thickness's compensating part can comprise compressible core and the wrappage around compressible core.Compressible core can be remained to support section 10010 by wrappage 10022 releasedly.Such as, support section 10010 can comprise such as from one or more protuberances that it extends, such as protuberance 10014 (Figure 18), this protuberance can be received in one or more hole and/or slit, is such as limited to the hole 10024 in wrappage 10022.Protuberance 10014 and hole 10024 can make protuberance 10014 wrappage 10022 can be remained to support section 10010.The end of protuberance 10014 can be such as out of shape by hot melt process, to expand the end of protuberance 10014, and therefore limits the relative motion between wrappage 10022 and support section 10010.Wrappage 10022 can comprise one or more perforation 10025, and it can be conducive to wrappage 10022 to discharge from support section 10010, as shown in figure 15.Referring now to Figure 24, tissue thickness's compensating part can comprise wrappage 10222, and this wrappage comprises multiple hole 10223, and its mesopore 10223 can be aimed at the nail chamber opening in support section 10010 or aim at least partly.The core of tissue thickness's compensating part also can comprise the hole aimed at the hole 10223 in wrappage 10222 or aim at least partly.Alternatively, the core of tissue thickness's compensating part can comprise continuous main body and may extend into below hole 10223, makes the nail chamber opening in continuous main body covering platform surface 10011.
Optionally, as mentioned above, tissue thickness's compensating part can comprise the wrappage for compressible core being remained to releasedly support section 10010.Such as, see Figure 16, nail bin also can comprise keeper fixture 10026, and this keeper fixture can suppress wrappage and compressible core to be separated with support section 10010 prematurely.Optionally, each keeper fixture 10026 can comprise the hole 10028 that can receive the protuberance 10014 extended from support section 10010, makes keeper fixture 10026 can be held support section 10010.Keeper fixture 10026 can comprise at least one flat of bottom 10027 separately, and this flat of bottom to may extend into below support section 10010 and keeps staple drivers 10040 in support section 10010 inner support.As mentioned above, tissue thickness's compensating part is attached to support section 10010 removedly by following closely 10030.More particularly, also as mentioned above, when nail 10030 is in its non-firing position, the lower limb of nail 10030 may extend in tissue thickness's compensating part 10020, and therefore tissue thickness's compensating part 10020 is remained to support section 10010 releasedly.The lower limb of nail 10030 can the sidewall contact in its corresponding nail chamber 10012, and wherein, due to the friction between nail lower limb 10032 and sidewall, nail 10030 and tissue thickness's compensating part 10020 can be maintained at appropriate location, until nail 10030 is deployed from nail bin 10000.After nail 10030 is deployed, tissue thickness's compensating part 10020 can be trapped in nail 10030 and to be kept against the tissue T sewed up.When anvil block moves to open position subsequently to discharge tissue T, the movable tissue thickness's compensating part 10020 away from being fixed to tissue of support section 10010.Binding agent can be used so that tissue thickness's compensating part 10020 is remained to support section 10010 removedly.Two-part adhesive can be used, wherein, the Part I of binding agent can be placed on platform surface 10011, and the Part II of binding agent can be placed on tissue thickness's compensating part 10020, make when tissue thickness's compensating part 10020 be close to platform surface 10011 place time, Part I can contact Part II to enable binding agent and tissue thickness's compensating part 10020 is bonded to support section 10010 separably.Optionally, any other suitable method can be used tissue thickness's compensating part to be remained to separably the support section of nail bin.
To being described further above, sliding part 10050 proximally can be advanced to distal end 10002 to dispose all nails 10030 be accommodated in nail bin 10000 completely by end 10001.Referring now to Figure 56-Figure 60, sliding part 10050 distally can be advanced by the knife bar 10052 of firing member or surgical stapling device in the longitudinal cavity 10016 in support section 10010.In use, nail bin 10000 can be inserted in the nail bin passage in the jaw of surgical stapling device, such as nail bin path 10 070, and firing member 10052 can be advanced to and contacts with sliding part 10050, as shown by the circuit diagram of figure 56.When sliding part 10050 is distally advanced by firing member 10052, sliding part 10050 can contact staple drivers or the driver 10040 of recent side, and nail 10030 is pulled the trigger from warehouse 10010 or penetrated, as mentioned above.As shown by the circuit diagram of figure 56, firing member 10052 also can comprise cutting edge 10053, and when nail 10030 is by percussion, this cutting edge distally can be pushed into by the cutter slit in support section 10010.According to the present invention, corresponding cutter slit can extend through the anvil block being positioned at nail bin 10000 opposite, makes cutting edge 10053 can extend between anvil block and support section 10010 and cut the tissue and tissue thickness's compensating part that are positioned at therebetween.In all cases, sliding part 10050 distally can be advanced by firing member 10052, until sliding part 10050 arrives the distal end 10002 of nail bin 10000, as shown in Figure 58.Now, firing member 10052 can proximally bounce back.Sliding part 10050 proximally can bounce back with firing member 10052, but referring now to Figure 59, when firing member 10052 bounces back, sliding part 10050 can be left in the distal end 10002 of nail bin 10000.Once firing member 10052 fully bounces back, anvil block can be opened again, and tissue thickness's compensating part 10020 can be separated with support section 10010, and has exhausted the remaining non-implanted portion of nail bin 10000, comprise support section 10010, can be removed from nail bin path 10 070.
When exhausting after nail bin 10000 is removed from nail bin passage, to being described further above, new nail bin 10000 or any other suitable nail bin can be inserted in nail bin path 10 070.To being described further above, nail bin path 10 070, firing member 10052 and/or nail bin 10000 can comprise cooperative structures, and this cooperative structures can prevent firing member 10052 again or to be subsequently distally pushed in new not pulling the trigger when nail bin 10000 is not positioned in nail bin path 10 070.More particularly, refer again to Figure 56, when firing member 10052 be advanced to contact with sliding part 10050 time, and when sliding part 10050 is in the non-firing position of its nearside, the support nose 10055 of firing member 10052 can be positioned on the support lugn 10056 on sliding part 10050 and/or on, make firing member 10052 be maintained at enough positions upwards, fall into prevent the lock that extends from firing member 10052 or crossbeam 10054 the lock groove be limited in nail bin passage.Due to lock 10054 can not fall into lock groove time, in this case, when firing member 10052 is pushed into, lock 10054 can not adjoin locks the distally sidewall 10057 of groove.When sliding part 10050 distally promotes by firing member 10052, firing member 10052 can be supported on its upwards firing position due to the support nose 10055 leaned against on support lugn 10056.When firing member 10052 bounces back relative to sliding part 10050, as mentioned above also as shown in Figure 59, when supporting nose 10055 and not relying on the support lugn 10056 of sliding part 10050, firing member 10052 upwards can fall position from it.Such as, surgical staples can comprise and firing member 10052 can be biased to it to the spring 10058 of upper/lower positions and/or any other suitable biasing element.Once firing member 10052 bounces back completely, as shown in Figure 60, firing member 10052 can not distally be pushed into through the nail bin 10000 used up again.More particularly, when the sliding part 10050 being now in operating sequence has been left on distal end 10002 place of nail bin 10000, firing member 10052 can not have been remained on its upper position by sliding part 10050.Therefore, as mentioned above, if firing member 10052 is advanced again when not replacing nail bin, then lock crossbeam 10054 by the sidewall 10057 of contact lock groove, this will prevent firing member 10052 to be again distally advanced in nail bin 10000.In other words, once the nail bin 10000 used up is replaced by new nail bin, new nail bin will have the sliding part 10050 of nearside location, and firing member 10052 can be remained on its upwards position by the sliding part of this nearside location, and firing member 10052 is distally pushed into again.
As mentioned above, staple drivers 10040 can move by sliding part 10050 between the first non-firing position and the second firing position, to be penetrated from support section 10010 by nail 10030.After nail 10030 is penetrated from support section 10010, staple drivers 10040 can be accommodated in nail chamber 10012.Support section 10010 can comprise one or more maintenance feature structures that staple drivers 10040 can be stoped to penetrate or drop out from nail chamber 10012.Alternatively, staple drivers 10040 can penetrate by sliding part 10050 from the support section 10010 with nail 10030.Such as, staple drivers 10040 can by such as can bio-absorbable and/or biocompatible materials form, such as Polyetherimide (Ultem).Staple drivers can be attached to nail 10030.Such as, on the base portion that staple drivers can be molded into each nail 10030 and/or around, driver and nail are integrally formed.The name of JIUYUE in 2006 submission on the 29th is called that " SURGICAL STAPLES HAVING COMPRESSIBLE ORCRUSHABLE MEMBERS FOR SECURING TISSUE THEREIN ANDSTAPLING INSTRUMENTS FOR DEPLOYING THE SAME " U.S. Patent Application Serial Number 11/541,123 is incorporated herein by reference in full.
As mentioned above, surgery suturing appliance can comprise can receive nail bin nail bin passage, be rotatably connected to the anvil block of nail bin passage and comprise the firing member of blade, this firing member can relative to anvil block and the motion of nail bin passage.In use, nail bin can be positioned in nail bin passage, and after nail bin is consumed at least in part, nail bin can remove from nail bin passage and be replaced by new nail bin.Such as, the nail bin passage of surgery suturing appliance, anvil block and/or firing member can be used again together with replacement nail bin.Alternatively, nail bin can comprise a part for disposable loading unit assembly, this disposable loading unit assembly such as can comprise nail bin passage, anvil block and/or firing member, and these can be used as a part of replacing disposable loading unit assembly and are replaced with nail bin.Some disposable loading unit assembly is disclosed in the U.S. Patent Application Serial Number 12/031 that the name submitted on February 15th, 2008 is called " END EFFECTOR COUPLINGARRANGEMENTS FOR A SURGICAL CUTTING AND STAPLINGINSTRUMENT ", in 817, whole disclosures of this patent application are incorporated herein by reference.
Tissue thickness's compensating part can comprise can be extruded, can cast and/or mouldable compositions, and it comprises at least one in synthetic material as herein described and/or non-synthetic materials.Tissue thickness's compensating part can comprise the film or sheet with two-layer or more layer.Tissue thickness's compensating part can use conventional method to obtain, such as mix, blended, combination, spraying, wicking, solvent evaporation, dipping, brushing, gaseous phase deposition, extrude, roll, cast, molding etc.When extruding, the form that opening can comprise the mould of at least one opening is that the extrudate exposed gives shape.During calendering, opening can comprise the roll gap between two rollers.Conventional molding methods can include but not limited to blowing, injection moulding, foam injection, compression moulding, hot forming, extrude, foam extrude, thin film blowing, calendering, spinning, solvent welding, coating process such as dip-coating and spin coating, solution casting and film casting, plastisol processing (comprising scraper for coating, roller coat and casting), and their combination.During injection moulding, opening can comprise nozzle and/or passage/runner and/or cavity body of mould and feature structure.During compression moulding, compositions can be positioned in cavity body of mould, is heated to suitable temperature, and by being compressed at relatively high pressure and being shaped.During casting, compositions can comprise liquid or serosity, and it injects or is in other words provided to the inside of mould or object, and/or around above, with the feature structure of copy mold or object.After casting, compositions can dried, cooling and/or solidification to form solid.
According to the present invention, the method manufacturing tissue thickness's compensating part can comprise substantially provides tissue thickness's compensating part compositions, liquefaction said composition can flow to make it, and is formed as the compositions of melting, semi-molten or mecystasis having the layer and/or film of expecting thickness.See Figure 198 A, tissue thickness's compensating part is by following steps manufacture: dissolved water gel precursors in aqueous solution, disperse biocompatible particles and/or fiber wherein, the mould wherein with biocompatible particles is provided, solution is provided in mould, activator is contacted with solution, and curing solution is with formative tissue thickness compensation part, this tissue thickness's compensating part comprises the skin comprising biocompatible particles and the internal layer comprising embedding biocompatible particles wherein.As shown in Figure 198 A, biocompatible layer 70250 can be provided in the bottom of mould 70260, and the aqueous solution of the hydrogel precursor 70255 with biocompatible particles 70257 can be provided to mould 70260 wherein, and can by aqueous solution solidification with formative tissue thickness compensation part, this tissue thickness's compensating part has the ground floor comprising biocompatible materials (such as ORC), and comprises the second layer of the hydrogel being wherein provided with biocompatible fibres (such as ORC fiber).Tissue thickness's compensating part can comprise foam, and described foam comprises containing the skin of biocompatible particles and the internal layer containing the biocompatible particles embedded wherein.Tissue thickness's compensating part is by following steps manufacture: in water, dissolve sodium alginate, disperse ORC granule wherein, the mould wherein with ORC granule is provided, pour solution into mould, spraying or injection calcium chloride are to contact solution, thus causing the crosslinked of sodium alginate, lyophilization hydrogel is with formative tissue thickness compensation part, and it comprises the skin comprising ORC and the internal layer comprising hydrogel and the ORC granule be embedded in wherein.
See Figure 198 B, the method manufacturing three-layer weave thickness compensation part can comprise substantially: in the first aqueous solution, dissolve the first hydrogel precursor, biocompatible particles and/or fiber is disperseed in the first aqueous solution, the mould 70260 of the ground floor 70250 wherein with biocompatible particles is provided, first aqueous solution is provided in mould, activator is contacted with the first aqueous solution, solidify the first aqueous solution to form the second layer 70255, the second hydrogel precursor is dissolved in the second aqueous solution, second aqueous solution is provided in mould, solidify the second aqueous solution to form third layer 70265.Three-layer weave thickness compensation part is by following steps manufacture: in water, dissolve sodium alginate to form the first aqueous solution, ORC granule is disperseed in the first aqueous solution, the mould of the ground floor wherein with ORC granule is provided, first aqueous solution is poured in mould, spraying or injection calcium chloride are to contact the first aqueous solution, thus cause the crosslinked of sodium alginate, lyophilization first aqueous solution comprises the second layer of the hydrogel with embedding ORC granule wherein to be formed, sodium alginate is dissolved to form the second aqueous solution in water, second aqueous solution is poured in mould, spraying or injection calcium chloride are to contact the second aqueous solution, thus cause the crosslinked of sodium alginate, lyophilization second aqueous solution comprises the third layer of hydrogel to be formed.
According to the present invention, the method manufacturing the tissue thickness's compensating part comprising at least one storage and/or be absorbed in medicine wherein can comprise substantially provides tissue thickness's compensating part, and makes tissue thickness's compensating part and medicament contact to be remained in tissue thickness's compensating part by medicine.Manufacture the method comprising antibacterial materials microstructure thickness compensation part can comprise and provide hydrogel, dried hydrogel, swollen hydrogel in silver nitrate aqueous solution, hydrogel contact with sodium chloride solution, thus formation has tissue thickness's compensating part of antibacterial characteristics.Tissue thickness's compensating part can comprise the silver be dispersed in wherein.
See Figure 20 4, the method manufacturing tissue thickness's compensating part can comprise coetrusion and/or Method for bonding.Such as, tissue thickness's compensating part 70550 can comprise lamilated body, and described lamilated body comprises ground floor 70555 and comprises the second layer 70560 of internal layer 70565 of hydrogel in a sealing manner.Hydrogel can comprise such as dry film, dry foam, powder and/or granule.Hydrogel can comprise super-absorbent material, such as polyvinylpyrrolidone, carboxymethyl cellulose, poly-thiopropyl acrylate.By by the raw material of ground floor and the second layer respectively from hopper feed in extruder, then provide ground floor and the second layer to carry out order and manufacture ground floor and/or the second layer.The raw material of internal layer 70565 can be added extruder hopper.Raw material can disperse mixing and compound at elevated temperatures in an extruder.Along with raw material flows out mould 70570 at opening part, internal layer 70565 can deposit on the surface of ground floor 70555.Tissue thickness's compensating part can comprise foam, film, powder and/or granule.Ground floor 70555 and the second layer 70560 can be located face-to-face.The second layer 70560 is aimed at ground floor 70555 face-to-face by roller 70575.Ground floor 70555 can be attached to the second layer 70560, and wherein ground floor 70555 and the second layer 70560 can Physical entrapment internal layers 70565.Layer can such as optical pressure, conventional hot calendering bonding technique and/or by use adhesive bond together, with formative tissue thickness compensation part 70550.As shown in Figure 78, ground floor 70555 and the second layer 70560 can by such as utilizing the operation of rolling of grooved roller 70580 to be bonded together.Optionally, as above-described result, hold by the ground floor 70555 and the second layer 70560 that jointly can form skin or barrier and/or seal internal layer 70565.Skin can stop or reduce internal layer 70565 contact wetting, until skin breaks.
See Figure 61, the end effector 12 (Fig. 1) of surgical instruments 10 can receive fastener cartridge assembly, such as nail bin 20000.As shown in Figure 61, nail bin 20000 can be engaged in the nail bin passage 20072 of the jaw 20070 of end effector 12.Alternatively, nail bin 20000 can be in aggregates with end effector 12, makes nail bin 20000 and end effector 12 be formed as individual unit structure.Nail bin 20000 can comprise such as the first main part, such as rigid support part 20010.Nail bin 20000 also can comprise such as the second main part, such as compressible portion or tissue thickness's compensating part 20020.Alternatively, tissue thickness's compensating part 20020 can not comprise the integral part of nail bin 20000, but otherwise can locate relative to end effector 12.Such as, tissue thickness's compensating part 20020 can be fixed to the anvil block 20060 of end effector 12 or can otherwise remain in end effector 12.See Figure 78, nail bin also can comprise keeper fixture 20126, and it can suppress tissue thickness's compensating part 20020 to be separated from support section 20010 prematurely.Reader will know, tissue thickness as herein described compensating part can be arranged in multiple end effector or in other words and engage with multiple end effector, and these within the scope of the invention.
Be similar to tissue thickness as herein described compensating part, referring now to Figure 78, tissue thickness's compensating part 20020 can from surgical end-effector 12 discharge or with its disengaging.Such as, the rigid support part 20010 of nail bin 20000 can keep engaging with the fastener cartridge passage 20072 of end effector jaw 20070, and tissue thickness's compensating part 20020 departs from from rigid support part 20010.By nail 20030 (Figure 78-Figure 83) from rigid support part 2010 nail chamber 20012 dispose after, tissue thickness's compensating part 20020 can discharge from end effector 12.Nail 20030 can be pulled the trigger from nail chamber 20012, makes nail 20030 joining tissue thickness compensation part 20020.In addition, generally see Figure 63, Figure 82 and Figure 83, nail 20030 can capture tissue thickness compensation part 20020 a part together with sew up tissue T.Tissue thickness's compensating part 20020 can be deformable, and the part being captured in the tissue thickness's compensating part 20020 in percussion nail 20030 can be compressed.Be similar to tissue thickness as herein described compensating part, tissue thickness's compensating part 20020 can compensate the tissue T be trapped in each nail 20030 of different-thickness, compressibility and/or density.In addition, also as described herein, tissue thickness's compensating part 20020 can compensate the gap that distortion nail 20030 produces.
Tissue thickness's compensating part 20020 can compress between uncompressed height and compression height.See Figure 78, tissue thickness's compensating part 20020 can have top surface 20021 and lower surface 20022.The height of tissue thickness's compensating part can be the distance between top surface 20021 and lower surface 20022.When applying minimum force to tissue thickness's compensating part 20020 or not applying power, namely when tissue thickness's compensating part 20020 is not by compression, the uncompressed height of tissue thickness's compensating part 20020 can be the distance between top surface 20021 and lower surface 20022.Such as when applying power to tissue thickness's compensating part 20020, such as when pulling the trigger nail 20030 capture tissue thickness compensation part 20020 a part of, the compression height of tissue thickness's compensating part 20020 can be the distance between top surface 20021 and lower surface 20022.Tissue thickness's compensating part 20020 can have distal end 20025 and proximal extremity 20026.As shown in Figure 78, the uncompressed height of tissue thickness's compensating part 20020 can be consistent between the distal end 20025 of tissue thickness's compensating part 20020 and proximal extremity 20026.Alternatively, uncompressed height can change between distal end 20025 and proximal extremity 20026.Such as, the top surface 20021 of tissue thickness's compensating part 20020 and/or lower surface 20022 can angulation and/or stageds relative to other parts, and uncompressed height is changed between proximal extremity 20026 and distal end 20025.The uncompressed height of tissue thickness's compensating part 20020 can be such as about 0.08 inch.Alternatively, the uncompressed height of tissue thickness's compensating part 20020 can such as change between about 0.025 inch and about 0.10 inch.
As described in more detail herein, tissue thickness's compensating part 20020 can be compressed to different compression heights between its proximal extremity 20026 and distal end 20025.Alternatively, tissue thickness's compensating part 20020 can compress equably under its whole length.The compression height of tissue thickness's compensating part 20020 can be depending on geometry, the characteristic of tissue thickness's compensating part 20020, the tissue T of joint of such as end effector 12 and/or follows closely 20030.The compression height of tissue thickness's compensating part 20020 can be relevant with the interstice in end effector 12.Optionally, such as, when anvil block 20060 clamps towards nail bin 20000, interstice can be limited between the top platform surface 20011 (Figure 78) of nail bin 20000 and the tissue contacting surface 20061 (Figure 61) of anvil block 20060.Interstice can be such as about 0.025 inch or be about 0.100 inch.Interstice can be such as about 0.750 millimeter or be about 3.500 millimeters.The compression height of tissue thickness's compensating part 20020 can such as equal or be substantially equal to interstice.When in the interstice that tissue T is positioned at end effector 12, the compression height of tissue thickness's compensating part can reduce, to adapt to tissue T.Such as when interstice is about 0.750 millimeter, the compression height of tissue thickness's compensating part can be about 0.500 millimeter.Such as, when interstice is about 3.500 millimeters, the compression height of tissue thickness's compensating part 20020 can be about 2.5mm.In addition, tissue thickness's compensating part 20020 can comprise minimal compression height.Such as, the minimal compression height of tissue thickness's compensating part 20020 can be about 0.250 millimeter.The interstice be limited between the platform surface of nail bin and the tissue contacting surface of anvil block can such as equal or at least substantially equal the uncompressed height of tissue thickness's compensating part.
Main see Figure 62, tissue thickness's compensating part 20020 can comprise the fibrous nonwoven material 20080 of fiber 20082.Tissue thickness's compensating part 20020 can comprise the material of felt or similar felt.Fiber 20082 in non-woven material 20080 tightens together by any method as known in the art, includes but not limited to needle point method, heat bonding, water entanglement, ultrasonic bonds, chemical adhesion and meltblowing adhesive.In addition, the layer of non-woven material 20080 tightens together by machinery, heating or chemical method with formative tissue thickness compensation part 20020.As described in more detail herein, the non-woven material 20080 of fiber can be compressible, and it can make tissue thickness's compensating part 20020 compressible.Tissue thickness's compensating part 20020 also can comprise uncompressed part.Such as, tissue thickness's compensating part 20020 can comprise compressible non-woven material 20080 and uncompressed part.
Still main see Figure 62, non-woven material 20080 can comprise multiple fiber 20082.At least some fiber 20082 in non-woven material 20080 can be crimped fibre 20086.Crimped fibre 20086 can be in non-woven material 20080 such as curling, distortion, coiling, bending, distortion, spiral, around and/or arc.As described in more detail herein, crimped fibre 20086 can be formed by any suitable shape, makes the distortion of crimped fibre 20086 produce load on spring power or restoring force.Crimped fibre 20086 by thermoforming to form the shape of coiling or coiled type substantially.Crimped fibre 20086 can be formed by uncrimped fibers 20084.Such as, uncrimped fibers 20084 can be wrapped in around the mandrel that is heated to form the shape of coiled type substantially.
Tissue thickness's compensating part 20020 can comprise homogenization absorbable polymer matrix.Homogenization absorbable polymer matrix can comprise such as foam, gel and/or film.In addition, multiple fiber 20082 dispersibles in whole homogenization absorbable polymer matrix.At least some fiber 20082 in homogenization absorbable polymer matrix can be such as crimped fibre 20086.As described in more detail herein, the homogenization absorbable polymer matrix of tissue thickness's compensating part 2002 can be compressible.
See Figure 65 and Figure 66, crimped fibre 20086 can random dispersion in whole non-woven material 20080 at least partially in.Such as, crimped fibre 20086 can random dispersion in whole non-woven material 20080, make a part for non-woven material 20080 comprise more crimped fibres 20086 than other parts of non-woven material 20080.In addition, crimped fibre 20086 can be gathered in such as fiber cluster 20085a, 20085b, 20085c, 20085d and the 20085e in non-woven material 20080.The shape of crimped fibre 20086 can cause the entanglement of fiber 20086 during the manufacture of non-woven material 20080; The entanglement of crimped fibre 20086 can cause the formation of fiber cluster 20085a, 20085b, 20085c, 20085d and 20085e then.In addition or alternatively, crimped fibre 20086 can in whole non-woven material 20080 random orientation.Such as, see Figure 62, the first crimped fibre 20086a can along first direction orientation, and the second crimped fibre 20086b can along second direction orientation, and the 3rd crimped fibre 20086c can along third direction orientation.
Crimped fibre 20086 can systematically distribute and/or be arranged in whole non-woven material 20080 at least partially.Such as, referring now to Figure 67, crimped fibre 20186 can be positioned in structure 20185, and wherein multiple crimped fibre 20186a arranges along first direction, and other multiple crimped fibre 20186b arrange along second direction.Crimped fibre 20186 can be overlapping, makes them mutually tangle or interconnect.Crimped fibre 20186 can systematicness be arranged, makes crimped fibre 20186a be arranged essentially parallel to another crimped fibre 20186a.Another crimped fibre 20186b can extend substantially transversely to some crimped fibres 20186a.Optionally, crimped fibre 20186a can aim at first axle Y substantially, and crimped fibre 20186b can aim at the second axis X substantially.Such as first axle Y vertically or can be substantially perpendicular to the second axis X.
Main see Figure 68, crimped fibre 20286 can be arranged to structure 20285.Each crimped fibre 20286 can comprise the longitudinal axis be limited between the first end 20287 of crimped fibre 20286 and the second end 20289.Crimped fibre 20286 can systematically be distributed in non-woven material 20080, makes the first end 20287 of a crimped fibre 20286 be positioned at the position of the second end 20289 adjacent to another crimped fibre 20286.Alternatively, referring now to Figure 69, fibrous structure 20385 can comprise such as along the first crimped fibre 20386a of first direction orientation, along the second crimped fibre 20386b of second direction orientation, and along the 3rd crimped fibre 20386c of third direction orientation.According to the present invention, single pattern or the structure of crimped fibre 20286 can repeat in whole non-woven material 20080.Crimped fibre can be arranged in different modalities in whole non-woven material 20080.As other alternative form, non-woven material 20080 can comprise at least one crimped fibre pattern, and the crimped fibre of multiple random orientation and/or random.
Refer again to Figure 62, the multiple fibers 20082 in non-woven material 20080 can comprise at least some uncrimped fibers 20084.Uncrimped fibers 20084 in non-woven material 20080 and crimped fibre 20086 can tangle or interconnect.Crimped fibre 20086 can be such as about 25:1 with the ratio of uncrimped fibers 20084.Alternatively, crimped fibre 20086 can be such as about 1:25 with the ratio of uncrimped fibers 20084.Alternatively, crimped fibre 20086 can be such as about 1:1 with the ratio of uncrimped fibers 20084.As described in more detail herein, when non-woven material 20080 is out of shape, in the per unit volume of non-woven material 20080, the quantity of crimped fibre 20086 can affect the restoring force that non-woven material 20080 produces.Describe in more detail as same herein, the restoring force of non-woven material 20080 generation also can be depending on the material of crimped fibre 20086 and uncrimped fibers 20084 in such as non-woven material 20080, shape, size, position and/or orientation.
The fiber 20082 of non-woven material 20080 can comprise polymer composition.The polymer composition of fiber 20082 can comprise the polymer of nonabsorable, absorbable polymer or their combination.Absorbable polymer can comprise can bio-absorbable, biocompatible elastomers polymer.In addition, the polymer composition of fiber 20082 can comprise synthetic polymer, non-synthetic polymer or their combination.The example of synthetic polymer includes but not limited to polyglycolic acid (PGA), poly-(lactic acid) (PLA), polycaprolactone (PCL), poly-dioxanone (PDO) and their copolymer.Such as, fiber 20082 can comprise 90/10 poly-(Acetic acid, hydroxy-, bimol. cyclic ester-L-lactide) copolymer, such as this copolymer can brand name VICRYL (polyglactic 910) commercially available from Ethicon, Inc..The example of non-synthetic polymer includes but not limited to lyophilizing polysaccharide, glycoprotein, elastin laminin, Dan Baiduotang proteoglycan PG, gelatin, collagen and oxidized regenerated cellulose (ORC).Optionally, be similar to the polymer composition in tissue thickness as herein described compensating part, the polymer composition of fiber 20082 can the absorbable polymer of the amount of comprising difference (such as by weight percentage), the polymer of nonabsorable, synthetic polymer and/or non-synthetic polymer.
The crimped fibre 20086 of non-woven material 20080 can comprise the first polymer composition, and the uncrimped fibers 20084 of non-woven material 20080 can comprise different polymer compositions.Such as, crimped fibre 20086 can comprise synthetic polymer, such as 90/10 poly-(Acetic acid, hydroxy-, bimol. cyclic ester-L-lactide), and uncrimped fibers 20084 can comprise non-synthetic polymer, such as oxidized regenerated cellulose.Alternatively, crimped fibre 20086 and uncrimped fibers 20084 can comprise identical polymer composition.
As described herein, crimped fibre 20086 and uncrimped fibers 20084 can be tightened together by such as needle point method, heat bonding, water entanglement, ultrasonic bonds, chemical adhesion and meltblowing adhesive.Comprise the crimped fibre 20086 of synthetic fibers such as " VICRYL (polyglactic 910) ", and the uncrimped fibers 20084 comprising oxidized regenerated cellulose forms non-woven material 20080 by acupuncture together.It is such as curling " VICRYL (polyglactic 910) " fiber 20086 of about 5% to 50% (by weight) that non-woven material 20080 can comprise, and is non-crimping oxidized regenerated cellulose (ORC) fiber 20084 of about 5% to 50% (by weight).Such as non-woven material 20080 contact tissue T, non-crimping ORC fiber 20084 can react to form gel block with the blood plasma in tissue rapidly.The formation of gel ORC block can instantaneous or almost instantaneously with contact tissue.In addition, after gel ORC block is formed, curling " VICRYL (polyglactic 910) " fiber 20086 still can be distributed in whole non-woven material 20080.Such as, crimped fibre 20086 can be suspended in gel ORC block.Because gel ORC block can bio-absorbable, curling " VICRYL (polyglactic910) " fiber 20086 can apply resilience force, as described in more detail herein in adjacent tissue.In addition, tissue can start at " VICRYL (polyglactic 910) " fiber and/or become healing around staple 30030, also as described in more detail.
Main see Figure 78-Figure 81, the support section 20010 of nail bin 20000 can comprise warehouse 20017, top platform surface 20011 and multiple nail chamber 20012.Each nail chamber 20012 can limit the opening in platform surface 20011.Nail 20030 can be positioned in nail chamber 20012 removedly.According to the present invention, single nail 20030 is arranged in each nail chamber 20012.Main see Figure 82 and Figure 83, and be similar to nail as herein described, each nail 20030 can comprise the base portion 20031 with the first end 20035 and the second end 20036.Nail lower limb 20032 can extend from the first end 20035 of base portion 20031, and another nail lower limb 20032 can extend from the second end 20036 of base portion 20031.Refer again to Figure 78-Figure 81, before deployment nail 20030, the base portion 20031 of each nail 20030 can be supported by staple drivers 20040, and this staple drivers is positioned in the rigid support part 20010 of nail bin 20000.In addition, before deployment nail 20030, the lower limb 20032 of each nail 20030 can be at least partially contained within nail chamber 20012.
Nail 20030 can be deployed between initial position and firing position.Such as, mainly see Figure 81, nail 20030 can be in initial position (nail 20030e, 20030f), part percussion or centre position (nail 20030c, 20030d) or firing position (nail 20030a, 20030b).Driver 20040 can drive the nail be between initial position and firing position.Such as, the base portion 20031 of each nail 20030 can be supported by driver 20040.The lower limb 20032 of nail (nail 20030e, 20030f in such as Figure 80) can be positioned in nail chamber 20012.When firing member or nail percussion sliding part 20050 are from proximal extremity 20001 distal end 20002 translation of nail bin 20000, inclined surface 20051 on sliding part 20050 can contact the inclined surface 20042 in driver 20040, with dispose be positioned at the nail 20030 on contact driver 20040.Nail 20030 can be deployed between initial position and firing position, lower limb 20032 is made to move through the non-woven material 20080 of tissue thickness's compensating part 20020, the top surface 20021 of penetrate tissue thickness compensation part 20020, penetrate tissue T, and contact is positioned at the anvil block 20060 (Figure 61) on nail bin 20000 opposite in end effector 12.Nail lower limb 20032 can be directed to anvil block 20060 and be out of shape, and the lower limb 20032 of each nail 20030 can catch a part for non-woven material 20080 and a part for tissue T.
In percussion configuration (Figure 82 and Figure 83), each nail 20030 can apply compression stress to tissue T and the tissue thickness's compensating part 20020 be captured in nail 20030.Main see Figure 80 and Figure 81, the lower limb 20032 of each nail 20030 can be out of shape downwards towards the base portion 20031 of nail 20030, retains region 20039 to form nail.Nail retain region 20039 can be tissue T and tissue thickness's compensating part 20020 can by percussion nail 20030 the region of catching.In all cases, nail retain region 20039 can be limited to strained lower limb 20032 inner surface and nail 20030 base portion 20031 inner surface between.The size retaining region 20039 of nail 20030 can be depending on some questions, the degree of the width of the length of such as lower limb, the diameter of lower limb, base portion and/or lower limb distortion.
Optionally, when non-woven material 20080 be trapped in nail retain region 20039 time, the captured part of non-woven material 20080 can be compressed.Be trapped in the compression height following closely the non-woven material 20080 retained in region 20039 can retain the tissue T in region 20039 according to identical nail and change in nail bin 20000.Such as, when tissue T is thinner, nail retains region 20039 and can have the space giving non-woven material 20080 more, therefore, non-woven material 20080 by the degree compressed may thicker unlike tissue T time its by large being compressed.Such as when tissue T is thicker, non-woven material 20080 can be more by what compress, to adapt to thicker tissue T.Such as, see Figure 82, non-woven material 20080 such as can retain in the 20039a of region at the first nail and be compressed to the first height, retain in the 20039b of region at the second nail and be compressed to the second height, retain in the 20039c of region at the 3rd nail and be compressed to third high degree, the 4th nail retain in the 20039d of region be compressed to the 4th height, and the 5th nail retain in the 20039e of region be compressed to the 5th height.Similarly, as shown in Figure 83, non-woven material 20080 can retain in the 20039a of region at the first nail and be compressed to the first height, retain in the 20039b of region at the second nail and be compressed to the second height, retain in the 20039c of region be compressed to third high degree at the 3rd nail, and retain in the 20039d of region at the 4th nail and be compressed to the 4th height.Alternatively, the compression height of non-woven material 20080 can be consistent in whole nail bin 20010.
Optionally, non-woven material 20080 can be moved to compressed configuration from initial uncompressed configuration by applied force.In addition, non-woven material 20080 can have elasticity, makes non-woven material 20080 can be produced resilience force or restoring force by during compression.During distortion, this non-woven material 20080 can attempt resilience from the configuration compressed or be out of shape.When non-woven material 20080 attempts resilience, it can apply resilience force or restoring force being also trapped in the nail tissue retained in region 30039, as described in more detail.When the power applied is removed subsequently, restoring force can make non-woven material resilience from the configuration of compression.Non-woven material 20080 can recoil to initial uncompressed configuration maybe can recoil to the configuration being substantially similar to initial uncompressed configuration.The distortion of non-woven material 20080 can be elastic.The distortion of non-woven material can be partial elastic and part plasticity.
When the part of non-woven material 20080 be compressed in nail retain in region 20039 time, the crimped fibre 20086 in this part in non-woven compensating part 20039 can also compress or in other words be out of shape.The deflection of crimped fibre 20086 can be corresponding with the decrement of the captured part of non-woven material 20080.Such as, see Figure 63, the nail 20030 that non-woven material 20080 can be deployed is caught.Non-woven material 20080 is compressed more by the nail being disposed 20030, and the average deformation of crimped fibre 20086 just can be larger.In addition, non-woven material 20080 is compressed fewer by the nail being disposed, and the average deformation of crimped fibre 20086 just can be less.Similarly, see Figure 82 and Figure 83, non-woven material 20080 is compressed more nails and is retained in the 20039d of region wherein, and the nail crimped fibre 20086 retained in the 20039d of region can be out of shape more usually.In addition, retain in the 20039a of region at nail, non-woven material 20080 is compressed fewer, and the nail crimped fibre 20086 retained in the 20039a of region can be out of shape fewer usually.
Non-woven material 20080 is from the ability of the configuration resilience of distortion, that is, the resilience force of non-woven material 20080, can be depending on the resilience force of crimped fibre 20086 in non-woven material 20080.Crimped fibre 20086 can be out of shape with resiliencely.The distortion of crimped fibre 20086 can be partial elastic and part plasticity.Optionally, the compression of each crimped fibre 20086 can make the crimped fibre 20086 by compressing produce resilience force or restoring force.Such as, when fiber 20086 is attempted, from its compressed configuration when resilience, can be produced restoring force by the crimped fibre 20086 compressed.Fiber 20086 can attempt the configuration returning to its initial uncompressed configuration or be substantially similar to its configuration.Crimped fibre 20086 can be attempted part and return to its initial configuration.Optionally, in non-woven material 20080, an only part for crimped fibre 20086 can have elasticity.When crimped fibre 20086 comprises linear elastic material, be can be depending on such as crimped fibre 20086 by the device of spring stiffness coefficient of the quantity compressed and crimped fibre 20086 by the restoring force of the crimped fibre 20086 compressed.The device of spring stiffness coefficient of crimped fibre 20086 at least can depend on the orientation of such as crimped fibre 20086, material, shape and/or size.
Crimped fibre 20086 in non-woven material 20080 can comprise consistent device of spring stiffness coefficient.Alternatively, the device of spring stiffness coefficient of the crimped fibre 20086 in non-woven material 20080 can be change.When the crimped fibre 20086 with big spring stiffness factor is greatly compressed, crimped fibre 20086 can produce large restoring force.When the crimped fibre 20086 with device of spring stiffness coefficient large is equally compressed less, crimped fibre 20086 can produce less restoring force.The summation of the restoring force produced by the crimped fibre 20086 of the compression in non-woven material 20080 can produce the merging restoring force on the whole non-woven material 20080 of tissue thickness's compensating part 20020.Non-woven material 20080 can apply to merge restoring force in the tissue T in the percussion nail 20030 being trapped in the non-woven material 20080 with compression.
In addition, the quantity of the crimped fibre 20086 of per unit volume non-woven material 20080 can affect the device of spring stiffness coefficient of non-woven material 20080.Such as, when the negligible amounts of the crimped fibre 20086 of per unit volume non-woven material 20080, the resilience force in non-woven material 20080 can be lower; Such as, when the quantity of the crimped fibre 20086 of per unit volume non-woven material 20080 is more, the resilience force of non-woven material 20080 can be higher; Such as, when crimped fibre 20086 more of per unit volume non-woven material 20080, the resilience force of non-woven material 20080 can be higher.When the resilience force of non-woven material 20080 is lower, such as, when the quantity of the crimped fibre 20086 of per unit volume non-woven material 20080 is lower, the merging restoring force be applied in caught tissue T by tissue thickness's compensating part 20020 also can be less.When the resilience force of non-woven material 20080 is higher, such as, when the quantity of the crimped fibre 20086 of per unit volume non-woven material 20080 is higher, the restoring force summation be applied in caught tissue T by tissue thickness's compensating part 20020 also can be higher.
Main see Figure 64, the non-woven material 20080' of tissue thickness compensating part 20020' can comprise such as therapeutic agent 20088, such as medicine and/or pharmaceutically active agents.Non-woven material 20080 ' can discharge the therapeutic agent 20088 for the treatment of effective dose.Such as, when non-woven material 20080 ' is by absorption, therapeutic agent 20088 can be released.Therapeutic agent 20088 can be released to the fluid flowing through on non-woven material 20080 ' or pass non-woven material 20080 ', such as blood.The example of therapeutic agent 20088 can include but not limited to hemorrhage and medicine, such as fibrin, thrombin and/or oxidized regenerated cellulose (ORC); Anti-inflammatory drug, such as diclofenac, aspirin, naproxen, sulindac and/or hydrocortisone; Antibiotic and antimicrobial agents or preparation, such as triclosan, ionic silver, ampicillin, gentamycin, polymyxin B and/or chloromycetin; And/or anticarcinogen, such as cisplatin, mitomycin and/or amycin.Therapeutic agent 20088 can comprise biological preparation, such as stem cell.The fiber 20082 of non-woven material 20080 ' can comprise therapeutic agent 20088.Alternatively, therapeutic agent 20088 can be added into non-woven material 20080 ' or in other words be incorporated in tissue thickness's compensating part 20020 '.
Main see Figure 70-Figure 70 B, the tissue thickness's compensating part 20520 for end effector 12 (Figure 61) can comprise multiple spring or coiling fiber 20586.Similar with crimped fibre 20086 as herein described, coiling fiber 20586 can be in tissue thickness's compensating part 20520 (such as) curling, distortion, coiling, bending, distortion, spiral, around and/or arc.Coiling fiber 20586 can be wrapped in around mandrel and coil or the shape of coiled type substantially to be formed.Coiling fiber 20586 can on whole tissue thickness compensating part 20520 random orientation and/or random.Alternatively, coil fiber 20586 systematicness to arrange and/or heterogeneity distribution on whole tissue thickness compensating part 20520.Such as, see Figure 70, coiling fiber 20586 can comprise the longitudinal axis between the first end 20587 of coiling fiber 20586 and the second end 20589.The longitudinal axis of the coiling fiber 20520 in tissue thickness's compensating part 20520 can be parallel or substantially parallel.First end 20587 of each coiling fiber 20520 can be located along the longitudinal side of first of tissue thickness's compensating part 20,520 20523 and the second end 20589 of each coiling fiber 20586 can be located along the longitudinal side 20524 of second of tissue thickness's compensating part 20520.In this class formation, coiling fiber 20586 can laterally traverse tissue thickness's compensating part.Alternatively, coil fiber 20586 and longitudinally or diagonally can traverse tissue thickness's compensating part 20520.
Optionally, similar with crimped fibre 20086 as herein described, coiling fiber 20586 can comprise polymer composition.Crimped fibre 20586 can have elasticity at least in part, makes the distortion of crimped fibre 20586 produce restoring force.The polymer composition of coiling fiber 20586 can comprise such as polycaprolactone (PCL), makes coiling fiber 20586 in chlorophyll solvent for insoluble.See Figure 70 A, spring or coiling fiber 20520 can remain in compensative material 20580.Coiling fiber 20586 can be remained on loading position by compensative material 20580, makes coiling fiber 20586 pairs of compensative materials 20580 apply load on spring and apply load on spring in compensative material 20580.Coiling fiber 20586 can be remained on neutral position by compensative material 20580, coils fiber 20586 in this case and can not apply load on spring to compensative material 20580 or apply load on spring in compensative material 20580.Compensative material 20580 can be can bio-absorbable, and in some cases, can comprise foam, such as polyglycolic acid (PGA) foam.In addition, compensative material 20580 can be solvable in such as chlorophyll solvent.Tissue thickness's compensating part can comprise the coiling fiber 20586 such as containing polycaprolactone (PCL) and the compensative material 20580 containing polyglycolic acid (PGA) foam, make coiling fiber 20520 for insoluble in chlorophyll solvent, and compensative material 20580 is solvable in chlorophyll solvent.Compensative material 20580 can have elasticity at least in part, makes the compression of compensative material 20580 produce restoring force.In addition, see Figure 70 B, the compensative material 20580 of tissue thickness's compensating part 20520 can comprise therapeutic agent 20588, such as stem cell.When compensative material 20580 is absorbed, compensative material 20580 can discharge the therapeutic agent 20588 for the treatment of effective dose.
Similar with tissue thickness as herein described compensating part 20020, tissue thickness's compensating part 20520 can be compressible.Such as, when nail 20030 (Figure 78-Figure 81) is deployed to firing position from initial position, nail 20030 can the part of joining tissue thickness compensation part 20520.According to the present invention, nail 20030 can the part of capture tissue thickness compensation part 20520 and adjacent tissue T.Nail 20030 can apply compression stress to the captured part of tissue thickness's compensating part 20520 and tissue T, makes tissue thickness's compensating part 20520 be compressed to compression height by never compression height.The compression of tissue thickness's compensating part 20520 can cause the correspondence of coiling fiber 20586 to be wherein out of shape.As described in more detail, the distortion of each coiling fiber 20586 all can produce restoring force, and this restoring force can be depending on the resilience force of coiling fiber, such as, and the deflection of coiling fiber 20586 and/or the device of spring stiffness coefficient of coiling fiber 20586.The device of spring stiffness coefficient of coiling fiber 20586 at least can depend on orientation, material, shape and/or the size of such as coiling fiber 20586.The distortion of coiling fiber 20586 in tissue thickness's compensating part 20520 can produce restoring force on whole tissue thickness compensating part 20520.Tissue thickness's compensating part 20520 can apply the restoring force summation produced by the coiling fiber 20586 be out of shape and/or elastic compensating material 20586 to the captured tissue T in percussion nail 20030.
Main see Figure 71 and Figure 72, the tissue thickness's compensating part 20620 for end effector 12 can comprise multiple spring coil 20686.With crimped fibre as herein described 20086 with coil fiber 20586 similar, spring coil 20686 can be in tissue thickness's compensating part 20620 (such as) curling, distortion, coiling, bending, that be out of shape, spiral, around and/or arc.Optionally, with fiber as herein described and coil similar, spring coil 20686 can comprise polymer composition.In addition, spring coil 20686 can have elasticity at least in part, makes the distortion of spring coil 20686 produce restoring force.Spring coil 20686 can comprise the first end 20687, second end 20689 and longitudinal axis between the two.See Figure 71, first end 20686 of spring coil 20686 can be positioned at tissue thickness's compensating part proximal extremity 20626 place or near, and the second end 20689 of identical springs coil 20686 can be positioned at tissue thickness's compensating part 20620 distal end 20625 place or near, make such as spring coil 20686 longitudinally traverse tissue thickness's compensating part 20620.Alternatively, coil fiber 20686 and laterally or diagonally can traverse tissue thickness's compensating part 20620.
Tissue thickness's compensating part 20620 can comprise adventitia 20680, and this adventitia 20680 is at least in part around at least one spring coil 20686.See Figure 71, adventitia 20680 can extend around the periphery of the multiple spring coils 20686 in tissue thickness's compensating part 20620.Alternatively, adventitia 20680 can encapsulate completely and organize spring coil 20686 in thickness compensation part 20620 or at least one spring coil 20686.Spring coil 20686 can remain in end effector 12 by adventitia 20680.Spring coil 20686 can be remained on loading position by adventitia 20680, makes spring coil 20686 produce load on spring and external membrane 20680 applies resilience force.Alternatively, spring coil 20686 can be remained on neutral position by adventitia 20680.Tissue thickness's compensating part 20620 also can comprise packing material 20624.Packing material 20624 can remain in spring coil 20686 and/or surrounding by adventitia 20680.Packing material 20624 can comprise therapeutic agent 20688, is similar to therapeutic agent as herein described.In addition, packing material 20624 can spring coil 20686 in supporting tissue thickness compensation part 20620.Packing material 20624 can be compressible and have elasticity at least in part, the resilience force making packing material 20624 contribute to being produced by tissue thickness's compensating part 20620 or restoring force, as described in more detail.
Similar with tissue thickness as herein described compensating part, tissue thickness's compensating part 20620 can be compressible.When nail 20030 (Figure 78-Figure 81) is deployed to firing position from initial position, nail 20030 can the part of joining tissue thickness compensation part 20620.Optionally, each nail 20030 can the part of capture tissue thickness compensation part 20620 together with adjacent tissue T.Nail 20030 can apply compression stress to the captured part of tissue thickness's compensating part 20620 and captured tissue T, and tissue thickness's compensating part 20620 is compressed between uncompressed height and compression height.The compression of tissue thickness's compensating part 20620 can cause correspondence distortion (Figure 72) of the spring coil 20686 remained on wherein.As described in more detail, the distortion of each spring coil 20686 all can produce restoring force, and this restoring force depends on the resilience force of spring coil 20686, such as, and the deflection of spring coil 20686 and/or the device of spring stiffness coefficient of spring coil 20686.The device of spring stiffness coefficient of spring coil 20686 at least can depend on the material of such as spring coil 20686, shape and/or size.In addition, according to the resilience force of packing material 20624 and adventitia 20680, the compression of packing material 20624 and/or adventitia 20680 also can produce restoring force.The summation of the restoring force at least produced by the distortion spring coil 20686 in tissue thickness's compensating part 20620, packing material 20624 and/or adventitia 20680 can produce restoring force on whole tissue thickness compensating part 20620.Tissue thickness's compensating part 20620 can apply the restoring force summation produced by distortion spring coil 20686 to the captured tissue T in percussion nail 20030.
Optionally, mainly see Figure 73-Figure 75, the tissue thickness's compensating part 20720 for end effector 12 can comprise multiple spring coil 20786.With coiling fiber as herein described and spring-like seemingly, spring coil 20786 can be in tissue thickness's compensating part 20720 (such as) curling, distortion, coiling, bending, distortion, spiral, around and/or arc.Spring coil 20786 can have elasticity at least in part, makes the distortion of spring coil 20786 produce restoring force.In addition, spring coil 20786 can comprise the first end 20787, second end 20789 and longitudinal axis between the two.Main see Figure 75, first end 20787 of spring coil 20786 can be positioned at tissue thickness's compensating part 20720 proximal extremity 20726 place or near, and the second end 20789 of spring coil 20786 can be positioned at tissue thickness's compensating part 20720 distal end 20725 place or near, make spring coil 20786 longitudinally traverse tissue thickness's compensating part 20720.Spring coil 20786 can along two parallel row longitudinal extensions in tissue thickness's compensating part 20720.Tissue thickness's compensating part 20720 can be positioned in end effector 12, makes sliding part 20050 (Figure 61) or cutting element 20052 can along slit 20015 translation between the spring coil 20786 of parallel row.Alternatively, spring coil 20786 laterally or diagonally can traverse tissue thickness's compensating part 20720.
Refer again to Figure 75, spring coil 20786 can remain on or embed in compensative material 20780.Compensative material 20780 can be can bio-absorbable, and can comprise foam in some cases, such as polyglycolic acid (PGA) foam.Compensative material 20780 can have elasticity, makes the distortion of compensative material 20780 produce resilience force.Compensative material 20780 can be solvable in such as chlorophyll solvent.Such as, tissue thickness's compensating part such as can comprise the spring coil 20786 containing polycaprolactone (PCL) and the compensative material 20780 containing polyglycolic acid (PGA) foam, make spring coil 20786 in chlorophyll solvent for insoluble, and compensative material 20780 is solvable in chlorophyll solvent.Compensative material 20780 can have elasticity at least in part, makes the distortion of compensative material 20780 produce load on spring or restoring force.
Tissue thickness's compensating part 20720 can comprise plait 20790, and it can extend between the spring coil 20786 of parallel row.Such as, see Figure 75, the first plait 20790 can traverse the spring coil 20786 of two parallel row diagonally, and the second plait 20790 also can traverse the spring coil 20786 of two parallel row diagonally.First and second plaits 20790 can intersect.Plait 20790 repeatedly can intersect along the length of tissue thickness's compensating part 20720.Spring coil 20786 can remain on and load in configuration by plait 20790, makes spring coil 20786 be maintained at substantially flat position in tissue thickness's compensating part 20720.The plait 20790 traversing tissue thickness's compensating part 20720 can directly be attached to spring coil 20786.Alternatively, plait 20790 can be connected to spring coil 20786 via support member 20792, and this support member 20792 extends through each spring coil 20786 along the longitudinal axis of spring coil 20786.
As described in more detail, nail bin 20000 can comprise slit 20015, and it can receive the translation gliding part 20050 (Figure 61) comprising cutting element 20052.When sliding part 20050 is along slit 20015 translation, nail 20030 can penetrate by sliding part 20050 from the securing member chamber 20012 nail bin 20000, and cutting element 20052 simultaneously or almost simultaneously can cut off tissue T.Refer again to Figure 75, when cutting element 20052 translation, it also can be breaking at the plait 20790 intersected between the parallel row spring coil 20786 in tissue thickness's compensating part 20720.When plait 20790 is cut off, each spring coil 20786 can load configuration from it and be released, and makes substantially flat location restore that each spring coil 20786 loads from tissue thickness's compensating part 20720 to expanding location.Optionally, when spring coil 20786 is expanded, the compensative material 20780 around spring coil 20786 also can be expanded.
Optionally, when nail 20030 (Figure 78-Figure 81) is deployed to firing position from initial position, nail 20030 can the part of joining tissue thickness compensation part 20720, and expansion can be expanded or attempt to tissue thickness's compensating part 20720 in nail 20030, and can apply compression stress to tissue T.Optionally, at least one nail 20030 can the part of capture tissue thickness compensation part 20720 together with adjacent tissue T.Nail 20030 can apply compression stress to the captured part of tissue thickness's compensating part 20720 and captured tissue T, and tissue thickness's compensating part 20720 is compressed between uncompressed height and compression height.The compression of tissue thickness's compensating part 20720 can cause spring coil 20786 and remain on the correspondence distortion of compensative material 20780 wherein.As described in more detail, the distortion of each spring coil 20786 all can produce restoring force, and this restoring force can be depending on the resilience force of spring coil, such as, and the deflection of spring coil 20786 and/or the device of spring stiffness coefficient of spring coil 20786.The device of spring stiffness coefficient of spring coil 20786 at least can depend on the orientation of such as spring coil 20786, material, shape and/or size.The summation of the restoring force produced by least distortion spring coil 20786 in tissue thickness's compensating part 20720 and/or compensative material 30380 can produce restoring force on whole tissue thickness compensating part 20720.Tissue thickness's compensating part 20720 can apply to captured tissue T and percussion nail 20030 the restoring force summation that produced by the distortion spring coil 20786 in tissue thickness's compensating part 20720.
Optionally, mainly see Figure 76 and Figure 77, the tissue thickness's compensating part 20820 for surgical end-effector 12 can comprise spring coil 20886.With fiber as herein described and coil similar, spring coil 20886 can be in tissue thickness's compensating part 20820 (such as) curling, distortion, coiling, bending, distortion, spiral, around and/or arc.Spring coil 20886 can comprise polymer composition and can have elasticity at least in part, makes the distortion of spring coil 20886 produce resilience force.In addition, spring coil 20886 can comprise the first end 20887 and the second end 20889.See Figure 76, the first end 20887 can be positioned at tissue thickness's compensating part 20820 proximal extremity 20826 place or near, and the second end 20889 can be positioned at tissue thickness's compensating part 20820 distal end 20825 place or near.Spring coil 20886 can be wound around or be folded into distal end 20826 from the proximal extremity 20825 of tissue thickness's compensating part 20820.
Refer again to Figure 76, spring coil 20886 can remain on or embed in compensative material 20880.Compensative material 20880 can be can bio-absorbable, and in some cases, can comprise foam, such as polyglycolic acid (PGA) foam.Compensative material 20880 can be solvable in such as chlorophyll solvent.Tissue thickness's compensating part such as can comprise the spring coil 20886 containing polycaprolactone (PCL) and the compensative material 20880 containing polyglycolic acid (PGA) foam, make spring coil 20886 in chlorophyll solvent for insoluble, and compensative material 20880 is solvable in chlorophyll solvent.Compensative material 20880 can have elasticity at least in part, makes the distortion of compensative material 20880 produce load on spring or restoring force.
Similar with tissue thickness as herein described compensating part, such as, tissue thickness's compensating part 20820 can be compressible.The compression of tissue thickness's compensating part 20820 can cause the distortion at least partially of the spring coil 20886 in the compensative material 20880 keeping or embed in tissue thickness's compensating part 20820.As described in more detail, the distortion of spring coil 20886 can produce restoring force, and this restoring force can be depending on the device of spring stiffness coefficient of the resilience force of such as spring coil 20886, the deflection of spring coil 20886 and/or spring coil 20886.The summation of the restoring force produced by distortion spring coil 20886 and/or deformation-compensated material 20880 can produce restoring force on whole tissue thickness compensating part 20820.Tissue thickness's compensating part 20820 can apply restoring force summation to the captured tissue T in percussion nail 20030.
Referring now to Figure 84, surgical end-effector 12 can comprise tissue thickness's compensating part 30020 with at least one tube element 30080.Tissue thickness's compensating part 30020 can remain in surgical end-effector 12.As described in more detail, the securing member in end effector 12 can be disposed, make securing member move to firing position and make the distortion at least partially of the tube element 30080 in tissue thickness's compensating part 30020.Reader will know, the tissue thickness's compensating part comprising at least one tube element as described herein can be arranged in multiple surgical end-effector or in other words and engage with multiple surgical end-effector, and these within the scope of the invention.
Optionally, still see Figure 84, tissue thickness's compensating part 30020 can be located relative to the anvil block 30060 of end effector 12.Alternatively, tissue thickness's compensating part 30020 can be located relative to the fastener cartridge assembly of end effector 12 (such as nail bin 30000).Nail bin 30000 can be engaged in the storehouse passage 30072 of the jaw 30070 of end effector 12.Such as, tissue thickness's compensating part 30020 can be fixed to nail bin 30000 releasedly.The tube element 30080 of tissue thickness's compensating part 30020 can be close to the top platform surface 30011 of the rigid support part 30010 of nail bin 30000 and locate.Tube element 30080 can be fixed to top platform surface 30011 by binding agent or by wrappage (similar with at least one in wrappage as herein described) (such as, Figure 16).Tissue thickness's compensating part 30020 can be in aggregates with the assembly comprising nail bin 30000, makes nail bin 30000 and tissue thickness's compensating part 30020 be formed as individual unit structure.Such as, nail bin 30000 can comprise such as the first main part, such as rigid support part 30010, and the second main part, such as tissue thickness's compensating part 30020.
See Figure 84-Figure 86, the tube element 30080 in tissue thickness's compensating part 30020 can comprise elongated portion 30082, and this elongated portion 30082 has at least one tube chamber 30084 extended through at least in part wherein.Main see Figure 86, the elongated portion 30082 of tube element 30080 can comprise weaves or weaves strand 30090, as described in more detail.Alternatively, elongated portion 30082 can comprise solid construction, such as polymer extrudate, instead of weaves strand 30090.The elongated portion 30082 of tube element 30080 can comprise thickness.The thickness of elongated portion 30082 can in its whole length and be substantially consistent around its diameter; In other cases, this thickness can change.Elongated portion 30082 can be elongation, makes the length of such as elongated portion 30082 be greater than the diameter of elongated portion 30082.Elongated portion can comprise the length of such as about 1.20 inches to about 2.60 inches and the diameter of about 0.10 inch to about 0.15 inch.The length of tube element 20080 can be such as about 1.40 inches, and the diameter of tube element 20080 can be such as about 0.125 inch.In addition, elongated portion 30082 can limit such as shape of cross section that is circular or ellipse substantially.Alternatively, shape of cross section can comprise polygonal shape, such as triangle, hexagon and/or octagon.Refer again to Figure 84, tube element 30080 can comprise the first distal end 30083 and the second proximal extremity 30085.The shape of cross section of elongated portion 30082 can narrow at the first end 30083 and/or the second end 30085 place, and wherein at least one end 30083,30085 of tube element 30080 can close and/or seal.Alternatively, tube chamber 30084 can continue across the distal end 30083,30085 of tube element 30080, makes end 30083,30085 be open.
Tube element 30080 can comprise the single central lumen 30084 extending through elongated portion 30084 at least in part.Tube chamber 30084 can extend across the whole length of elongated portion 30084.As other alternative form, tube element 30080 can comprise the multiple tube chambers 30084 extended through wherein.The tube chamber 30084 extending through tube element 30080 can be circle, semicircle, wedge shape and/or their combination.According to the present invention, tube element 30080 also can comprise support fleece, and it can formation is such as revised in tube chamber 30084 " T " or " X " shape.Size in tube element 30080, tube chamber and/or support fleece can limit the shape of cross section of tube element 30080.The shape of cross section of tube element 30080 can be consistent in its whole length, or alternatively, the shape of cross section of tube element 30080 can change along its length.As described in more detail, the shape of cross section of tube element 30080 can affect compressibility and the resilience force of tube element 30080.
Tube element 30080 can comprise perpendicular diameter and horizontal diameter; The expection geometry that its size can retain region 30039 according to the size of the structure of the tube element 30080 in end effector 12, end effector 12 (comprising the interstice of end effector 12) and nail is selected.Such as, the perpendicular diameter of tube element 30080 can be highly relevant with the expection of one-tenth staple.In this case, can select the perpendicular diameter of tube element 30080, make when tube element 30080 is trapped in in staple 30030, perpendicular diameter can reduce about 5% to about 20%.Such as, perpendicular diameter is that the tube element 30080 of about 0.100 inch can be used for expecting that forming height is the nail of about 0.080 inch to about 0.095 inch.Therefore, when tube element 30080 is trapped in in staple 30030, even if do not catch any tissue T wherein, the perpendicular diameter of tube element 30080 also can reduce about 5% to about 20%.When tissue T is trapped in in staple 30030, the compression of tube element 30080 even can be larger.Perpendicular diameter can be uniformly in the whole length of tube element 30080, or alternatively, perpendicular diameter can vary along its length.
When tube element 30080 be in be not out of shape or resilience configuration time, the horizontal diameter of tube element 30080 can be greater than, be equal to or less than the perpendicular diameter of tube element 30080.Such as, see Figure 85, large such as about three times of the comparable perpendicular diameter of horizontal diameter.Such as, horizontal diameter can be about 0.400 inch, and perpendicular diameter can be about 0.125 inch.Alternatively, referring now to Figure 87, when tube element 31080 be in be not out of shape or resilience configuration time, the horizontal diameter of tube element 31080 can equal or be substantially equal to the perpendicular diameter of tube element 31080.Such as, horizontal diameter can be about 0.125 inch and perpendicular diameter also can be about 0.125 inch.Tube element 30080 can comprise the length of the perpendicular diameter of about 0.125 inch, the horizontal diameter of about 0.400 inch and about 1.400 inches.As described in more detail, when power A being put on tube element 30080 and/or 31080, tube element deformable, makes cross-sectional geometry (comprising horizontal and vertical diameter) alterable.
Refer again to Figure 84-Figure 86, the tube element 30080 in tissue thickness's compensating part 30020 can be deformable.Whole tube element 30080 can be deformable.Such as, tube element 30080 can be deformable around its whole girth from proximal extremity 30083 to the distal end 30085 of elongated portion 30082.Alternatively, an only part for tube element 30080 can be deformable.Such as, an only part for the only intermediate length of elongated portion 30082 and/or the girth of tube element 30080 can be deformable.
When compression stress being put on the contact point on the elongated portion 30082 of tube element 30080, contact point can offset, and this can change the cross sectional dimensions of tube element 30080.Such as, refer again to Figure 85, tube element 30080 can comprise summit, top 30086 on elongated portion 30082 and bottom apex 30088.In first beginning and end deformed configuration, tube element 30080 can comprise non-deformed cross sections size, comprises not being out of shape perpendicular diameter between summit, top 30086 and bottom apex 30088.When compression stress A being put on summit 30086, top, tube element 30080 is moveable to deformed configuration.In deformed configuration, the cross sectional dimensions of pipe 30080 can change.Such as, pipe 30086 can comprise the distortion perpendicular diameter between summit, top 30086 and bottom apex 30088, and this distortion perpendicular diameter can be less than is not out of shape perpendicular diameter.Such as, see Figure 87, when never deformed configuration moves to deformed configuration to tube element 30080, the horizontal diameter of converting pipe 30080 can be lengthened out.The deformed cross sections size of converting pipe 30080 at least can depend on the position of exerted forces A, angular orientation and/or size.As described in more detail, the distortion of tube element 30080 can produce resilience force or restoring force, and it can be depending on the resilience force of tube element 30080.
Still see Figure 85, tube element 30080 can be produced resilience force or restoring force when compressing.In this case, as described herein, when power A being put on the contact point on the elongated portion 30082 of tube element 30080, tube element 30080 can move to deformed configuration from first beginning and end deformed configuration.When removing applied force A, converting pipe 30080 can from deformed configuration resilience.Converting pipe 30080 can recoil to just beginning and end deformed configuration maybe can recoil to the configuration substantially similar with first beginning and end deformed configuration.Tube element 30080 is relevant to the resilience force of tube element 30080 from the ability of deformed configuration resilience.
Refer again to Figure 85, tube element 30080 can apply resilience force or restoring force.When such as applying applied force A by nail 30030 (Figure 88 and Figure 89) to tube element 30080, restoring force can be produced by tube element 30080, as described in more detail.Applied force A can change the cross sectional dimensions of tube element 30080.In addition, in linear elastic material, the restoring force of each crushed element of tube element 30080 can be depending on the device of spring stiffness coefficient of the distortion size of tube element 30080 and this part of tube element 30080.The device of spring stiffness coefficient of tube element 30080 at least can depend on the orientation of such as tube element 30080, material, cross-sectional geometry and/or size.Tube element 30080 in tissue thickness's compensating part 30020 can comprise consistent device of spring stiffness coefficient.Alternatively, device of spring stiffness coefficient can change along the length of tube element 30080 and/or around the diameter of tube element 30080.When a part for the tube element 30080 with the first device of spring stiffness coefficient is greatly compressed, tube element 30080 can produce larger restoring force.When a part for the tube element 30080 with identical first device of spring stiffness coefficient is compressed less, tube element 30080 can produce less restoring force.
Refer again to Figure 84, the tube element 30080 in tissue thickness's compensating part 30020 can comprise polymer composition.The elongated portion 30082 of tube element 30080 can comprise this polymer composition.In addition, this polymer composition can comprise at least part of elastomeric material, makes the distortion of tube element 30080 produce restoring force.This polymer composition can comprise the polymer of such as nonabsorable, absorbable polymer or their combination.The example of synthetic polymer includes but not limited to polyglycolic acid (PGA), poly-(lactic acid) (PLA), polycaprolactone (PCL), poly-dioxanone (PDO) and their copolymer.Such as, can comprise can the biocompatible elastomers polymer of bio-absorbable for absorbable polymer.In addition, the polymer composition of tube element 30080 can comprise synthetic polymer, non-synthetic polymer or their combination.Optionally, be similar to described elsewhere polymer composition herein, the polymer composition of tube element 30080 can the absorbable polymer of the amount of comprising difference (such as by weight percentage), the polymer of nonabsorable, synthetic polymer and/or non-synthetic polymer.
See Figure 84 and Figure 85, tube element 30080 can comprise such as therapeutic agent 30098, such as pharmaceutically active agents or medicine.Therapeutic agent 30098 can remain in the tube chamber 30084 of tube element 30080.Elongated portion 30082 can encapsulate or partial encapsulation therapeutic agent 30098.Or alternatively, the polymer composition of elongated portion 30082 can comprise therapeutic agent 30098 in addition.Tube element 30080 can discharge the therapeutic agent 30098 for the treatment of effective dose.Can at tube element 30080 by release therapeutic agent 30098 during absorption.Such as, therapeutic agent 30098 can be discharged on flowing pipe linear element 30080 or pass the fluid of tube element 30080, such as blood.As other alternative form, such as when nail 30030 (Figure 88 and Figure 89) pierces through tube element 30080 and/or when following closely the cutting element 30052 (Figure 84) on percussion sliding part 30050 and cutting tube element 30080 a part of, can discharge therapeutic agent 30098.The example of therapeutic agent 30098 can include but not limited to hemorrhage and medicine, such as, and fibrin, thrombin and/or oxidized regenerated cellulose (ORC); Antiinflammatory medicine, such as diclofenac, aspirin, naproxen, sulindac and/or hydrocortisone; Antibiotic and antimicrobial agents or antimicrobial, such as triclosan, ionic silver, ampicillin, gentamycin, polymyxin B and/or chloromycetin; Anticarcinogen, such as cisplatin, mitomycin and/or amycin; And/or biological preparation, such as stem cell.
Refer again to Figure 84, Figure 88 and Figure 89, securing member (such as following closely 30030) such as can be deployed from nail bin 30000, makes nail 30030 joining tissue thickness compensation part 30020 and applies power A to tube element 32080 wherein.As described herein, power A is applied to tube element 30080 tube element 30080 can be caused to be out of shape.Similar with end effector 12 as herein described, the rigid support part 30010 of nail bin 30000 can comprise warehouse 30017, platform surface 30011 and multiple nail chambeies 30012 wherein.Each nail chamber 30012 can limit the opening in platform surface 30011 and follow closely 30030 and can be positioned at removedly in nail chamber 30012 (Figure 104).Main see Figure 88 and Figure 89, two nail lower limbs 30032 that each nail 30030 can comprise base portion 30031 and extend from base portion 30031.Before deployment nail 30030, the base portion 30031 of each nail 30030 can be supported by the staple drivers 30040 (Figure 104) be positioned in the rigid support part 30010 of nail bin 30000.In addition before deployment nail 30030, the lower limb 30032 of each nail 30030 can be at least partially contained within nail chamber 30012 (Figure 104).
Optionally, as described in more detail, follow closely 30030 can be deployed between initial position and firing position.Such as, nail percussion sliding part 30050 can engagement with driver 30040 (Figure 104) move between initial position and firing position to make at least one nail 30030.Main see Figure 88, nail 30030 can move to firing position, wherein follows closely the tube element 32080 of the lower limb 30032 joining tissue thickness compensation part 32020 of 30030, penetrate tissue T and contact and the anvil block 30060 (Figure 104) of locating relative with the nail bin 30000 in surgical end-effector 12.Nail shaping pit 30062 in anvil block 30060 can make nail lower limb 30032 bend, and makes the part being retained the tissue T in region 30039 by the part and nail pulling the trigger nail 30030 capture duct linear element 32080.As described in more detail, when nail 30030 moves between initial position and firing position, at least one nail lower limb 30032 can the tube element 32080 of piercing tissue thickness compensation part 32020.Alternatively, nail lower limb 30032 can, around the peripolesis of tube element 32080, make nail lower limb 30032 avoid piercing through tube element 32080.Similar with securing member as herein described, the lower limb 30032 of each nail 30030 can retain region 30039 towards the distortion downwards of the base portion 30031 of nail 30030 to form nail between the two.Nail retain region 30039 can be the part of wherein tissue T and tissue thickness's compensating part 32020 can by the region that catch of percussion nail 30030.In firing position, tissue thickness's compensating part 32020 that each nail 30030 can retain in region 30039 to tissue T and the nail being trapped in nail 30030 applies compression stress.
Still see Figure 88, when tube element 32080 be trapped in nail retain in region 30039 time, the captured part of tube element 32080 can be out of shape, as described herein.In addition, tube element 32080 can be deformed into according to being such as trapped in this identical nail and retaining the thickness of the tissue T in region 30039, compressibility and/or density and differently follow closely the different distortion configuration retained in region 30039.Tube element 32080 in tissue thickness's compensating part 32080 can extend longitudinally through continuous print nail and retain region 30039.In this class formation, tube element 32080 can be pulled the trigger nail 30030 along a line and is deformed into each nail and retain different distortion configuration in region 30039.Referring now to Figure 89, the tube element 33080 in tissue thickness's compensating part 33020 can be pulled the trigger nail 30030 along a line and is laterally arranged in nail and retain in region 30039.Tube element 33080 can be kept by soft shell 33210.In this class formation, tube element 33080 and soft shell 33210 can be deformed to each nail and retain different distortion configuration in region 30039.Such as, when tissue T is thinner, tube element 33080 is lessly compressible, and when tissue T is thicker, tube element 33080 is compressible must comparatively mainly with the thicker tissue T of adaptation.Alternatively, the distortion size of tube element 33080 can be consistent in the whole length and/or width range of tissue thickness's compensating part 33020.
See Figure 90-Figure 92, the tube element 34080 in tissue thickness's compensating part 34020 can comprise many strands 34090.Main see Figure 90, strand 34090 can be woven or be woven in the tubulose lattice 34092 of formation tube element 34080.The tubulose lattice 34092 formed by strand 34090 can be hollow substantially.The strand 34090 of tube element 34080 can be solid strand, tubulose strand and/or other suitable shapes another kind of.Such as, see Figure 91, the single strand 34090 of tubulose lattice 34092 can be pipe.See Figure 93, strand 34090 can comprise at least one tube chamber 34094 extended through wherein.The quantity of tube chamber 34094, geometry and/or size can determine the shape of cross section of strand 34090.Such as, strand 34090 can comprise circular tube chamber, semicircle tube chamber, wedge shape tube chamber and/or their combination.According to the present invention, strand 34090 also can comprise support fleece 34096, and it can form " T " or " X " shape such as revised.At least strand 34090 diameter, extend through tube chamber wherein and support the shape of cross section that fleece can characterize strand 34090.As described in more detail, the shape of cross section of each strand 34090 can affect the resilience force or restoring force that are produced by strand 34090 and the corresponding resilience force produced by tube element 34080 or restoring force.
See Figure 94, the tubulose lattice 34092 of strand 34090 can be deformable.Tubulose lattice 34092 can produce or contribute to deformability and/or the resilience force of tube element 34080.Such as, the strand 34090 of tubulose lattice 34092 can be woven in together, strand 34090 relative to each other can be slided and/or bend.When applying power to the elongated portion 34082 of tube element 34080, strand 34090 wherein slidably and/or bending, makes tubulose lattice 34092 move to deformed configuration.Such as, still see Figure 94, follow closely 30030 compressible tubulose lattice 34092 and be trapped in the tissue T of following closely and retaining in region 34039, this can cause the strand 34090 of tubulose lattice 34092 relative to each other to slide and/or bend.When tubulose lattice 34092 are compressed into deformed configuration, can move towards the bottom apex 34088 of tubulose lattice 34092 in the summit, top 34086 of tubulose lattice 34092, to adapt to follow closely the captured tissue T retained in region 30039.In all cases, the tubulose lattice 34092 be trapped in percussion nail 30030 regain its non-deformed configuration by attempting and can apply restoring force to captured tissue T.In addition, be positioned at the part that nail to retain between region 30039 the tubulose lattice 34092 of (that is, not being captured in percussion nail 30030) to be also out of shape because nail retains the distortion of the adjacent part of the tubulose lattice 34092 in region 30039.When tubulose lattice 34092 are out of shape, tubulose lattice 34092 can be attempted from deformed configuration resilience or partly resilience.Optionally, the part of tubulose lattice 34092 can recoil to its initial configuration and other parts of tubulose lattice 34092 only can partly resilience and/or keep compress completely.
Similar with the description of tube element herein, each strand 34090 also can be deformable.In addition, the distortion of strand 34090 can produce restoring force, and this restoring force depends on the resilience force of each strand 34090.Main see Figure 91 and Figure 92, every root strand 34090 of tubulose lattice 34092 all can be tubulose.Alternatively, each strand 34090 of tubulose lattice 34092 can be solid.As other alternative form, tubulose lattice 30092 can comprise at least one tubulose strand 34090, at least one solid strand 34090, the strand 34090 of at least one " X " or "T"-shaped shape and/or their combination.
Strand 34090 in tube element 34080 can comprise polymer composition.The polymer composition of strand 34090 can comprise the polymer of nonabsorable, absorbable polymer or their combination.The example of synthetic polymer includes but not limited to polyglycolic acid (PGA), poly-(lactic acid) (PLA), polycaprolactone (PCL), poly-dioxanone (PDO) and their copolymer.Such as, can comprise can the biocompatible elastomers polymer of bio-absorbable for absorbable polymer.In addition, the polymer composition of strand 34090 can comprise synthetic polymer, non-synthetic polymer and/or their combination.Optionally, be similar to described elsewhere polymer composition herein, the polymer composition of strand 34090 can the absorbable polymer of the amount of comprising difference (such as by weight percentage), the polymer of nonabsorable, synthetic polymer and/or non-synthetic polymer.
Strand 34090 in tube element 34080 also can comprise such as therapeutic agent 34098 (Figure 91), such as pharmaceutically active agents or medicine.Strand 34090 can discharge the therapeutic agent 34098 for the treatment of effective dose.Can at tubulose strand 34090 by release therapeutic agent 34098 during absorption.Such as, therapeutic agent 30098 can be discharged into the fluid flowing through on strand 34090 or pass strand 34090, such as blood.As other alternative form, such as, when nail 30030 pierces through strand 34090 and/or when following closely the cutting element 30052 (Figure 84) on percussion sliding part 30050 and cutting tubulose lattice 34092 a part of, can discharge therapeutic agent 34098.The example of therapeutic agent 34098 can include but not limited to hemorrhage and medicine, such as fibrin, thrombin and/or oxidized regenerated cellulose (ORC); Anti-inflammatory drug, such as diclofenac, aspirin, naproxen, sulindac and/or hydrocortisone; Antibiotic and antimicrobial agents or preparation, such as triclosan, ionic silver, ampicillin, gentamycin, polymyxin B and/or chloromycetin; Anticarcinogen, such as cisplatin, mitomycin and/or amycin; And/or biological preparation, such as stem cell.
See Figure 95 and Figure 96, tube element 35080 can comprise multiple layers 35100 of strand 35090.Tube element 35080 can comprise multiple layers 35100 of tubulose lattice 35092.See Figure 95, tube element 35080 can comprise ground floor 35100a and the second layer 35100b of such as strand 35090.Referring now to Figure 96, the tube element 35180 of tissue thickness's compensating part 35120 can comprise the third layer 35100c of such as strand 35090.In addition, the different layers 35100 in tube element 35180 can comprise different materials.Each layer of 35100a, 35100b, 35100c can be can bio-absorbable, and wherein each layer of 35100a, 35100b, 35100c can comprise different polymer compositions.Such as, ground floor 35100a can comprise the first polymer composition; Second layer 35100b can comprise the second polymer composition; And third layer 35100c can comprise terpolymer compositions.In this case, layer 35100a, 35100b, 35100c of tube element 35180 can by different rates by bio-absorbable.Such as, ground floor 35100a can absorb fast, the comparable ground floor 35100a of second layer 35100b more slow trapping, and the comparable ground floor 35100a of third layer 35100c and/or second layer 35100b more slow trapping.Alternatively, ground floor 35100a can slowly absorb, and the comparable ground floor 35100a of second layer 35100b absorbs sooner, and third layer 35100c comparable ground floor 35100a and/or second layer 35100b absorbs sooner.
Similar with strand 34090 as herein described, the strand 35090 in tube element 35180 can comprise medicine 35098.Refer again to Figure 95, in order to control eluting or the release of medicine 35098, comprise the strand 35090 of medicine 35098a ground floor 35100a can first rate by bio-absorbable, and comprise the strand 35090 of medicine 30098b second layer 35100b can the second speed by bio-absorbable.Such as, ground floor 35100a can absorb to allow the quick initial release of medicine 35098a fast, and second layer 35100b can comparatively slow trapping to allow medicine 30098b controlled release.Medicine 35098a in the strand 35090 of ground floor 30100a can be different from the medicine 35098b in the strand 35090 of second layer 35100b.Such as, the strand 35090 in ground floor 35100a can comprise oxidized regenerated cellulose (ORC) and strand 35090 in second layer 35100b can comprise solution, and this solution comprises hyaluronic acid.In this case, the initial absorption of ground floor 35100a can discharge oxidized regenerated cellulose to help Bleeding control, and the subsequent absorption of second layer 35100b can discharge comprise hyaluronic solution with help suppress tissue apposition.Alternatively, layer 35100a, 35100b can comprise same medicine 35098a, 35098b.Such as, refer again to Figure 96, the strand 35090 in layer 35100a, 35100b and 35100c can comprise anticarcinogen, such as cisplatin.In addition, ground floor 35100a can absorb to allow the quick initial release of cisplatin fast, second layer 35100b can comparatively slow trapping to allow cisplatin controlled release, and third layer 35100c can most slow trapping to allow the controlled release more extended of cisplatin.
See Figure 97 and Figure 98, tissue thickness's compensating part 36020 can comprise overmolding material 36024.Overmolding material 36024 can be formed at outside tube element 36080, inside tube element 36080 or both tube element 36080 inner side and outer side.See Figure 97, overmolding material 36024 can in the coextrusion of both tube element 36080 inner side and outer side, and tube element 36080 can comprise the tubulose lattice 36092 of strand 36090.Similar with polymer composition as herein described, overmolding material 36024 can comprise such as polyglycolic acid (PGA), poly-(lactic acid) (PLA) and/or any other suitable can the biocompatible elastomers polymer of bio-absorbable.In addition, overmolding material 36024 can be atresia, makes overmolding material 36024 to form the layer of the fluid impermeable in tube element 36080.Overmolding material 36024 can be defined through tube chamber 36084 wherein.
As discussed further above, the strand 36090 in tube element 36080 and/tubulose lattice 36092 can comprise therapeutic agent 36098.Still see Figure 97 and Figure 98, atresia overmolding material 36024 can comprise medicine 36098 in interior lumen 36084a.Alternatively or in addition, atresia overmolding material 36024 can comprise medicine 36098 in intermediary canal 36084b, the intermediary canal 36084b of the tubulose lattice 36092 of the strand 36090 containing medicine is such as comprised.Similar to the above, tube element 36080 can be located (Figure 84) relative to the nail chamber 30012 in nail bin 30000 and cutting element 30052.The nail deployment of 30030 and/or the translation of cutting element 30052 can be pierced through atresia overmolding material 36024 or make it break, and make it possible to discharge from tube chamber 30084 medicine 36098 be accommodated at least one tube chamber 36084 of tube element 30080.See Figure 99, tube element 37080 can comprise non-porous film 37110.Non-porous film 37110 can at least in part around the ground floor 37100a of tubulose lattice 37092 or tubulose lattice 30092 and second layer 37100b to provide the covering of the fluid impermeable similar with overmolding material 36024 as herein described.
As described herein, tube element can comprise can the material of bio-absorbable, therapeutic agent, many strands, tubulose lattice, the layer of tubulose lattice, overmolding material, at least one in non-porous film or its combination.Such as, see Figure 100, the many strands 38090 that tube element 38080 can comprise overmolding material 38024 and locate through the central lumen 38084 of tube element 38080.Strand 38090 can comprise therapeutic agent 38098.Alternatively, such as, see Figure 101, tube element 39080 can comprise such as overmolding material 39024 and the therapeutic agent 39098 be positioned in the central lumen 39084 of tube element 39080.Optionally, at least one in tube element 39080 and overmolding material 39024 can comprise fluid treatment agent 39098.
Mainly refer again to Figure 84, tube element 30080 can be located relative to the rigid support part 30010 of nail bin 30000.Tube element 30080 can be close to rigid support part 30010 longitudinal register.Tube element 30080 can be arranged essentially parallel to or aim at the longitudinal slit in rigid support part 30010 or cavity 30015.Tube element 30080 can be aimed at longitudinal slit 30015, makes a part for tube element 30080 overlapping with a part for longitudinal slit 30015.In this case, the cutting element 30052 on nail percussion sliding part 30050 can cutting edge 30052 along the longitudinal slit 30015 translation time cut off the part of tube element 30080.Alternatively, on tube element 30,080 first side that can be longitudinal positioning of longitudinal slit 30015 or the second side.As other alternative form, tube element 30080 can be located relative to the rigid support part 30010 of nail bin 30000, makes tube element 30080 laterally or diagonally traverse rigid support part 30010 at least partially.
See such as Figure 102, tissue thickness's compensating part 40020 can comprise multiple tube element 40080.Tube element 40080 can comprise such as different length, shape of cross section and/or material.In addition, tube element 40080 can be located relative to the rigid support part 40010 of nail bin 30000, makes the tubulose axis of tube element 40080 parallel to each other.The tubulose axis of tube element 40080 can longitudinally be aimed at, and the first tube element 40080 is positioned in another tube element 40080.Alternatively, parallel tubular elements 40080 longitudinally can traverse such as nail bin 30000.As other alternative form, parallel tubular elements 40080 laterally or diagonally can traverse nail bin 30000.Alternatively, non-parallel tube element 40080 can be oriented relative to one another to angular orientation, its tubulose axis is intersected each other and/or not parallel.
See Figure 102-Figure 105, tissue thickness's compensating part 40020 can have two tube elements 40080; First tube element 40080a can longitudinally be positioned on the first side of the longitudinal slit 30015 in rigid support part 30010, and the second tube element 40080b can longitudinally be positioned on the second side of longitudinal slit 30015.Each tube element 40080 can comprise the tubulose lattice 40092 of strand 40090.Nail bin 30000 can comprise six row nail chambeies 30012 altogether, and wherein such as three row nail chambeies 30012 are positioned on every side of longitudinal slit 30015.In this case, the translation cutting edge 30052 followed closely on percussion sliding part 30050 may not be needed to cut off a part for tube element 40080.
Similarly, referring now to Figure 106-Figure 107, tissue thickness's compensating part 41020 can comprise two tube elements 41080a, 41080b being longitudinally arranged in nail bin 30000.Similar to the above, a tube element 41080a can be engaged from the nail 30030 in three row nail chambeies 30012 and another tube element 41080b can be engaged from the nail 30030 in three different row nail chambeies 30012.Still see Figure 106-Figure 107, the nail 30030 be deployed can at the diverse location place joining tubular element 40080 of the cross section across tube element 40080.As described herein, the resilience force elasticity applied by tube element 41080 and corresponding restoring force can be depending on shape of cross section of tube element 41080 etc.Be positioned at the nail 30030 that the comparable nail be positioned near non-arch section of nail 30030 that the curved portions office that is arranged in tube element 41080 or neighbouring nail retain region 30039 retains region 30039 and stand larger restoring force.Similarly, the nail be positioned in the non-arch section of tube element 41080 nail 30030 retained in region 30039 can stand the restoring force less than the restoring force experienced by the curved portions office or neighbouring nail 30030 that are positioned at tube element 30080.In other words, owing to may catch the elastomeric material of larger amt along the nail 30030 of this type of part, the non-arch section of the comparable tube element of arch section 41080 of tube element 41080 has more big spring stiffness factor.Optionally, therefore, mainly see Figure 107, the restoring force produced by tissue thickness's compensating part 41020 can be larger near nail 30030a and 30030c in tube element 30080a, and less near nail 30030b.Correspondingly, the restoring force produced by tissue thickness's compensating part 41020 can than larger near nail 30030e near nail 30030d and 30030f in tube element 30080b.
Refer again to Figure 102-Figure 105, the cross-sectional geometry of the strand 40090 comprising tubulose lattice 40092 can be selected, so that the corresponding restoring force providing required resilience force elasticity and applied by tubulose lattice 40092.Such as, refer again to Figure 103, the strand 40090a be positioned in the arch section of tube element 40080 can comprise X-shaped shape cross section, and the strand 40090b be positioned in the non-arch section of tube element 40080 can comprise tubular cross-section.To form tubulose lattice 40092 together with strand 40090a with 40090b comprising varying cross-section geometry can be woven in.Alternatively, strand 40090a and 40090b can be attached to each other with such as binding agent.See Figure 104 and Figure 105, the restoring force optimization that the varying cross-section geometry of the strand 40090 in tube element 40080 can make the nail across nail bin 30000 retain to stand in region 30039.Certain cross section geometry can be selected, the resilience constant retained in region 30039 of the nail across nail bin is balanced substantially or equal.
See Figure 108, tube element 41080a, 41080b of tissue thickness's compensating part 41120 tighten together by adjacent part 41126.Although translation cutting element 30052 can pass through between tube element 41080a and 41080b, cutting element 30052 may be needed to cut off adjacent part 41126 at least partially.Adjacent part 41126 can comprise flexible material, such as foam or gel, and it is easily cut off by translation cutting element 30052.Tissue thickness's compensating part 41120 can be fixed to surgical end-effector 12 by adjacent part 41026 releasedly.Adjacent part 41126 can be fixed to the top platform surface 30011 of rigid support part 30010, makes still to remain in surgical end-effector 12 at adjacent part 41126 after surgical end-effector 12 releasing tube linear element 41080a, 41080b.
See Figure 109-Figure 110, tissue thickness's compensating part 42020 can comprise multiple tube element 42080, makes the quantity of such as tube element 42080 identical with the line number in the nail chamber 30012 in nail bin 30000.Nail bin 30000 can comprise six row nail chambeies 30012 and tissue thickness's compensating part 42020 can comprise six tube elements 42080.Each tube element 42080 can follow closely chamber 30012 substantial registration with a line.When nail 30030 is penetrated from a line nail chamber 30012, each nail 30030 from this row can pierce through same pipe linear element 42080 (Figure 110).The distortion of a pipe 42080 can have minimum impact or not impact to the distortion of adjacent tubes 42080.Therefore, tube element 42080 can retain at the nail across nail bin 30030 width in region 30039 and apply the discrete resilience force with customizing substantially.When the nail 30030 of pulling the trigger from multirow nail chamber 30012 engages same pipe linear element 35080 (Figure 107), the distortion of tube element 35080 can lessly customize.Such as, the distortion retained in region 30039 of the nail of tube element 35080 in the first row can affect the nail of this tube element 35080 in another row and retains distortion in region 30039.Translation cutting edge 30052 can be avoided cutting off tube element 42080.Alternatively, see Figure 111, tissue thickness's compensating part 43020 can comprise the tube element 43080 of more than six, such as seven tube elements 44080.In addition, tube element 43080 can symmetrical or asymmetric arrangement in end effector 12.When odd number tube element 43080 longitudinally and when being arranged symmetrically in end effector 12, translation cutting element 30052 can cut off the intermediate tubular element covered on vertical passage 30015.
See Figure 112, tissue thickness's compensating part 44020 can comprise central tubular element 44080b, and it is aimed at the longitudinal slit 30015 in the rigid support part 33010 of nail bin 30000 at least in part.Tissue thickness's compensating part 44020 also can comprise at least one peripheral tubular element 44080a, 44080c of being positioned on longitudinal slit 30015 side.Such as, tissue thickness's compensating part 44020 can comprise three tube element 44080: the first peripheral tubular element 44080a and can be longitudinal positioning of on the first side of longitudinal slit 30015 of nail bin 30000, central tubular element 44080b can be positioned substantially on longitudinal slit 30015 and/or with it and aim at, and the second periphery tube element 44080c can be longitudinal positioning of on the second side of longitudinal slit 30015.It is the horizontal diameter of substantially extending that central tubular element 44080b can comprise relative to perpendicular diameter.Central tubular element 44080b and/or any other tube element can to follow closely chamber 30012 overlapping with multirow.Still see Figure 112, such as, central tubular element 44080b can follow closely with nail four of chamber 30012 that capable overlapping and each peripheral tubular element 44080a, 44080c can to follow closely chamber 30012 overlapping with single file.Alternatively, central tubular element 44080b can such as to follow closely chamber 30012 overlapping with being less than four lines, such as, and two row nail chambeies 30012.In addition, peripheral tubular element 44080a, 44080c can to follow closely chamber 30012 overlapping with more than a line, such as two row nail chambeies 30012.Referring now to Figure 113, the central tubular element 44180b of tissue thickness's compensating part 44120 can comprise therapeutic agent 44198 at the tube chamber 44184 of central tubular element 44180b.Optionally, central tubular element 44180b and/or at least one peripheral tubular element 44080a, 44080c can comprise therapeutic agent 44198 and/or any other suitable therapeutic agent.
See Figure 114, tissue thickness's compensating part 44220 can comprise shell 44224, and this shell can be similar with overmolding material 32024 as herein described.Multiple tube element 44080 is held in place by shell 44224 in end effector 12.Shell 44224 can with tube element 44080 coextrusion.Tube element 44080 can comprise the tubulose lattice 44092 of strand 44090.Be similar to described elsewhere polymer composition herein, shell 44224 can comprise such as polyglycolic acid (PGA), poly-(lactic acid) (PLA) and/or any other suitable can the biocompatible elastomers polymer of bio-absorbable.In addition, shell 44224 can be atresia, makes shell 44224 such as form the layer of fluid impermeable in tissue thickness's compensating part 44220.As discussed herein further, the strand 44090 in tube element 44080 and/or tubulose lattice 44092 can comprise therapeutic agent 44098.The shell 44224 of atresia can comprise therapeutic agent 44098 in tissue thickness's compensating part.As described herein, tube element 44080 can be positioned in nail bin 30000 relative to nail chamber 30012 and cutting element 30052.Nail the deployment of 30030 and/or the translation of cutting element 30052 can pierce through the shell 44224 of atresia or make it break, make comprising therapeutic agent 44198 can discharge from tissue thickness's compensating part 44020.
See Figure 115, tissue thickness's compensating part 44320 can comprise central tubular element 44380b, and this central tubular element comprises tubulose lattice 44392.Tubulose lattice 44392 can have nonwoven part or gap 44381, and described nonwoven part or gap are aimed at longitudinal slit 30015 of rigid support part 30010 substantially.In this case, the woven portion of the tubulose lattice 44092 of tube element 44380b is not overlapping with longitudinal slit 30015.Therefore, the cutting element 30052 on translation nail percussion sliding part 30052 can longitudinally slit 30015 translation and do not cut off the overlap of the woven portion of tubulose lattice 44392.Although nail 30030c and 30030d that locate of gap 44381 in adjacent tubular element 44380b can from the less support of tubulose lattice 44392 Structure Receive, other feature structure can be these nails 30030 and provides support and/or retain in region 30039 at its nail and provide other restoring force.Such as, as described in more detail, other tube element, support belt, spring and/or stay material such as can be positioned at least one place in the inside and outside tube element 44380b near gap 44381.
Referring now to Figure 116-Figure 119, tissue thickness's compensating part 45020 can comprise the multiple tube elements 45080 laterally traversing nail bin 30000.Tube element 45080 can be oriented to the longitudinal axis perpendicular to the nail row in chamber 30012 and/or the rigid support part 30010 of nail bin 30000.See Figure 116, tube element 45080 can traverse the longitudinal slit 30015 in nail bin 30000, makes the cutting element 30052 followed closely on percussion sliding part 30050 can cut off tube element 45080 when following closely percussion sliding part 30050 longitudinally slit 30015 translation.Alternatively, referring now to Figure 117, tissue thickness's compensating part 46020 can comprise two groups of tube elements laterally traversed 46080.First group of tube element 46080a laterally traversed can be positioned on the first side of longitudinal slit 30015, and second group of tube element 46080b laterally traversed can be positioned on the second side of longitudinal slit 30015.In this class formation, cutting element 30052 can pass between two groups of tube elements 46080, and does not cut off a part for tube element 46080.Alternatively, when at least one other tube element 46080 does not traverse longitudinal slit 30015 and not cut element 30052 cuts off, cutting element 30052 can cut off at least one tube element 46080 traversing longitudinal slit 30015.
When tube element 45080 laterally traverses nail bin 30000, see Figure 118 and Figure 119, nail 30030 can engage each nail and retain at least one tube element 45080 in region 30039.In this class formation, each tube element 45080 can provide discrete restoring force along the length of nail bin 30000.Such as, main see Figure 119, with organize compared with the tube element 45080 of locating near the distal end of thinner tissue thickness's compensating part 45020 wherein, organize the tube element 45080 of location near the proximal extremity of thicker tissue thickness's compensating part 45020 greatly to be compressed wherein.Therefore, compared with the restoring force produced with the tube element 46080 can located by the distal end closer to tissue thickness's compensating part 45020, the tube element 45080 that the proximal extremity closer to tissue thickness's compensating part 45020 is located can provide larger restoring force.In addition, still see Figure 119, the distortion of a pipe 45080 can have slight influence or not impact for the distortion of adjacent tubes 45080.Therefore, tube element 45080 can retain in region 30039 at the nail of the length along nail bin 30030 and apply the discrete resilience force with customizing substantially.When multiple nails 30030 of percussion from single file nail chamber 30012 engage same pipe linear element 35080, the distortion of tube element 35080 can lessly customize.Such as, the distortion of tube element 35080 that nail retains in region 30039 can affect this tube element 35080 and follow closely at another distortion retained in region 30039.
As other alternative form, see Figure 120-Figure 125, the tube element 47080 of tissue thickness's compensating part 47020 can traverse nail bin 30000 diagonally.Tube element 47080 can traverse the longitudinal slit 30015 in nail bin 30000, makes the cutting element 30052 followed closely on percussion sliding part 30050 can cut off when following closely percussion sliding part 30052 longitudinally slit 30015 translation the tube element 47080 traversed diagonally.Alternatively, tissue thickness's compensating part 47020 can comprise two groups of tube elements traversed diagonally 47080.First group of tube element traversed diagonally 47080 can be positioned on the first side of longitudinal slit 30015, and second group of tube element traversed diagonally 47080 can be positioned on the second side of longitudinal slit 30015.In this class formation, cutting element 30052 can pass between two groups of tube elements 47080, and can not cut off any tube element 47080.
Still see Figure 120-Figure 123, the tube element 47080 traversed diagonally can be positioned in nail bin 30000, and gap is limited between tube element 47080.When such as by applying compression stress in the tissue T becoming the nail of staple 30030 to retain region 30039 IT to adjacent tubular elements 47080, the horizontal extension that the gap between adjacent tubular elements can be tube element 47080 provides space.Tube element 47080 connects by material membrane or material piece 47024 spanning gap.Material piece can be positioned at least one in the platform surface 30011 of rigid support part 30010 and/or the tissue contact side of tube element 47080.
See Figure 124 and Figure 125, at least one tube element 47080 traversed diagonally can be located relative to the nail chamber 30012 in nail bin 30000, and tube element 47080 is positioned between the lower limb 30032 of the nail 30030 disposed from multirow nail chamber 30012.When nail 30030 moves to firing position from initial position, as described in more detail, follow closely lower limb 30032 can remain positioned in around tube element 47080.In addition, such as, nail can be out of shape, and nail lower limb 30032 is wrapped up around the periphery of tube element 47080.In this class formation, nail 30030 can move to percussion or shaping position, and does not pierce through tube element 47080.Nail lower limb 30032 can prevent from by mistake discharging around the motion of tube element 47080 therapeutic agent 47098 remained on wherein.Each tube element 47080 relative to nail bin 30000 longitudinal slit 30015 selected by angular orientation can be depending on nail the position of chamber 30012 in nail bin 30000.Such as, tube element 47080 can relative to longitudinal slit 30015 of nail bin 30000 into about 45 (45) location, degree angle.Alternatively, tube element 47080 such as can spend location, angle relative to longitudinal slit 30015 one-tenth ten five (15) to 75 (75) of nail bin 30000.
Be similar to disclosure description in the whole text, the multiple tube elements in tissue thickness's compensating part connect by such as binding agent, wrappage, band, overmolding material, compensative material and/or any other suitable connection binding agent or structure.See Figure 126-Figure 128, soft shell 48024 can around or encapsulation organize tube element 48080 in thickness compensation part 48020.Soft shell 48024 can tube element 48080 in confinement end executor 12, and each tube element 48080 can be made to be held in place, and such as follows closely chamber 30012 with a line and longitudinally aims at.Such as, tissue thickness's compensating part 48020 can comprise six tube elements 48080.Soft shell 48024 can be fully deformable and resilient, to limit the tube element 48020 wherein wrapped up, allows distortion and the resilience of tube element 48080 simultaneously.In addition, soft shell 48024 can tighten around tube element 48080, and can tube element 48080 be out of shape and/or resilience time keep with tube element tighten joint.
See Figure 127, before deployment nail 30030, anvil block 30060 can pivotable or rotation downwards, to compress tissue thickness's compensating part 48020 between anvil block 30060 and nail bin 30000 and tissue T.The compression of tissue thickness's compensating part 48020 can comprise the correspondence compression of soft shell 48024 and wherein tube element 48020.When tube element 48020 is out of shape, soft shell 48024 can similarly be out of shape.Tube element 48020 can compress equably on the whole width of nail bin 30000, and soft shell 48024 can experience the similar homogeneous compaction on whole tube element 48080.See Figure 128, when anvil block 30060 nail 30030 from nail bin 30000 dispose after open time, tube element 48080 can from compressed configuration resilience or partly resilience (Figure 127).According to the present invention, tube element 48080 can resilience, makes tube element 48080 turn back to its just beginning and end deformed configuration.Tube element 48080 can partly resilience, makes tube element 48080 partly turn back to its just beginning and end deformed configuration.Such as, the distortion of tube element 48080 can be partial elastic and part plasticity.When tube element 48080 resilience, soft shell 48024 can keep tightening joint with each tube element 48080.Tube element 48080 and soft shell 48024 can recoil to such degree, and described degree makes tube element 48080 and tissue T fill nail and retains region 30039, tube element 48080 tissue T wherein apply suitable restoring force simultaneously.See Figure 129, in other cases, comprise six tissue thickness's compensating parts 48120 remaining on the tube element 48180 in soft shell 48124 can such as be positioned on the anvil block 30060 of end effector 12.
See Figure 130-Figure 133, tissue thickness's compensating part 49020 can comprise tube element 49080, and this tube element is along the longitudinal axis longitudinal register of anvil block 30060.Tissue thickness's compensating part 49020 is fixed to the anvil block 30060 of end effector 12 by compressible compensative material 49024.In addition, compressible compensative material 49024 can around or package tube linear element 49080.Be similar to description herein, tube element 49080 can comprise at least one therapeutic agent 49098, and this therapeutic agent is by discharging with under type: the various components of absorptive tissue thickness compensation part 49020, pierce through tube element 49080 by the nail 30030 of being pulled the trigger by nail bin 30000 and/or cutting element 30052.
See Figure 131, nail bin 30000 can comprise the nail 30030 be positioned in nail chamber 30012, wherein before deployment nail 30030, anvil block 30060 and attachment tissue thickness's compensating part 49020 thereon can compress towards nail bin 30000 pivotable the tissue T be captured between the two.The tube element 49080 of tissue thickness's compensating part 49020 can by pivotal anvil 30060 along nail bin 30000 uniform length be out of shape (Figure 131).See Figure 132 and Figure 133, nail percussion sliding part 30050 can along longitudinal slit 30015 translation in nail bin 30000 and engage be positioned at nail chamber 30010 in nail 30030 below each driver 30040, wherein each joint driver 30040 can from nail chamber 30012 percussion or injection nail 30030.When anvil block 30060 discharges the pressure on tissue T and tissue thickness's compensating part 49020, tissue thickness's compensating part 49020 (comprising tube element 49080 and compressible compensative material 49024) from compressed configuration (Figure 131) resilience or can partly recoil to resilience configuration (Figure 132 and Figure 133).Tube element 49080 and compressible compensative material 49024 can recoil to such degree, described degree makes tissue thickness's compensating part 49020 and tissue T fill nail and retains region 30039, and restoring force is applied in captured tissue T by tissue thickness's compensating part 49020 simultaneously.
Can be positioned in the end effector 12 of surgical instruments see Figure 124-Figure 126, Liang Ge tissue thickness compensating part 50020a, 50020b.Such as, the first tissue thickness compensating part 50020a can be attached to the nail bin 30000 in lower jaw 30070, and minor microstructure thickness compensation part 50020b can be attached to anvil block 30060.First tissue thickness compensating part 50020a can comprise multiple tube element 50080, and the plurality of tube element is longitudinally arranged and remained in the first compensative material 50024a.At least one tube element 50080 can comprise therapeutic agent 50098, is similar to therapeutic agent as herein described.First compensative material 50024a can be deformable or cardinal principle rigidity.In addition, the first compensative material 50024a can make tube element 50080 be held in place relative to nail passage 30000.Such as, the first compensative material 50024a can make each tube element 50080 keep with a line follow closely chamber 30012 longitudinal direction aim at.Minor microstructure thickness compensation part 50020b can comprise the first compensative material 50024a, the second compensative material 50024b and/or the 3rd compensative material 50024c.Second compensative material 50024b and the 3rd compensative material 50024c can be deformable or cardinal principle rigidity.
Anvil block 30060 can pivotable and compression stress is applied to tissue thickness compensating part 50020a, 50020b and the tissue T between anvil block 30060 and nail bin 30000.In some cases, the first tissue thickness compensating part 50020a and minor microstructure thickness compensation part 50020b is not all compressible.Alternatively, at least one assembly in the first tissue thickness compensating part 50020a and/or minor microstructure thickness compensation part 50020b can be compressible.Referring now to Figure 135 and Figure 136, when nail 30030 is pulled the trigger from nail bin 30000, each nail 30030 can pierce through the tube element 50080 remained in the first tissue thickness compensating part 50020a.As shown in Figure 135, the therapeutic agent 50098 remained in tube element 50080 can be released when nail 30030 pierces through tube element 50080.When discharging, therapeutic agent 50098 can apply nail lower limb 30032 and the tissue T around percussion nail 30030.When nail 30030 is pulled the trigger from nail bin 30000, nail 30030 also can pierce through minor microstructure thickness compensation part 50020b.
See Figure 137-Figure 140, tissue thickness's compensating part 51020 can comprise at least one tube element 51080 laterally traversing tissue thickness's compensating part 51020.Such as, see Figure 137, tissue thickness's compensating part 51020 can be located relative to nail bin 30000, first end 51083 of the tube element 51080 laterally traversed can be positioned near first longitudinal side of nail bin 30000, and the second end 51085 of the tube element 51080 laterally traversed can be positioned near second longitudinal side of nail bin 30000.Such as, tube element 51080 can comprise capsule shape shape.As shown in Figure 138, tube element 51080 can be perforated between the first end 51083 and the second end 51085, and in some cases, tube element 51080 can center 51087 place of tube element 51080 or near be perforated.Such as, tube element 51080 can comprise polymer composition, such as can the biocompatible elastomers polymer of bio-absorbable.In addition, refer again to Figure 137, tissue thickness's compensating part 51020 can comprise multiple tube element 51080 laterally traversed.Such as, 13 tube elements 51080 can be laterally arranged in tissue thickness's compensating part 51020.
Refer again to Figure 137, tissue thickness's compensating part 51020 also can comprise at least in part around the compensative material 51024 of tube element 51080.Compensative material 51024 can comprise can the polymer of bio-absorbable, such as lyophilizing polysaccharide, glycoprotein, elastin laminin, Dan Baiduotang proteoglycan PG, gelatin, collagen and/or oxidized regenerated cellulose (ORC).Compensative material 51024 can make tube element 51080 be held in place in tissue thickness's compensating part 51020.In addition, compensative material 51024 can be fixed to the top platform surface 30011 of the rigid support part 30010 of nail bin 30000, and compensative material 51020 is positioned in end effector 12 securely.Compensative material 51024 can comprise at least one medicine 51098.
Still see Figure 137, the tube element 51080 of lateral register can be located relative to translation cutting element 30052, makes cutting element 30052 can cut off tube element 51080.Cutting element 30052 can perforation place wherein or neighbouring cut-out tube element 51080.When tube element 51080 is cut to two halfs, the cut-off part of tube element 51080 can swelling or expansion, as shown in Figure 139.Such as, tube element 51080 can comprise hydroaropic substance 51099, and this hydroaropic substance can discharge when tube element 51080 is cut off and/or expose.In addition, when body fluid in hydroaropic substance 51099 contact tissue T, hydroaropic substance 51099 can attract described fluid, and this can cause the swelling or expansion of tube element 51080.When tube element 51080 is expanded, the compensative material 51024 around tube element 51080 can offset or adjust to adapt to swelling tube element 51080.Such as, when compensative material 51024 comprises gelatin, described gelatin can offset to adapt to swelling tube element 51080.Referring now to Figure 140, the expansion of tube element 51080 and the skew of compensative material 51024 can cause the correspondence of tissue thickness's compensating part 51020 to be expanded.
Be similar to other tissue thickness's compensating parts that the disclosure is discussed in the whole text, tissue thickness's compensating part 51020 is by applied force distortion or compression.In addition, tissue thickness's compensating part 51020 can be fully resilient, makes it produce resilience force when being out of shape by applied force, and can resilience or partly resilience when removing applied force subsequently.Optionally, when tissue thickness's compensating part 51020 retains captured in region 30039 at nail, nail 30030 can make tissue thickness's compensating part 51020 be out of shape.Such as, follow closely 30030 can make to be out of shape at the tube element 51080 of tissue thickness's compensating part 51020 of percussion nail 30030 IT and/or compensative material 51024.Optionally, not the catching part and can be out of shape because following closely the distortion that retain in region 30039 yet of tissue thickness's compensating part 51020.When being out of shape, tissue thickness's compensating part 51020 can attempt resilience from deformed configuration.Optionally, before this type of resilience can occur in the hydrophilic expansion of tube element 51080, while the expansion of the hydrophilic of tube element 51080, and/or after the hydrophilic expansion of tube element 51080.When tissue thickness's compensating part 51020 attempts resilience, it can apply restoring force being also trapped in the nail tissue retained in region 30039, as described in more detail.
Optionally, at least one in tissue thickness's compensating part 51020 in tube element 51080 and/or compensative material 51024 can comprise therapeutic agent 51098.When the tube element 51080 comprising therapeutic agent 51098 is cut off, the therapeutic agent 51098 be included in tube element 51080 can be released.In addition, when compensative material 51024 comprises therapeutic agent 51098, therapeutic agent 51098 can bio-absorbable compensative material 51024 by absorption time discharge.Tissue thickness's compensating part 51020 can provide the quick initial release of therapeutic agent 51098, is the controlled release of therapeutic agent 51098 afterwards.Such as, when the tube element 51080 comprising therapeutic agent 51098 is cut off, tissue thickness's compensating part 51020 can provide the quick initial release of the therapeutic agent 51098 from tube element 51080 to tissue T along line of cut.In addition, when comprise therapeutic agent 51098 can bio-absorbable compensative material 51024 by absorption time, tissue thickness's compensating part 51020 can provide the controlled release of the prolongation of therapeutic agent 51098.Before therapeutic agent 51098 flows into compensative material 51024, at least some in therapeutic agent 51098 can keep shorter a period of time in tube element 51080.Alternatively, at least some in therapeutic agent 51098 can remain in tube element 51080 until tube element 51080 is absorbed.Therapeutic agent 51098 and the compensative material 51024 of release from tube element 51080 can be identical.Alternatively, such as tube element 51080 and compensative material 51024 can comprise different therapeutic agents or different therapeutic combinations.
Still see Figure 140, end effector 12 can almost simultaneously or fast successive ground cut and organize T and nail 30030 pulled the trigger in the tissue T of cut-out.In this case, follow closely 30030 to be deployed in immediately in tissue T after cutting element 30052 has cut off the tube element 51080 of adjacent tissue T.In other words, nail 30030 can after the expansion of the swelling of tube element 51080 and tissue thickness's compensating part 51020 joining tissue thickness compensation part 51020 immediately, or to carry out with it simultaneously.After nail 30030 is entered in tissue T by percussion, tissue thickness's compensating part 51020 can continued growth or expansion.When disposing nail 30030, nail 30030 can pierce through tube element 51080.In this case, the therapeutic agent 51098 still remained in cut-off tube element 51080 can discharge from tube element 51080, and can cover the lower limb 30031 of percussion nail 30030 in some cases.
See Figure 141, tissue thickness's compensating part 51020 can such as be manufactured by molding technology.According to the present invention, framework or mould 51120 can comprise the first longitudinal side 51122 and second longitudinal side 51124.Each longitudinal side 51124 can comprise one or more recess 51130, and described one or more recess can separately can the first end 50183 or the second end 50185 of receiving tube linear element 51080.First end 50183 of tube element 51080 can be positioned in the first recess 51130a on first longitudinal side 51122, and the second end 50183 of tube element 51080 can be positioned in the second recess 51130b on second longitudinal side 51124, makes tube element 51080 laterally traverse framework 51120.Recess 51180 can comprise semi-circular grooves, and this semi-circular grooves can be fitted the first end 50183 or the second end 50185 of wherein tube element 51080 securely.First recess 51130a can be oriented to directly on the opposite of the second recess 51130b, and tube element 51080 can be oriented to perpendicular to or at least be substantially perpendicular to the longitudinal axis of framework 51120.Alternatively, the first recess 51130a can offset from the second recess 51130b, makes tube element 51080 relative to the angled location of the longitudinal axis of framework 51120.As other alternative form, at least one tube element 51080 can be longitudinal positioning of in framework 51120, and tube element is extended between the cross side 51126,51128 of framework 51120.In addition, such as, at least one tube element can angularly be positioned between two recesses on the cross side 51126,51128 of framework, and/or in the recess on cross side 51126 and the framework between the recess on longitudinal side 51124.Framework 51120 can comprise support lugn 51136, and this support lugn can the tube element 51080 of supporting and location in framework 51120.
Such as, framework 51120 can comprise recess 51130 to hold 12 tube elements 51080.Framework recess 51130 can be filled by tube element 51080, and alternatively, and not all recess 51130 all can be filled.Optionally, at least one tube element 51080 can be positioned in framework 51120.At least half recess 51130 can receiving tube linear element 51080.Once tube element 51080 is positioned in framework 51120, compensative material 51024 can be added to framework 51120.When being added to framework 51120, compensative material 51024 can be fluid.Such as, compensative material 51024 can be poured in framework 51120 and can to flow around the tube element 51080 be positioned wherein.See Figure 142, the compensative material 51024 of flowing can flow around the tube element 51080 supported by the recess 51130 in framework 51120.Solidify at compensative material 51024, or after solidifying at least fully, referring now to Figure 143, the tissue thickness's compensating part 51020 comprising compensative material 51024 and tube element 51080 can be removed from framework 51120.Can prune tissue thickness's compensating part 51020.Such as, unnecessary compensative material 51024 can be removed from tissue thickness's compensating part 51020, make longitudinal side of compensative material be substantially smooth.In addition, see Figure 144, the first end 50183 of tube element 51080 and the second end 50185 can be pressed together, or closed, with sealed tubular element 51080.Described closed end can be made before being placed in framework 51120 by tube element 51080.Alternatively, pruning process can crosscut end 51083,51085 and hot stack process can be used for sealing and/or the end 51083,51085 of closure tube linear element 51080.
Refer again to Figure 141, rigid pins 51127 can be positioned in each tube element 51080.Such as, rigid pins 51127 can extend across longitudinal tube chamber of tube element 51080.Rigid pins 51127 can extend over each tube element 51080, in the recess 51130 that rigid pins 51127 can be positioned in framework 51120.Such as, in the embodiment with rigid pins 51127, when to be poured in framework 51120 when compensative material 51204 and to flow around tube element 51080 when the compensative material 51024 flowed, rigid pins 51127 can stay pipe linear element 51080.Once compensative material 51024 solidifies, hardens and/or lyophilizing, or solidify fully, harden and/or lyophilizing, tissue thickness's compensating part 51020 can be removed from framework 51120, and rigid pins 51127 can be removed from longitudinal tube chamber of tube element 51080.Then such as medicine filling tube linear element 51080 can be used.After with medicine filling tube linear element 51080, can prune tissue thickness's compensating part 51020 of the end 51083,51085 such as comprising tube element 51080.Tissue thickness's compensating part 51020 can be such as punched, and/or such as by heat and/or wiper seal.
As described herein, tissue thickness's compensating part 52020 can comprise multiple tube element 51080.Referring now to Figure 145, tube element 51080 can comprise different material behaviors, size and geometry.Such as, the first tube element 51080a can comprise the first thickness and the first material, and the second tube element 51080b can comprise the second thickness and the second material.Optionally, at least two tube elements 51080 in tissue thickness's compensating part 52020 can comprise identical material.Alternatively, each tube element 51080 in tissue thickness's compensating part 5202 can comprise different materials.Similarly, at least two tube elements 51080 in tissue thickness's compensating part 52020 can comprise identical geometry.Alternatively, each tube element 51080 in tissue thickness's compensating part 52020 can comprise different geometries.
Referring now to Figure 20 8-Figure 21 1, tissue thickness's compensating part 51220 can comprise at least one tube element 51280 laterally traversing tissue thickness's compensating part 51220.See Figure 20 8, tissue thickness's compensating part 51220 can be located relative to the anvil block 30060 of end effector 12.Such as, tissue thickness's compensating part 51220 can be fixed to the fixed surface 30061 of the anvil block 30060 of end effector 12.Main see Figure 20 9, such as, tube element 51280 can comprise capsule shape shape.Such as, tube element 51280 can comprise polymer composition, such as can the biocompatible elastomers polymer of bio-absorbable.
Refer again to Figure 20 8, tissue thickness's compensating part 51220 also can comprise at least in part around the compensative material 51224 of tube element 51280.Such as, compensative material 51224 can comprise can the polymer of bio-absorbable, such as lyophilizing polysaccharide, glycoprotein, elastin laminin, Dan Baiduotang proteoglycan PG, gelatin, collagen and/or oxidized regenerated cellulose (ORC).Similar as above, compensative material 51024 can make tube element 51280 be held in place in tissue thickness's compensating part 51220.In addition, compensative material 51224 can be fixed to the fixed surface 30061 of anvil block 30060, and compensative material 51220 is positioned in end effector 12 securely.Compensative material 51224 can comprise at least one medicine.
Still see Figure 20 8, the tube element 51280 of lateral register can be located relative to the cutting element 30252 on translation gliding part 30250, makes the cutting element 30252 of translation can to cut off tube element 51280.Such as, cutting element 30252 can each tube element 51280 center or near cut-out tube element 51280.When tube element 51280 is cut to two halfs, the cut-off part of tube element 51280 can swelling or expansion, as shown in Figure 20 8.Main see Figure 21 0, tube element 51280 can comprise hydroaropic substance 51099, and this hydroaropic substance can discharge when tube element 51280 is cut off and/or expose.In addition, referring now to Figure 21 1, when body fluid in hydroaropic substance 51099 contact tissue T, hydroaropic substance 51099 can attract fluid, and this can cause the swelling or expansion of tube element 51280.When tube element 51280 is expanded, the compensative material 51224 around tube element 51280 can offset or adjust to adapt to swelling tube element 51280.Such as, when compensative material 51224 comprises gelatin, described gelatin can offset to adapt to swelling tube element 51280.Refer again to Figure 20 8, the expansion of tube element 51280 and the skew of compensative material 51224 can cause the correspondence of tissue thickness's compensating part 51220 to be expanded.
Be similar to other tissue thickness's compensating parts that the disclosure is discussed in the whole text, tissue thickness's compensating part 51220 is by applied force distortion or compression.In addition, tissue thickness's compensating part 51220 can be fully resilient, makes it produce resilience force when being out of shape by applied force, and can resilience or partly resilience when removing applied force subsequently.Optionally, when tissue thickness's compensating part 51220 be trapped in nail retain in region 30039 (Figure 88) time, nail 30030 can make tissue thickness's compensating part 51220 be out of shape.Such as, follow closely 30030 can make to be out of shape at the tube element 51280 of tissue thickness's compensating part 51220 of percussion nail 30030 IT and/or compensative material 51224.Optionally, not the catching part and can be out of shape because following closely the distortion that retain in region 30039 yet of tissue thickness's compensating part 51220.When being out of shape, tissue thickness's compensating part 51220 can attempt resilience from deformed configuration.Optionally, before this type of resilience can occur in the hydrophilic expansion of tube element 51280, while the expansion of the hydrophilic of tube element 51280, and/or after the hydrophilic expansion of tube element 51280.When tissue thickness's compensating part 51220 attempts resilience, it can apply restoring force being also trapped in the nail tissue retained in region 30039, as described in more detail.
See Figure 146-Figure 149, tissue thickness's compensating part 52020 can comprise the one or more tube elements 52080 laterally traversing tissue thickness's compensating part 52020 (being similar at least one tissue thickness's compensating part as herein described).Tissue thickness's compensating part 52020 can comprise multiple tube element 52080 laterally traversed.Tissue thickness's compensating part 52020 also can comprise one or more material piece 52024, and this material piece keeps or retains at least one tube element 52080 in tissue thickness's compensating part 52020.One or more material piece 52024 can be positioned in top and/or the below of tube element 52080, and can keep each tube element 52080 in tissue thickness's compensating part 52020 securely.Main see Figure 146, tissue thickness's compensating part can comprise the first material piece 52024a and the second material piece 52024b.Tube element 52080 can be positioned between the first material piece 52024a and the second material piece 52024b.In addition, still see Figure 146, material piece 52024b can be fixed to the top platform surface 30011 of the rigid support part of nail bin 30000, and tissue thickness's compensating part 52020 is positioned in end effector 12 securely.Alternatively, one or more material piece 52024 can be fixed to anvil block 30060 or in other words remain in end effector 12.
Main see Figure 147, tissue thickness's compensating part 52020 can be porous and/or permeable.Such as, material piece 52024 can comprise multiple hole 52026.Hole 52026 can be substantially circular.Hole 52036 can be visible in material piece 52024.Alternatively, hole 52036 can be microcosmic.Still see Figure 147, tube element 52080 also can comprise multiple hole 52026.See Figure 148, tissue thickness's compensating part 52120 can comprise material piece 52124, and this material piece comprises multiple non-circular hole 52126.Such as, hole 52126 can comprise rhombus and/or fluting shape.Alternatively, see Figure 149, tissue thickness's compensating part 52220 can comprise tube element 52280, and this tube element comprises permeable tubulose lattice 52292.Such as, material piece 52224 can comprise can bio-absorbable biocompatible elastomers polymer and can medicine be comprised.
At least one tube element 52080 can swelling or expansion, as shown in Figure 150 A-Figure 150 D.Such as, see Figure 150 A, tube element 52080 can be positioned in the middle of the first material piece 52024a in tissue thickness's compensating part 52020 and the second material piece 52024b.As tissue thickness's compensating part 52020 contact tissue T, as shown in Figure 150 B, tissue thickness's compensating part 52020 can be expanded.Such as, tube element 52080 can be included in be exposed within tissue T and/or on fluid time the hydroaropic substance 52099 expanded.In addition, material piece 52024 and tube element 52080 can be permeable, as described herein, make the fluid penetrable tissue thickness compensating part 52020 from tissue T thus allow the hydroaropic substance 52099 in fluid contact tube element 52080.When tube element 52080 is expanded, the material piece 52024 around tube element 52080 can offset or adjust to adapt to swelling tube element 52080.Be similar to the various tissue thicknesses compensating part that the present invention is discussed in the whole text, tissue thickness's compensating part 52020 of expansion is by applied force (compression stress such as applied by percussion nail) distortion or compress, as shown in Figure 150 C.In addition, tissue thickness's compensating part 52020 can be fully resilient, makes it produce resilience force when being out of shape by applied force, and can the resilience when removing applied force subsequently.Referring now to Figure 150 D and Figure 150 E, tissue thickness's compensating part 52020 can retain in region 30039 at difference nail and recoil to different configurations, to adapt to the tissue T be captured suitably.
See Figure 151-Figure 156, tissue thickness's compensating part 53020 can comprise the tube element 53080 of multiple vertical location.Optionally, each tube element 53080 can comprise tubulose axis, and this tubulose axis is substantially perpendicular to the top platform surface 30011 of the rigid support part 30010 of nail bin 30000.In addition, the first end of each tube element 53080 can such as be located by adjacent top platform surface 30011.Tube element 53080 can be such as deformable and can comprise elastomer polymer.Optionally, as shown in Figure 152, tube element 53080 can be captured in the tissue T be sewn when nail retains in region 30039 and be compressed.Tube element 53080 can comprise elastomeric material, makes when tube element 53080 is attempted from deformed configuration resilience, and the distortion of tube element 53080 produces restoring force.The distortion of tube element 53080 can be at least part of elasticity and at least part of plasticity.Tube element 53080 can serve as spring under applied force, and can not fastening.See Figure 153, tube element 53080 can be substantially cylindrical.See Figure 154, tube element 53180 can comprise fasten area 53112.When applying compression stress to tube element 53180, it can in fasten area 53112 place's fastening or distortion.Tube element 53180 can flexibly and/or plastically be out of shape, and is then designed under the tightening force selected in advance in the unexpected fastening in fasten area 53112 place.
Main see Figure 155, the first tube element 53080 can be positioned in first end in nail chamber 30012, and another tube element 53080 can be positioned in second end in nail chamber 30012.As shown in Figure 153, tube element 53080 can comprise the tube chamber 53084 extended through wherein.Refer again to Figure 152, when nail 30030 moves to firing position from initial position, each nail lower limb 30032 can through the tube chamber 53084 of each tube element 53080.Alternatively, mainly see Figure 156, vertically the tube element 54080 of location can be disposed in tissue thickness's compensating part 54020, makes the adjacent to each other or contact of tube element 54080.In other words, tube element 54080 can be trooped or be concentrated in together.Tube element 54080 can systematically be arranged in tissue thickness's compensating part 54020; But in other cases, tube element 54080 can by random arrangement.
Refer again to Figure 151, Figure 155 and Figure 156, tissue thickness's compensating part 53020 also can comprise material piece 53024, and this material piece makes tube element 53080 keep or is retained in tissue thickness's compensating part 53020.Material piece 53024 can be positioned in top and/or the below of tube element 53080, and can keep each tube element 53080 in tissue thickness's compensating part 53020 securely.Tissue thickness's compensating part 53020 can comprise the first and second material piece 53024.Tube element 53080 can be positioned between the first and second material piece 53024.In addition, material piece 53024 can be fixed to the top platform surface 30011 of the rigid support part of nail bin 30000, and tissue thickness's compensating part 53020 is positioned in end effector 12 securely.Alternatively, material piece 53024 can be fixed to anvil block 30060 or in other words remain in end effector 12.Material piece 53024 can be fully deformable, is out of shape when the spring 55080 of material piece 53024 in tissue thickness's compensating part is out of shape.
See Figure 157 and Figure 158, tissue thickness's compensating part 55020 can comprise at least one spring 55080, and this spring is fully resilient, makes it can produce resilience force when being out of shape.Main see Figure 157, tissue thickness's compensating part 55020 can comprise multiple spring 55080, such as three row springs 55080.Spring 55080 can systematically and/or be randomly arranged in tissue thickness's compensating part 55020.Such as, spring 55080 can comprise elastomer polymer.The shape of spring 55080 can allow it to be out of shape.Spring 55080 can be deformed into deformed configuration from initial configuration.Such as, when the part of tissue thickness's compensating part 55020 be trapped in nail retain in region 30039 time, nail retains within region 30039 and/or spring 55080 around can be out of shape.Such as, spring 55080 can fastening or collapse under the compression stress applied for percussion nail 30030, and spring 55080 can produce restoring force, and described restoring force depends on the device of spring stiffness coefficient of distortion spring 55080 and/or the deflection of spring 55080.Spring 55080 can serve as sponge under the compression stress applied by percussion nail 30030.In addition, spring 55080 can comprise compensative material, as the disclosure describes in the whole text in more detail.
Tissue thickness's compensating part 55020 also can comprise one or more material piece 55024, and this material piece keeps or retains at least one spring 55080 in tissue thickness's compensating part 55020.Material piece 55024 can be positioned in top and/or the below of spring 55080, and can keep the spring 55080 in tissue thickness's compensating part 55020 securely.Tissue thickness's compensating part 55020 can comprise the first material piece 55024a and the second material piece 55024b.Tube element 52080 can be positioned between the first material piece 55024a and the second material piece 55024b.Main see Figure 158, tissue thickness's compensating part 55020 also can comprise the 3rd material piece 55024c, and the contiguous first material piece 55024a or the second material piece 55024b of the 3rd material piece locates.Optionally, at least one material piece 55024 can be fixed to the top platform surface 30011 of the rigid support part of nail bin 30000, and tissue thickness's compensating part 55020 is positioned in end effector 12 securely.Alternatively, at least one material piece 55024 can be fixed to anvil block 30060 or in other words remain in end effector 12.
Referring now to Figure 158, when nail 30030 is pulled the trigger from nail bin 30000 (Figure 156), nail 30030 can joining tissue thickness compensation part 55020.A part for tissue T and tissue thickness's compensating part 55020 can be captured in nail and retain in region 30039 by percussion nail 30030.Spring 55080 can be deformable, makes tissue thickness's compensating part 55020 compression when being caught by percussion nail 30030.Spring 55080 can be positioned between the percussion nail 30030 in tissue thickness's compensating part 55020.Alternatively, at least one spring 55080 of region 30039 IT can be retained at nail.
See Figure 159, tissue thickness's compensating part 60020 can comprise at least two layers of compensation 60022.Tissue thickness's compensating part 60020 can comprise multiple layer of compensation 60022, and the plurality of layer of compensation can stack and registration in top of each other, or their combination.As described in more detail, the layer of compensation 60022 of tissue thickness's compensating part 60020 can comprise such as different geometries and/or material behavior.In addition, as described in more detail, pit and/or passage can be present between the adjacent layer of compensation 60022 stacked.Such as, tissue thickness's compensating part 62020 can comprise six layer of compensation 62022a, 62022b, 62022c, 62022d, 62022e, 62022f, and described six layers of compensation can adjacently on top of each other stack (Figure 174).
See Figure 160, Figure 161 and Figure 163-Figure 168, tissue thickness's compensating part can comprise the first layer of compensation 60122a and the second layer of compensation 60122b.First layer of compensation 60122a can stack the top of the second layer of compensation 60122b is adjacent.The adjacent layer of compensation 60122 stacked can be separated by Separation or pit 60132.Main see Figure 160, tissue thickness's compensating part 60120 also can comprise and is positioned at least one cantilever beam between the first layer of compensation 60122a and the second layer of compensation 60122b or support member 60124.Support member 60124 can locate the first layer of compensation 60122a relative to the second layer of compensation 60122b, and layer of compensation 60122 is separated by Separation 60132.As described in more detail, the variation of support member 60124 and/or layer of compensation 60122a, 60122b is as reduced Separation 60132.
The brace summer of tissue thickness's compensating part can comprise multiple geometry and size.Such as, brace summer can be simple I ellbeam, the curved brace summer of list placed in the middle 60124 (Figure 160), the eccentric curved brace summer of list 60224 (Figure 161), oval brace summer 60324 (Figure 163), how curved brace summer 60424 (Figure 164), and/or two cantilever support beams 60524 (Figure 165) of symmetry.In addition, referring now to Figure 160, Figure 166 and Figure 167, such as, brace summer 60624 can be thinner than at least one layer of compensation 60122 (Figure 166), brace summer 60724 can be thicker than at least one layer of compensation 60122 (Figure 167), and/or brace summer 60124 can be the thickness substantially the same with at least one layer of compensation 60122 (Figure 160).The material of brace summer 60124, geometry and/or size such as can affect deformability and the resilience force elasticity of tissue thickness's compensating part 60120.
Still see Figure 160, such as, layer of compensation 60122 and the brace summer 60124 of tissue thickness's compensating part 60120 can comprise different materials, such as structured material, biomaterial and/or electric material.Such as, at least one layer of compensation 60122 can comprise polymer composition.Polymer composition can comprise at least part of elastic material, makes the distortion of layer of compensation 60122 and/or brace summer 60124 to produce resilience force.The polymer composition of layer of compensation 60122 can comprise the polymer of nonabsorable, absorbable polymer or their combination.Such as, can comprise can the biocompatible elastomers polymer of bio-absorbable for absorbable polymer.In addition, the polymer composition of layer of compensation 60122 can comprise synthetic polymer, non-synthetic polymer or their combination.The example of synthetic polymer includes but not limited to polyglycolic acid (PGA), poly-(lactic acid) (PLA), polycaprolactone (PCL), poly-dioxanone (PDO) and their copolymer.The example of non-synthetic polymer includes but not limited to polysaccharide, glycoprotein, elastin laminin, Dan Baiduotang proteoglycan PG, gelatin, collagen and oxidized regenerated cellulose (ORC).Optionally, be similar to described elsewhere polymer composition herein, the polymer composition of layer of compensation 60122 can the absorbable polymer of the amount of comprising difference (such as by weight percentage), the polymer of nonabsorable, synthetic polymer and or non-synthetic polymer.Optionally, each layer of compensation 60022 in tissue thickness's compensating part 60120 can comprise different polymer compositions, or alternatively, at least two layers of compensation 60122 can comprise identical polymer composition.
Refer again to Figure 159, such as, at least one layer of compensation 60022 can comprise therapeutic agent 60098, such as medicine or pharmaceutically active agents.Layer of compensation 60022 can discharge the therapeutic agent 60098 for the treatment of effective dose.Therapeutic agent 60098 can be discharged by during absorption at layer of compensation 60022.The example of therapeutic agent 60098 can include but not limited to hemorrhage and medicine, such as, and fibrin, thrombin and/or oxidized regenerated cellulose (ORC); Antiinflammatory medicine, such as diclofenac, aspirin, naproxen, sulindac and/or hydrocortisone; Antibiotic and antimicrobial agents or antimicrobial, such as triclosan, ionic silver, ampicillin, gentamycin, polymyxin B and/or chloromycetin; And/or anticarcinogen, such as cisplatin, mitomycin and/or amycin.Such as, therapeutic agent 60098 can comprise biological preparation, such as stem cell.Optionally, each layer of compensation 60022 in tissue thickness's compensating part 60020 can comprise different therapeutic agents 60098, or alternatively, at least two layers of compensation 60022 can comprise identical therapeutic agent 60098.Such as, the layer of compensation 60022 comprising therapeutic agent 60098 (such as biological preparation) such as can be wrapped between two structuring layers of compensation 60022, described two structuring layers of compensation comprise polymer composition, such as polyglycolic acid (PGA) foam.According to the present invention, layer of compensation 60022 can also comprise such as conductive material, such as copper.
Refer again to Figure 174, the layer of compensation 62022 in tissue thickness's compensating part 62020 can have different geometries.When layer 62022 is adjacent to be positioned in tissue thickness's compensating part 62020, layer of compensation 62022 can form at least one three dimensional catheter 62032 between layer 62022.Such as, when the second layer of compensation 62022b comprising passage is positioned in the top of the 3rd substantially smooth layer of compensation 62022c, the passage of the 3rd layer of compensation 62022c and flat surfaces can limit three dimensional catheter 62032a between the two.Similarly, such as, when the 5th layer of compensation 62022e comprising passage is positioned in the below of the 4th layer of compensation 62022d comprising respective channel, described passage can form the three dimensional catheter 62032b limited by the passage in contiguous layer of compensation 62022d, 62022e of stacking.When fluid flows through tissue thickness's compensating part 62020, conduit 62032 can guide therapeutic agent and/or body fluid.
See Figure 170, tissue thickness's compensating part 61020 can comprise layer of compensation 61022, such as layer 60122a and 21022b, and described layer can receive the nail 30030 disposed from nail bin 20000 (Figure 169).When nail 30030 moves to firing position from initial position, nail lower limb 30032 can be guided to firing position by the geometry of at least one layer of compensation 61022.Optionally, at least one layer of compensation 61022 can comprise the hole 61030 extended through wherein, its mesopore 61030 can be arranged in nail 30030 and be received by during percussion the nail lower limb 30032 having disposed nail 30030 from nail bin 20000 (Figure 169), as described in more detail.Alternatively, refer again to Figure 174, such as, nail lower limb 30032 can pierce through at least one layer of compensation, such as layer of compensation 62022f, and can passing hole 62030 be received at least one layer of compensation, such as layer of compensation 62022a.
Main see Figure 170, tissue thickness's compensating part 60120 can comprise at least one support tabs 61026 in the one in layer of compensation 61022a, 61022b.Support tabs 61026 projection can enter the Separation 61032 be limited between adjacent layer of compensation, the gap 61032 such as between the first layer of compensation 61020a and the second layer of compensation 61020b.Support tabs 61026 can from longitudinal lateral process of the first layer of compensation 61022a.In addition, support tabs 61026 can longitudinally side length extend or only along its a part extend.Optionally, at least one support tabs 61026 can from two of layer of compensation 61022a, 61022b longitudinal lateral process.In addition, layer of compensation 61022a, 61022b of adjacent positioned can comprise corresponding support tabs 60126, and the support tabs 60126 extended from the first layer of compensation 60122a can be aimed at the support tabs 60126 extended from the second layer of compensation 60122b at least in part.Refer again to Figure 168, tissue thickness's compensating part 60820 can comprise adjacent restrictor plate 60828 between layer of compensation 60122a, 60122b.Such as, restrictor plate 60828 can be positioned in the gap 60132 be defined between the first layer of compensation 60122a and the second layer of compensation 60122b.As described in more detail, support tabs 61026 and/or restrictor plate 60828 can control distortion and/or the deflection of support member 60124 and/or layer of compensation 60122a, 60122b.
As described herein, the layer of compensation 60022 of tissue thickness's compensating part 60020 can comprise different materials, geometry and/or size.This type of tissue thickness's compensating part 60020 is assembled by multiple manufacturing technology.Main see Figure 159, tissue thickness's compensating part 60022 manufactures by lithographic printing, stereolithography (SLA) or silk-screen printing technique.Such as, stereolithography manufacturing process can formative tissue thickness compensation part 60020, and wherein each layer of compensation 60022 comprises different materials and/or geometric form feature structure.Such as, the ultraviolet light in stereo lithography machine can draw the geometry of the first layer of compensation 60022, makes the first layer of compensation 60022 comprising the first material, geometry and/or size pass through ultraviolet light polymerization.Ultraviolet light can draw the geometry of the second layer of compensation 60022 subsequently, makes the second layer of compensation 60022 comprising the second material, geometry and/or size pass through ultraviolet light polymerization.According to the present invention, stereo lithography machine can be drawn layer of compensation 60022, side by side drafting layer of compensation 60022 on top of each other or draw layer of compensation 60022 with their combination.In addition, layer of compensation 60022 can be plotted as and pit 60132 is present between adjacent layer of compensation 60022.Because stereo lithography machine can form the very thin layer with unique geometry, the tissue thickness's compensating part 60020 therefore manufactured by stereolithography processes can comprise very complicated 3 dimensional coil geometry.
See Figure 169, tissue thickness's compensating part 60920 can be positioned at (Fig. 1) in the end effector 12 of surgical instruments 10.Tissue thickness's compensating part 60920 can be located relative to the nail bin 20000 of end effector 12.Such as, tissue thickness's compensating part 60920 can be fixed to nail bin 20000 releasedly.At least one layer of compensation 60922 of tissue thickness's compensating part 60920 can be close to the location, top platform surface 20011 (Figure 79) of nail bin 20000.Such as, the second layer of compensation 60922b can be fixed to top platform surface 20011 by binding agent or by wrappage (similar with at least one in wrappage as herein described) (Figure 16).Tissue thickness's compensating part 60920 can be in aggregates with nail bin 20000, makes nail bin 20000 and tissue thickness's compensating part 60920 be formed as individual unit structure.Such as, nail bin 20000 can comprise the first main part, such as rigid support part 20010 (Figure 79), and the second main part, such as tissue thickness's compensating part 60920.
Still see Figure 169, tissue thickness's compensating part 60920 can comprise the first compensating part part 60920a and the second compensating part part 60920b.First compensating part part 60920a can be positioned on first longitudinal side of nail bin 20000, and the second compensating part part 60920b can be positioned on second longitudinal side of nail bin 20000.Optionally, when tissue thickness's compensating part 60920 is located relative to nail bin 20000, the longitudinal slit 20015 (Figure 78) in rigid support part 20010 (Figure 78) can extend between the first compensating part part 60920a and the second compensating part part 60920b.Such as, when following closely the cutting element 20052 in percussion sliding part 20050 (Figure 78) and being translated across end effector 12, cutting element 20052 through the longitudinal slit 20015 the first compensating part part 60920a and the second compensating part part 60920b, and can not cut off a part for tissue thickness's compensating part 60920.Alternatively, cutting element 20052 can cut off a part for tissue thickness's compensating part 60920.
Referring now to Figure 162, tissue thickness's compensating part 63020 can fit in the end effector 12 ' of circular surgical apparatus.Tissue thickness's compensating part 62030 can comprise the first circular layer of compensation 63022a and the second circular layer of compensation 63022b.Second layer of compensation 63022b can be positioned on the circular top platform surface 20011 ' of circular nail bin 20000 ', and wherein the second layer of compensation 63022b can comprise the geometry of the geometry corresponding to platform surface 20011 '.Such as, platform surface 20011 ' can comprise stepped portion, and the second layer of compensation 63022b can comprise corresponding stepped portion.Tissue thickness's compensating part also can comprise, such as, and at least one support member 63024 extended around tissue thickness's compensating part 63020 and/or support tabs 63026.
Refer again to Figure 170, percussion nail 30030 can joining tissue thickness compensation part 60920.As the disclosure in the whole text as described in, percussion nail 30030 can the part of capture tissue thickness compensation part 60920 and tissue T, and compression stress is applied to tissue thickness's compensating part 60920.In addition, mainly see Figure 171-Figure 173, tissue thickness's compensating part 60920 can be deformable.Optionally, as described herein, the first layer of compensation 60920a separates by Separation 60932 and the second layer of compensation 60920b.See Figure 171, before compress tissue thickness compensation part 60920, gap 60932 can comprise the first distance.When such as compression stress A being applied to tissue thickness's compensating part 60920 and tissue T by percussion nail 30030 (Figure 170), support member 60924 can be out of shape.Referring now to Figure 172, single bent support beam 60924 can bend under compression stress A, makes the Separation 60932 between the first layer of compensation 60920a and the second layer of compensation 60920b be reduced to second distance.Main see Figure 173, the first layer of compensation 60922a and the second layer of compensation 60922b also can be out of shape under compression stress A.Support tabs 60926 can the distortion of control and compensation layer 60920.Such as, support tabs 60926 can prevent the overbending of layer of compensation 60920 by supporting its longitudinal side when layer of compensation 60920 contacts with each other.Support tabs 60926 also can bend or archwise under compression stress A.Or alternatively, when layer of compensation 60920 and/or support tabs 60926 contact restrictor plate 60128, restrictor plate 60128 (Figure 168) can limit the distortion of layer of compensation 60920 in greater detail in this article in addition.
In addition, be similar to various tissue thicknesses as herein described compensating part, tissue thickness's compensating part 60920 can produce resilience force or restoring force when being out of shape.The restoring force that the tissue thickness compensating part of distortion produces can depend on the orientation of tissue thickness's compensating part 60920, size, material and/or geometry at least in part, and the amount of the tissue thickness's compensating part 60920 be out of shape because of applied force.In addition, tissue thickness's compensating part 60920 can have elasticity at least partially, make tissue thickness's compensating part 60920 produce load on spring or restoring force when being out of shape by percussion nail 30030.Support member 60924 can comprise elastomeric material and/or at least one layer of compensation 60922 can comprise elastomeric material, makes tissue thickness's compensating part 60920 have elasticity.
Referring now to Figure 175, the end effector of surgery suturing appliance can comprise the first jaw and the second jaw, and at least one wherein in the first jaw and the second jaw can relative to each other be moved.Such as, end effector can have the first jaw comprising nail bin passage 19070 and the second jaw comprising anvil block 19060, wherein anvil block 19060 can towards and/or away from nail bin passage 19070 pivotable.Nail bin passage 19070 can receive nail bin 19000, and such as, it can remain in nail bin passage 19070 removedly.Nail bin 19000 can comprise warehouse 19010 and tissue thickness's compensating part 19020, and wherein tissue thickness's compensating part 19020 can be attached to warehouse 19010 removedly.Referring now to Figure 176, the nail 19030 that warehouse 19010 can comprise multiple nail chamber 19012 and be positioned in each nail chamber 19012.In addition, nail 19030 can be supported by the staple drivers 19040 be positioned in warehouse 19010, wherein sliding part and/or firing member such as can be pushed into through nail bin 19000 upwards to lift the staple drivers 19040 in nail chamber 19012, as shown in Figure 177, and penetrate nail 19030 from nail chamber 19012.
Main see Figure 175 and Figure 176, tissue thickness's compensating part 19020 can comprise the container 19024 of elastic component 19022 and encapsulation elastic component 19022.Container 19024 can be sealed and can be limited the cavity comprising internal gas, and this internal gas has the pressure being different from ambient atmospheric pressure.The pressure of internal gas can be greater than the pressure of ambient atmosphere, and alternatively, the pressure of internal gas can be less than the pressure of ambient atmosphere.Container 19024 comprises in the embodiment of the pressure being less than ambient atmospheric pressure wherein, and the sidewall of container 19024 can encapsulate vacuum.In this case, described vacuum can cause container 19024 to be out of shape, collapse and/or graduation, and the elastic component 19022 be wherein positioned in container 19024 can be elastically compressed in container 19024.When on container 19024 during extracting vacuum, elastic component 19022 can be deflected down or be out of shape and can be held in place by the sidewall of container 19024 under compression or vacuum seal state.
Elastic component 19022 and container 19024 are made up of biocompatible materials.Optionally, such as, elastic component 19022 and/or container 19024 can by can the material (such as PLLA, PGA and/or PCL) of bio-absorbable form.Elastic component 19022 can be made up of elastomeric material.Elastic component 19022 also can comprise structuring elasticity.Such as, elastic component 19022 can be the form of hollow pipe.
To being described further above, tissue thickness's compensating part 19020 can against or the platform surface 19011 of contiguous warehouse 19010 locate.Referring now to Figure 177, when nail 19030 is at least in part by percussion, the lower limb of nail 19030 can pierce through container 19024 or make it break.Container 19024 can comprise core 19026, this core can be positioned on the top of the cutting slit 19016 of warehouse 19010, make when cutting element 19080 is advanced into the tissue T cut and be positioned between nail bin 19000 and anvil block 19060, cutting element 19080 also can cut the core 19026 of container 19024, thus pierces through container 19024 or make it break.In any one situation, once container 19024 breaks, internal gas then in container 19024 can average out with the air around tissue thickness's compensating part 19020, and allow elastic component 19022 resilient expansion, be not out of shape and/or the configuration of non-graduation again to obtain or again to obtain at least in part it.In this case, bias force can be applied to the tissue T be trapped in the nail 19020 of distortion by elastic component 19022.More particularly, after the profiled surface distortion by being limited to the pit 19062 in anvil block 19060, tissue T and elastic component 19022 can be captured in nail 19030 by the lower limb of nail 19030 at least partially, make when container 19024 breaks, tissue thickness's compensating part 19020 can compensate the thickness of the tissue T be trapped in nail 19030.Such as, when being trapped in the tissue T in nail 19030 and being thinner, the elastic component 19022 be trapped in this nail 19030 can be expanded to fill the gap in nail 19030, and enough compression stresses are applied to tissue T.Correspondingly, when being trapped in the tissue T in nail 19030 and being thicker, the elastic component 19022 be trapped in this nail 19030 can keep compressing the thicker tissue thought in nail 19030 and abdicate space, and equally, enough compression stresses is applied to tissue T.
When container 19024 is pierced, as mentioned above, elastic component 19022 can attempt expansion to be elastically returned to its initial configuration.In some cases, the part being trapped in the elastic component 19022 in nail 19030 possibly cannot turn back to its just beginning and end deformed shape.In this case, elastic component 19022 can comprise spring, and compression stress can be applied to the tissue T be trapped in nail 19030 by this spring.According to the present invention, elastic component 19022 can analog linearity spring, and the compression stress wherein applied by elastic component 19022 and amount or distance Linear proportional, its elastic member 19022 remains on nail 19030 intrinsic deflection.Alternatively, elastic component 19022 can simulate nonlinear spring, and the compression stress wherein applied by elastic component 19022 is not with amount or apart from Linear proportional, its elastic member 19022 remains on nail 19030 intrinsic deflection.
Main see Figure 178 and Figure 179, nail bin 19200 can comprise tissue thickness's compensating part 19220, and this tissue thickness's compensating part can comprise the container 19222 of one or more sealing wherein.Each in container 19222 can be sealed and can be comprised internal gas.The pressure of the internal gas in sealed container 19222 can exceed atmospheric pressure, and the pressure of internal gas in sealed container 19222 can lower than atmospheric pressure.The pressure of the internal gas in container 19222 is lower than atmospheric pressure, container 19222 can be described to comprise vacuum.Optionally, one or more container 19222 can be wrapped or be included in oversheath, case, wrappage and/or film 19224, and such as, wherein tissue thickness's compensating part 19220 can be positioned in above the platform surface 19011 of warehouse 19010.Such as, each container 19222 can be made up of the pipe with circle or circular cross section (such as, having closing end and opening) at least substantially.Can on the opening of pipe extracting vacuum, and when reaching enough vacuum in pipe, opening can be closed and seal.Such as, pipe can be made up of such as polymeric material, and wherein the opening of pipe can by hot melt to close and to seal this opening.Under any circumstance, the vacuum in each container 19222 can inwardly tractive pipe sidewall and make tubular elastic be out of shape and/or graduation.Container 19222 is shown in Figure 179 the state being at least part of graduation.
When nail 19030 is in its non-firing position, as shown in Figure 179, the top of nail 19030 can be positioned in below tissue thickness's compensating part 19220.Such as, nail 19030 can be positioned in its respective nail chamber 19012, makes nail 19030 not contacting container 19222, until nail 19030 moves to its firing position shown in Figure 180 from the non-firing position shown in Figure 179.The wrappage 19224 of tissue thickness's compensating part 19220 can protect container 19220 not pierced through prematurely by nail 19030.Referring now to Figure 180, when nail 19030 is pulled the trigger at least in part, the lower limb of nail 19030 can pierce through container 19222 or make it break.In this case, the internal gas in container 19222 can with container 19222 around air average out, and resilient expansion is again to obtain or again to obtain at least in part the configuration of its undeformed and/or non-graduation.In this case, bias force can be applied to the tissue be trapped in the nail 19030 of distortion by the container 19222 be pierced.More particularly, after the profiled surface distortion by being limited to the pit 19062 in anvil block 19060, tissue T and container 19222 can be captured in nail 19030 by the lower limb of nail 19030 at least partially, make when container 19222 breaks, container 19222 can compensate the thickness of the tissue T be trapped in nail 19030.Such as, when being trapped in the tissue T in nail 19030 and being thinner, the container 19222 be trapped in this nail 19030 can be expanded to fill the gap in nail 19030, and enough compression stresses is applied to tissue T simultaneously.Correspondingly, when being trapped in the tissue T in nail 19030 and being thicker, the container 19222 be trapped in this nail 19030 can keep compressing the thicker tissue thought in nail 19030 and abdicate space, and enough compression stresses is applied to tissue T simultaneously.
When container 19222 is pierced, as mentioned above, container 19222 can attempt expansion to be elastically returned to its initial configuration.The part being trapped in the container 19222 in nail 19030 possibly cannot turn back to its just beginning and end deformed shape.In this case, container 19222 can comprise spring, and compression stress can be applied to the tissue T be trapped in nail 19030 by this spring.According to the present invention, container 19222 can analog linearity spring, and the compression stress wherein applied by container 19222 and amount or distance Linear proportional, wherein container 19222 remains on nail 19030 intrinsic deflection.Alternatively, container 19222 can simulate nonlinear spring, and the compression stress wherein applied by container 19222 is not with amount or apart from Linear proportional, wherein container 19222 remains on nail 19030 intrinsic deflection.Container 19222 can be hollow when it is under its sealed configuration with sky.Alternatively, each the limited cavity in container 19222, and at least one medicine wherein comprised can be comprised.Such as, container 19222 can comprise at least one medicine, and this at least one medicine can be released and/or bio-absorbable.
The container 19222 of tissue thickness's compensating part 19220 can be arranged in any suitable manner.As shown in Figure 178, be limited to the nail chamber 19012 in warehouse 19010, and the nail 19030 be positioned in nail chamber 19012 can be arranged in line.As shown in the figure, such as, the row that chamber 19012 can be arranged to six vertical linears is followed closely; But, any suitable arrangement in nail chamber 19012 can be utilized.Also as shown in Figure 178, tissue thickness's compensating part 19220 can comprise six containers 19222, and each wherein in container 19222 can be followed closely chamber 19012 with a line and be aimed at, or location above it.Each in nail 19030 in a line nail chamber 19012 can pierce through identical container 19222.In some cases, some of following closely in the nail lower limb of 19030 can not pierce through location container 19222 thereon; But, when container 19222 limits continuous inner chamber, such as, cavity can be pierced through fully by least one in nail 19030, to allow the atmospheric pressure around the pressure of inner chamber gas and container 19222 to average out.Referring now to Figure 185, tissue thickness's compensating part can comprise such as container, such as container 19222', and it can transversely extend in the direction of nail line 19030.Such as, container 19222 ' can extend across multiple nail row.Referring now to Figure 186, tissue thickness's compensating part 19220 " multiple container 19222 can be comprised ", its along perpendicular to or be at least substantially perpendicular to nail line 19030 direction extend.Such as, container 19222 " some can be pierced through by nail 19030, and other can not be pierced through by nail 19030.Such as, container 19222 " can across or extend through cutting path, wherein cutting element can crosscut container 19222 " and makes it break.
Optionally, as mentioned above, tissue thickness's compensating part such as tissue thickness's compensating part 19220 such as can comprise multiple sealed container, such as container 19222.Also described above, each of sealed container 19222 can comprise independently internal gas.Container 19222 can have different internal pressures.Such as, the first container 19222 can comprise the inner vacuum with the first pressure, and second container 19222 can comprise the inner vacuum with the second different pressures.Such as, the distortion of container 19222 or graduation amount can be depending on the vacuum pressure of the internal gas wherein comprised.Such as, compared with the container 19222 with less vacuum, there is the amount that container 19222 can be out of shape or graduation is larger of larger vacuum.The cavity of container can be segmented into two or more independently seal chambers, and wherein each independently seal chamber can comprise independently internal gas.Such as, some nails in nail row can such as be configured and be arranged as and pierce through restriction the first cavity in a reservoir, and other nails simultaneously in nail row can be configured and be arranged as and pierce through restriction the second cavity in a reservoir.In this case, the nail especially wherein in nail row is sequentially pulled the trigger the embodiment of the other end from one end of nail row, and as mentioned above, the one in cavity can keep complete when another cavity breaks and can maintain its internal gas.Such as, the first cavity can have internal gas, and it has the first vacuum pressure, and the second cavity can have internal gas, and it has the second different vacuum pressure.According to the present invention, keep complete cavity can maintain its internal pressure, until container is by bio-absorbable, thus form timing earth pressure release.
Referring now to Figure 181 and Figure 182, tissue thickness's compensating part such as tissue thickness's compensating part 19120 such as can be attached to anvil block 19160.Similar as above, multiple elastic components 19122 that tissue thickness's compensating part 19120 can comprise container 19124 and be positioned wherein.Also similar as above, container 19124 can limit the cavity comprising internal gas, and this internal gas has the pressure of the atmospheric pressure be less than or greater than around tissue thickness's compensating part 19120.Internal gas in container 19124 comprises vacuum, container 19124 and the elastic component 19122 be positioned wherein can be out of shape by the vacuum in container 19124 and the pressure reduction between the atmospheric pressure of container 19124 outside, collapse and/or graduation.In use, anvil block 19160 can move to make position, wherein anvil block is located relative to nail bin 19100, and the tissue engagement surface 19121 wherein on container 19124 can engage the tissue T be positioned in the middle of tissue thickness's compensating part 19120 and nail bin 19100.In use, firing member 19080 can distally advance to pull the trigger nail 19030, as mentioned above, and cuts tissue T simultaneously.Tissue thickness's compensating part 19120 also can comprise mid portion 19126, this mid portion can be aimed at the cutting slit be limited in anvil block 19160, wherein when firing member 19080 is distally advanced through tissue thickness's compensating part 19120, firing member 19080 can pierce through container 19124 or make it break.In addition, similar as above, firing member 19080 can upwards lift staple drivers 19040 and pull the trigger nail 19030, makes nail 19030 can contact anvil block 19160 and is deformed to its deformed configuration, as shown in Figure 183.When nail 19030 is by percussion, then nail 19030 can pierce through container 19124 or makes it break by piercing tissue T, the elastic component 19122 be positioned in container 19124 can be expanded at least in part, as mentioned above.
To being described further above, tissue thickness's compensating part can be made up of biocompatible materials.Biocompatible materials (such as foam) can comprise viscosifier, surfactant, filler, cross-linking agent, pigment, dyestuff, antioxidant and other stabilizing agents and/or their combination, thinks that material provides desirable characteristics.Biocompatible foam can comprise surfactant.Surfactant can be applied to material surface and/or be dispersed in material.Do not wish to be limited to any particular theory, the surfactant being applied to biocompatible materials can reduce the surface tension of the fluid of contact material.Such as, surfactant can reduce the surface tension of the water of contact material, infiltrates material to accelerate water.Water can serve as catalyst.Surfactant can improve the hydrophilic of material.
Surfactant can comprise anion surfactant, cationic surfactant and/or non-ionic surface active agent.The example of surfactant includes but not limited to poly-(ethyleneoxy) ethanol of polyacrylic acid, methyl cellulose (methalose), methylcellulose, ethyl cellulose, propyl cellulose, hydroxyethyl-cellulose, carboxymethyl cellulose, Polyoxyethylene cetyl ether, polyoxyethylene lauryl ether, polyoxethylene octylphenyl ether, NONIN HS 240, polyoxyethylene oleyl ether, Tween 20, polyoxyethylene stearyl base ether, ethylene nonyl phenyl ether, dialkyl group phenoxy group and poloxamer, and their combination.Surfactant can comprise the copolymer of Polyethylene Glycol and polypropylene glycol.Surfactant can comprise non-phospholipid surfactants.Non-phospholipid surfactants can provide antibacterial stability and/or is dispersed in biocompatible materials by other materials.Tissue thickness's compensating part can comprise at least one medicine.Tissue thickness's compensating part can comprise in natural material as herein described, non-synthetic materials and/or synthetic material one or more.Tissue thickness's compensating part can comprise biocompatible foam, and described biocompatible foam comprises gelatin, collagen, hyaluronic acid, oxidized regenerated cellulose, polyglycolic acid, polycaprolactone, polylactic acid, poly-dioxanone, polyhydroxyalkanoatefrom, poliglecaprone and their combination.Tissue thickness's compensating part can comprise film, and described film comprises at least one medicine.Tissue thickness's compensating part can comprise Biodegradable films, and described Biodegradable films comprises at least one medicine.Medicine can comprise liquid, gel and/or powder.Medicine can comprise anticarcinogen, such as cisplatin, mitomycin and/or amycin.
Tissue thickness's compensating part can comprise biodegradation material, to provide the controlled eluting of at least one medicine when biodegradation material is degraded.When biodegradation material contact activation agent such as activating solution, biodegradation material can be degraded, and can decompose, or loses structural intergrity.Such as, activating solution can comprise saline solution or any other electrolyte solution.Biodegradation material can carry out contact activation liquid by routine techniques, and described technology includes but not limited to spraying, dipping and/or brushes.In use, such as, the end effector and/or nail bin that comprise tissue thickness's compensating part (it comprises at least one medicine) can immerse in activating solution by surgeon, and described activating solution comprises saline solution, such as sodium chloride, calcium chloride and/or potassium chloride.Tissue thickness's compensating part can discharge medicine when tissue thickness's compensating part degraded.Medicine can be initial eluting rate and at a slow speed lasting eluting rate fast from the feature of the eluting of tissue thickness's compensating part.
According to the present invention, tissue thickness's compensating part such as can be made up of the biocompatible materials that can comprise oxidant.Oxidant can be organic peroxide and/or inorganic peroxide.The example of oxidant can include but not limited to hydrogen peroxide, urea peroxide, calper calcium peroxide and Magnesium dioxide, and SODIUM PERCARBONATE.Oxidant can comprise peroxy oxidant and hypohalogenous acids base oxidizer, such as hydrogen peroxide, hypochlorous acid, hypochlorite, hypocodites and percarbonate.Oxidant can comprise alkali metal chlorate, hypochlorite and perborate, such as sodium chlorite, sodium hypochlorite and Dexol.Oxidant can comprise vanadate.Oxidant can comprise ascorbic acid.Oxidant can comprise active oxygen generator.According to the present invention, organization bracket can comprise biocompatible materials, and described biocompatible materials comprises oxidant.
Biocompatible materials can comprise liquid, gel and/or powder.Such as, oxidant can comprise microgranule and/or nano-particle.Such as, oxidant can grind to form microgranule and/or nano-particle.In a polymer solution oxidant is attached in biocompatible materials by being suspended by oxidant.Oxidant can be attached in biocompatible materials during freeze-dry process.After lyophilizing, oxidant can be attached to the cell wall of biocompatible materials, with contact time and tissue interaction.Oxidant can not be chemically bonded to biocompatible materials.Percarbonate dry powder can be embedded in biocompatible foam, to provide long-acting biological effect by slow releasing oxygen.Percarbonate dry powder can be embedded in the polymer fiber in non-woven structure, to provide long-acting biological effect by slow releasing oxygen.Biocompatible materials can comprise oxidant and medicine, such as doxycycline and ascorbic acid.
Biocompatible materials can comprise release oxidant and/or at a slow speed sustained release oxidant fast.Oxidant can be initial eluting rate and at a slow speed lasting eluting rate fast from the feature of the eluting of biocompatible materials.When oxidising agent body fluid (such as water), oxidant can generate oxygen.The example of body fluid can include but not limited to blood, blood plasma, peritoneal fluid, cerebrospinal fluid, urine, lymph fluid, synovial fluid, vitreous humor, saliva, gastrointestinal cavity content and/or bile.Do not wish to be limited to any particular theory, oxidant can reduce cell death, strengthens organizational vitality and/or maintains the mechanical strength being organized into tissue that can be destroyed in cutting and/or sewing process.
Biocompatible materials can comprise at least one microgranule and/or nano-particle.Biocompatible materials can comprise in natural material as herein described, non-synthetic materials and synthetic material one or more.Biocompatible materials can comprise average diameter for about 10nm is to about 100nm and/or about 10 μm to about 100 μm, the such as granule of 45-50nm and/or 45-50 μm.Biocompatible materials can comprise biocompatible foam, and described biocompatible foam comprises embedding at least one microgranule wherein and/or nano-particle.Microgranule and/or nano-particle can not be chemically bonded to biocompatible materials.Microgranule and/or nano-particle can provide the controlled release of medicine.Microgranule and/or nano-particle can comprise at least one medicine.Such as, microgranule and/or nano-particle can comprise hemorrhage, antimicrobial and/or oxidant.Tissue thickness's compensating part can comprise biocompatible foam, and described biocompatible foam comprises hemorrhage (it comprises oxidized regenerated cellulose), antimicrobial (it comprises doxycycline and/or gentamycin) and/or oxidant (it comprises percarbant).Such as, microgranule and/or nano-particle can provide the controlled release of the most as many as medicine of three days.
Microgranule and/or nano-particle can be embedded in biocompatible materials in the fabrication process.Such as, biocompatible polymer (such as PGA/PCL) can solvent contact (such as dioxane) to form mixture.Biocompatible polymer can be ground to form granule.The dry granule or do not have with ORC granule can contact to form suspensoid with mixture.This suspensoid can be lyophilized to form biocompatible foam, and this biocompatible foam comprises and has embedding dry granule wherein and/or the PGA/PCL of ORC granule.
Such as, tissue thickness disclosed herein compensating part or layer can be made up of absorbable polymer.Such as, tissue thickness's compensating part can be made up of following material: foam, film, fibrous woven materials, fiber non-woven PGA, PGA/PCL (poly-(glycolic-altogether-caprolactone)), PLA/PCL (poly-(lactic acid-altogether-polycaprolactone)), PLLA/PCL, PGA/TMC (poly-(glycolic-altogether-trimethylene carbonate)), PDS, PEPBO or other absorbable polyurethane, polyester, Merlon, poe, condensing model, polyesteramide and/or poly-esters of oxyacids.According to the present invention, tissue thickness's compensating part can be made up of such as PGA/PLA (poly-(glycolic-altogether-lactic acid)) and/or PDS/PLA (poly-(to dioxanone-altogether-lactic acid)).According to the present invention, tissue thickness's compensating part can be made up of such as organic material.Such as, tissue thickness's compensating part can be made up of carboxymethyl cellulose, sodium alginate, cross-linked-hyaluronic acid and/or oxidized regenerated cellulose.According to the present invention, tissue thickness's compensating part can comprise the durometer that scope is 3-7 Shore A (30-50 Shore OO), and wherein maximum rigidity is such as 15 Shore A (65 Shore OO).Tissue thickness's compensating part such as can stand the compression of 40% under 3 ft lbf loads, stands the compression of 60%, and/or stand the compression of 80% under 6 ft lbf loads under 20 ft lbf loads.One or more gases (such as air, nitrogen, carbon dioxide and/or oxygen) such as can blast and/or be included in tissue thickness's compensating part.Tissue thickness's compensating part can comprise the globule forming tissue thickness compensating part wherein, and described globule comprises between about 50% and material stiffness about between 75%.
According to the present invention, tissue thickness's compensating part can comprise such as hyaluronic acid, nutritional labeling, fibrin, thrombin, is rich in hematoblastic blood plasma, sulfasalazine ( – 5ASA+ sulfapyridine diazonium key)-Qian body Yao Wu – colon bacteria (azo reductase), aminosalicylic acid (there is the 5ASA of the different prodrug configuration for delayed release), (5ASA+ is strange-S Bao Yi – pH>7 (coat dissolves) especially), (5ASA+ ethyl cellulose Bao Yi – based on time/slow releasing of pH), (5ASA+ is strange-L Bao Yi – pH>6 especially), Olsalazine (5ASA+5ASA – colon bacteria (azo reductase)), balsalazide (5ASA+4 aminobenzoyl-B-alanine)-colon bacteria (azo reductase)), pelletize mesalazine, Lialda (delaying and controlled-release formulation of mesalazine), HMPL-004 (herbal mixture, HMPL-004 (can suppress TNF-α, the herbal mixture of the activation of Interleukin-1β and core-κ B), CCX282-B (interference T lymphocyte enters the oral chemokine receptor anagonists of intestinal mucosa), rifaximin (non-absorbability broad ectrum antibiotic), infliximab, mouse chimera antibodies (directly for the monoclonal antibody of TNF-α, it is approved for alleviate suffers from the sign/symptom of the adult/pediatric patient of moderate/severe tube chamber and fistula type Crohn disease to conventional therapy is hyporeactive and maintains clinical remission), adalimumab, people's total IgG 1 (monoclonal antibody of anti-tnf-alpha, it is approved for the sign/symptom alleviating Crohn disease, and for inducing and maintaining conventional therapy underaction, or become the clinical remission suffering from the adult patient of moderate/severe activeness Crohn disease not tolerating infliximab), match trastuzumab, the anti-TNF FAB ' of humanization (is connected to the monoclonal antibody fragment of Polyethylene Glycol, it is approved for the sign/symptom alleviating Crohn disease, and for inducing and maintaining the hyporeactive reaction suffering from the adult patients of moderate/severe disease of conventional therapy), natalizumab, first non-TNF-alpha inhibitor (approval is used for the biologic artifact of Crohn disease), Humanized monoclonal IgG4 antibody (directly for α-4 integrin, obtaining FDA approval has inflammation and the clinical response suffering from the patient of moderate/severe disease and the alleviation that maybe cannot tolerate the grace treatment of conventional Crow and TNF-alpha inhibitor to the treatment of conventional Crow grace and TNF-alpha inhibitor underaction for inducing and maintaining confirmation), the given concomitant immunity regulator having infliximab of possibility, azathioprine 6-MP (purine synthesis Yi Ji – prodrug), methotrexate (in conjunction with dihydrofolate reductase (DHFR) enzyme, it participates in the synthesis of tetrahydrofolic acid, suppresses the synthesis of all purine), allopurinol and the treatment of sulfur purine, PPI, for acid suppression to protect the H2 of healing line, clostridium difficile (C-Diff) – metronidazole, vancomycin (feces transposition process, probiotic bacteria, intracavity normal flora is educated again) and/or rifaximin (bacterial overgrowth process (especially hepatic encephalopathy), do not absorb in the gastrointestinal tract and intracavity antibacterial is worked).
As described herein, such as, tissue thickness's compensating part can compensate the change of thickness of the tissue be trapped in nail that is that penetrate from nail bin and/or that be included in nail line.In other words, some nail in nail line can the thicker of capture tissue divide, and follows closely other nails in line and can the thinner of capture tissue divide.In this case, tissue thickness's compensating part can present differing heights or thickness in nail, no matter and compression stress be applied to and be trapped in tissue in nail and captured tissue is thick or thin.According to the present invention, tissue thickness's compensating part can compensate the change organizing hardness.Such as, some nail in nail line can the height compressible portion of capture tissue, and follow closely other nails in line can the compressibility more fraction of capture tissue.In this case, such as, tissue thickness's compensating part can present comparatively low height or higher hardness in nail (it has been caught has lower compressible tissue), and correspondingly, larger height or comparatively soft can be presented in nail (it has been caught has higher compressible tissue).Under any circumstance, such as, no matter whether tissue thickness's compensating part compensates the change of tissue thickness and/or organizes the change of hardness, and it all can be called as " tissue compensating part " and/or " compensating part ".
Can be namely process apparatus design disclosed in this invention after single uses, or they can be designed to can repeatedly use.But in any one situation, described device all can be repaired, to reuse after using at least one times.The combination in any that reparation can comprise the steps: dismantle described device, then cleaning or replace particular elements and ressemble subsequently.Particularly, described device can be disassembled, and combination in any can optionally replace or take out particular elements or the part of the arbitrary number of described device.Cleaning and/or replace after particular elements, described device can be ressembled to use subsequently by operating team at restoration facilities place or before being about to carry out surgical operation.One of skill in the art will appreciate that, the reparation of device can utilize the multiple technology for dismantling, cleaning/replace and ressemble.The use of these technology and gained be repaired device all within the scope of the invention.
Preferably, the present invention as herein described will be processed before surgery.First, obtain new or with the apparatus crossed, and where necessary apparatus is cleaned.Then apparatus is carried out disinfection.In a kind of disinfection technology, described apparatus is placed in and closes and the container sealed, such as, in plastics or TYVEK bag.Then container and apparatus are placed in the radiation field that can penetrate described container, such as gamma-radiation, x-ray or high energy electron.Antibacterial on apparatus and in container kills by radiation.Then the apparatus after sterilization is stored in sterile chamber.Apparatus is kept aseptic by sealing container, until open this container in medical facilities.
With way of reference in full or be partly incorporated to open or other the open materials of any patent herein, patent and all only with in existing definition of the present invention, statement or the afoul scope of other open materials be not incorporated to herein at be incorporated to material.Thus, under the degree of necessity, the disclosure clearly set forth herein will replace any afoul material be incorporated herein by reference.Any being stated to be is incorporated herein by reference but is incorporated to herein under only not producing the degree of conflicting between be incorporated to material and existing open material with existing definition as herein described, statement or the afoul any material of other open materials or its part.
There is exemplary design be described although the present invention has been used as, in essence of the present disclosure and scope, other amendment can also be carried out to the present invention.Therefore present patent application is intended to contain any modification, purposes or the adaptive version that adopt its general principles.In addition, present patent application be intended to contain in field belonging to the present invention come from known or used have deviate from formula of the present disclosure in practical framework.

Claims (20)

1., for a fastener cartridge assembly for surgical instruments, described fastener cartridge assembly comprises:
Warehouse;
Deformable tube, described deformable tube is located relative to described warehouse, and wherein said deformable tube comprises elastomeric material; With
Securing member, described securing member can move between initial position and firing position, and wherein when described securing member moves to its firing position, described securing member can engage a part for described deformable tube.
2. fastener cartridge assembly according to claim 1, wherein said warehouse comprises:
Platform; And
At least a line securing member chamber, described at least a line securing member chamber is arranged in described platform, and wherein said deformable tube covers at least securing member chamber described in a line.
3. fastener cartridge assembly according to claim 2, the described platform location of the contiguous described warehouse of wherein said deformable tube.
4., according to claim 2 or fastener cartridge assembly according to claim 3, wherein said at least a line securing member chamber comprises substantially parallel multirow nail chamber, and wherein said warehouse comprises:
Slit, extends between two row of described slit in described substantially parallel multirow nail chamber; With
Cutting element, described cutting element can translation in described slit, and the described slit of covering at least partially of wherein said deformable tube, makes described cutting element can cut described deformable tube at least partially.
5. the fastener cartridge assembly according to any one of claim 2-4, wherein said deformable tube comprises the first deformable tube, wherein said fastener cartridge assembly also comprises the second deformable tube, and wherein said second deformable tube is arranged essentially parallel to described first deformable tube.
6. fastener cartridge assembly according to claim 5, wherein said second deformable tube is positioned in described first deformable tube.
7. fastener cartridge assembly according to claim 6, also comprises the 3rd deformable tube, and wherein said 3rd deformable tube is positioned in described second deformable tube.
8. according to claim 5 or fastener cartridge assembly according to claim 6, also comprise the 3rd deformable tube, wherein said first deformable tube is aimed at the longitudinal axis limited by described warehouse, wherein said second deformable tube is positioned on the first side of described first deformable tube, and wherein said 3rd deformable tube is positioned on the second side of described first deformable tube.
9. the fastener cartridge assembly according to any one of claim 5-8, wherein said first deformable tube and described second deformable tube and adjacent part coextrusion are to form single parts.
10. according to fastener cartridge assembly in any one of the preceding claims wherein, wherein said deformable tube comprises strand lattice, and described strand is woven in together to form tube wall.
11. fastener cartridge assemblies according to claim 10, wherein said strand lattice comprise tubulose strand.
12. according to claim 10 or fastener cartridge assembly according to claim 11, and wherein said strand lattice comprise can the strand of bio-absorbable.
13. fastener cartridge assemblies according to any one of claim 10-12, wherein said deformable tube also comprises the non-perforated pipe being positioned at the one of described strand especially in side and inner side, and wherein said non-perforated pipe and the coextrusion of described strand lattice.
14. fastener cartridge assemblies according to claim 13, wherein said strand lattice are filled with the therapeutic agent in order to treated tissue at least in part.
15. 1 kinds of fastener cartridge for surgical instruments, described fastener cartridge comprises:
Warehouse, described warehouse limits longitudinal axis;
More than first strand, described more than first strand is woven into elasticity lattice, and wherein said elasticity lattice are arranged essentially parallel to described longitudinal axis; With
Securing member, described securing member can move between initial position and firing position, and wherein when at least one securing member moves to its firing position, at least one this type of securing member can compress a part for described elasticity lattice.
16. fastener cartridge according to claim 15, wherein said elasticity lattice comprise the first elasticity lattice, wherein said fastener cartridge also comprises more than second strand being woven into the second elasticity lattice, wherein said second elasticity lattice are arranged essentially parallel to described longitudinal axis, and at least one in wherein said more than first strand and described more than second strand comprises tubulose strand.
17. 1 kinds of end effector assemblies for surgical instruments, described end effector assembly comprises:
Anvil block;
Fastener cartridge, it comprises:
At least a line securing member chamber; With
Securing member, described securing member can move between initial position and firing position, and wherein when each securing member is in its initial position, each securing member is positioned in securing member chamber; And
Pipe, wherein said pipe comprises elastomeric material, and wherein said pipe be arranged essentially parallel to described at least a line securing member chamber;
Wherein when at least one securing member moves to its firing position, at least one securing member described can make a part for described pipe be out of shape.
18. end effector assemblies according to claim 17, wherein said pipe comprises the therapeutic agent in order to treated tissue.
19. end effector assemblies according to claim 18, wherein said pipe can bio-absorbable, makes when described pipe is discharged described therapeutic agent by pipe described during bio-absorbable.
20. according to claim 18 or end effector assembly according to claim 19, also comprising can along the cutting element of the translation at least partially of the slit in described fastener cartridge, at least one in wherein said multiple securing member and described cutting element can penetrate described pipe, and described therapeutic agent is discharged from described pipe.
CN201380028299.5A 2012-03-28 2013-03-27 Tissue thickness compensation part including the structure for producing elastic load Active CN104394781B (en)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
US13/433,148 US9220500B2 (en) 2010-09-30 2012-03-28 Tissue thickness compensator comprising structure to produce a resilient load
US13/433,148 2012-03-28
PCT/US2013/034019 WO2013148779A2 (en) 2012-03-28 2013-03-27 Tissue thickness compensator comprising structure to produce a resilient load

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CN104394781A true CN104394781A (en) 2015-03-04
CN104394781B CN104394781B (en) 2018-04-17

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