US20010044635A1 - Tissue excision and cutting apparatus and its forceps - Google Patents
Tissue excision and cutting apparatus and its forceps Download PDFInfo
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- US20010044635A1 US20010044635A1 US09/439,760 US43976099A US2001044635A1 US 20010044635 A1 US20010044635 A1 US 20010044635A1 US 43976099 A US43976099 A US 43976099A US 2001044635 A1 US2001044635 A1 US 2001044635A1
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- Prior art keywords
- tissue
- blade
- resection blade
- resection
- sealing
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B10/00—Other methods or instruments for diagnosis, e.g. instruments for taking a cell sample, for biopsy, for vaccination diagnosis; Sex determination; Ovulation-period determination; Throat striking implements
- A61B10/02—Instruments for taking cell samples or for biopsy
- A61B10/06—Biopsy forceps, e.g. with cup-shaped jaws
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B17/00—Surgical instruments, devices or methods, e.g. tourniquets
- A61B17/32—Surgical cutting instruments
- A61B17/320016—Endoscopic cutting instruments, e.g. arthroscopes, resectoscopes
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B10/00—Other methods or instruments for diagnosis, e.g. instruments for taking a cell sample, for biopsy, for vaccination diagnosis; Sex determination; Ovulation-period determination; Throat striking implements
- A61B10/0096—Casings for storing test samples
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B17/00—Surgical instruments, devices or methods, e.g. tourniquets
- A61B17/16—Bone cutting, breaking or removal means other than saws, e.g. Osteoclasts; Drills or chisels for bones; Trepans
- A61B17/1604—Chisels; Rongeurs; Punches; Stamps
- A61B17/1606—Chisels; Rongeurs; Punches; Stamps of forceps type, i.e. having two jaw elements moving relative to each other
- A61B17/1608—Chisels; Rongeurs; Punches; Stamps of forceps type, i.e. having two jaw elements moving relative to each other the two jaw elements being linked to two elongated shaft elements moving longitudinally relative to each other
- A61B17/1611—Chisels; Rongeurs; Punches; Stamps of forceps type, i.e. having two jaw elements moving relative to each other the two jaw elements being linked to two elongated shaft elements moving longitudinally relative to each other the two jaw elements being integral with respective elongate shaft elements
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B17/00—Surgical instruments, devices or methods, e.g. tourniquets
- A61B17/28—Surgical forceps
- A61B17/29—Forceps for use in minimally invasive surgery
- A61B17/295—Forceps for use in minimally invasive surgery combined with cutting implements
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B17/00—Surgical instruments, devices or methods, e.g. tourniquets
- A61B17/32—Surgical cutting instruments
- A61B17/3205—Excision instruments
- A61B17/32053—Punch like cutting instruments, e.g. using a cylindrical or oval knife
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B17/00—Surgical instruments, devices or methods, e.g. tourniquets
- A61B17/32—Surgical cutting instruments
- A61B17/3205—Excision instruments
- A61B17/3207—Atherectomy devices working by cutting or abrading; Similar devices specially adapted for non-vascular obstructions
- A61B17/320758—Atherectomy devices working by cutting or abrading; Similar devices specially adapted for non-vascular obstructions with a rotating cutting instrument, e.g. motor driven
- A61B2017/320775—Morcellators, impeller or propeller like means
Definitions
- the present invention relates to a newly developed tissue excision and cutting apparatus and resection forceps for cutting off a part of human tissue as a sample piece for such a diagnosis in laparoscopic surgery or the like.
- a tissue excision and cutting apparatus for surgical operation has been -used together with a forceps and a laparoscope and various kinds of such related apparatuses have been proposed till up now.
- One example has a cylindrical resection blade rotated by a motor in a guide cylinder to be inserted into a trocar, and forceps for grasping an objective tissue inserted into the resection blade.
- FIGS. 20 a to 20 c show how to use the tissue excision and cutting apparatus of prior art and the forceps to be combined therewith.
- a tissue excision and cutting apparatus 101 as shown in FIG. 20 a , comprises a main body 103 with grip portion, a guide cylinder 102 a to be inserted into a trocar (not shown), and a resection blade 102 b with a blade at its tip end which is driven to be rotated in the guide cylinder 102 a by a motor (not shown).
- a forceps 104 to be combined with the tissue excision and cutting apparatus 101 in such a manner as shown in FIG. 20( a ) has a main axis 104 a with at its tip end a clamp 104 b which can be opened and closed by manual operation of one hand.
- tissue excision and cutting apparatus 101 while observing around the tip end of the tissue excision and cutting apparatus 101 inserted into the trocar by a laparoscope (not shown), a tissue A may be grasped by the clamp 104 b of the forceps 104 by approaching the forceps to the tissue A, after then the forceps 104 is withdrawn into the guide cylinder 102 a in the state of grasping tissue A to bring it into contact with the blade of rotating resection blade 102 b , by which a part of tissue A can be cut off as a sample piece (See FIGS. 20 a to 20 c ).
- FIG. 21 shows a tissue excision and cutting apparatus according to the prior art in which a forceps and a resection blade are integrated wherein FIG. 21 a illustrates a front view of its partial vertical section and FIG. 21 b its rear view.
- a tissue excision and cutting apparatus 111 comprises a tissue cutting resection blade 112 composed of a cylindrical blade 112 b and a guide cylinder 112 a , a main body 113 with a grip 113 a and holing portion 113 b for the forceps 114 , a forceps 114 itself, a forceps withdrawing mechanism 115 with a trigger 115 a for finger operation, a forceps open-close mechanism 116 with a finger operation part 116 a , and a motor 118 for rotating the blade 112 b.
- turning operational direction of the open-close finger operation part 116 a is shown as an arrow corresponding to open and close operations of the clamp 114 b wherein opening direction is shown as an actual line and closing direction is shown as a dotted line, whereas sequential pulling operation of the trigger 115 a is also shown by an arrow corresponding to with drawing operation of the forceps.
- tissue excision and cutting apparatus 111 According to such a tissue excision and cutting apparatus 111 , operating a laparoscope (not shown) by a left hand while observing objective tissue with the apparatus 111 held by a right hand, and advancing the forceps 114 to the objective tissue, where the open-close operation part 116 a is turned in a closing direction by a thumb C of the right B hand as shown in a dotted line in FIG. 21( b ), thus enabling to grasp the objective tissue by the clamp 114 b of the forceps 114 .
- the motor 118 is driven to rotate resection blade 112 b and the trigger 115 a is repeatedly operated by a forefinger D of the right hand B, thereby cutting off tissue A by the resection blade 112 b in cylindrical shape.
- the apparatus is so constructed that tissue thus grasped is prevented from dropping out even if the thumb C is departed from the open-close operation part 116 a.
- the forceps can be operated by a thumb C and retraction can be executed by a forefinger D, with its main body held only by one hand, thus enabling another hand to operate a laparoscope or the like.
- tissue is drawn into a guide cylinder and cut off therein while rotating a resection blade. Therefore, in such a method, tissue would not be sharply or finely cut off.
- tissue is apt to be torn off and partly broken when tissue is drawn into the guide cylinder to be cut off so that it makes difficult to surely and sharply cut off the tissue, or the part of tissue could not be cut off well.
- the present invention has proposed to solve the abovementioned problems.
- tissue excision and cutting apparatus which can finely and sharply cut off an objective tissue and a resection forceps to be used for the apparatus.
- the forceps has at its tip end a clamp for grasping a part of tissue which has a movable jaw capable of opening and closing and is joined to a fixed jaw vertically provided with a chopping block piece, an open-close mechanism with a hand operation part for opening and closing by manual operation, and a longitudinal penetrating passage into which the resection blade is inserted and moves back and forth therein.
- the tissue excision and cutting apparatus is constructed such that resection blade and the forceps are combined with when using it.
- the apparatus is characterized in that the penetrating passage of the forceps is constructed such that the resection blade is inserted into and moves back and forth therein and one of the clamp of the forceps is a fixed jaw provided at its chip end with a chopping block piece servicing as a stopper plate for the blade of resection blade.
- the chopping block piece functions as the so called chopping block for the blade of the resection blade, thereby enabling to cut off an objective tissue by pressing it in such manner as not in the prior pull-in-type tissue excision and cutting apparatus, thus any of tissues can be finely and surely cut off.
- tissue can be cut off not only by pressing on the resection blade a chopping block piece but also by shearing the resection blade and the chopping block piece.
- tissue can be sheared to be cut off by cylindrical shape, or the chopping block piece and the resection blade.
- a tissue excision and cutting apparatus used by inserted into a trocar for cutting off a part of tissue for sampling in laparoscopic surgery or the like comprises a resection blade with an inner hollow cylinder body having a cutting blade at its tip end, and a forceps for cutting off a part of tissue as a sample piece wherein the resection blade is capable of rotating by driving a rotary driving mechanism and the forceps has at its tip end a clamp for grasping a part of tissue to be cut off which has a movable jaw capable of opening and closing and is joined to a fixed jaw vertically provided with a chopping block piece, an open-close mechanism with a hand operation part for opening and closing by manual operation, and a longitudinal penetrating passage into which the resection blade is inserted and moves back and forth therein.
- the resection blade is capable of rotating by a rotary driving mechanism comprised of a motor by operating a switching means such a foot pedal or the like. Therefore, tissue can be cut off and sampled more smoothly.
- the hand operation part of the forceps is constructed such that it can be held by one hand and the movable jaw can be operated by the one hand. Therefore, the apparatus is very convenient for handling because forceps can be held and manually operated by one hand while the resection blade can be operated by another hand.
- a chopping block piece of the resection blade is formed with a blade receiving surface on which the whole circumference of the blade contacts.
- cut end of tissue by the resection blade can be done sharply and finely by pressing the blade of the resection blade onto the surface.
- a sealing mechanism for airtightly sealing the penetrating passage is further provided for isolating ventilation of the open air even when the forceps is inserted into the passage or is pulled out from the passage.
- the sealing valve mechanism is detachable and exchangeable for the penetrating passage.
- the resection blade further comprises a sealing rod for airtightly sealing the inner of the hollow cylinder body and a push shaft for outward extruding a part of tissue cut off and held in the hollow cylinder body as a sample piece which is airtightly inserted into the cylinder body from a push hole provided at the rear end of the sealing rod.
- the inner of the hollow cylinder body of the resection blade can be kept airtight by the sealing rod and the push rod so that the tissue cut off as a sample piece is prevented from dropping out from the hollow cylinder body even when the tip of the resection blade is directed downward for extracting the resection blade from the forceps.
- the cut off tissue held in the hollow cylinder body can be easily extruded by releasing the sealing and pushing the push shaft into the inner of the hollow cylinder after when the resection blade is moved to a predetermined place.
- the resection blade further comprises a sealing push rod airtightly inserted into the hollow cylinder body from an insertion opening provided at the rear end of the cylinder body, and a simple suction means which is connected to the sealing push rod for keeping the inner portion of the hollow cylinder body airtight to hold a part of tissue cut off by the resection blade.
- the cut off tissue as a sample piece held in the hollow cylinder body can be surely prevented from dropping out by effecting sucking force by means of the simple suction means. Further, the cut off tissue held in the hollow cylinder body can be easily extruded outward by releasing the sucking force and pushing a sealing push rod into the hollow cylinder body after moving to a predetermined place.
- the resection blade further comprises a sealing suction rod into which a sealing suction mechanism is incorporated and a push rod for outward extruding the tissue cut of f and held in the hollow cylinder body as a sample piece wherein the sealing suction rod airtightly seals the inner portion of the hollow cylinder and holds the tissue by keeping airtight, and the push rod is airtightly inserted in the hollow cylinder body from a push hole provided at the rear end of the sealing suction rod.
- the cut off tissue as a sample piece held in the hollow cylinder body can be surely prevented from dropping out by effecting sucking force by means of the simple suction means. Further, the cut of f tissue held in the hollow cylinder body can be easily extruded outward by releasing the sucking force and pushing a sealing push rod into the hollow cylinder body after moving to a predetermined place. In addition, it is more convenient to handle it because sealing suction rod and a sealing suction mechanism are incorporated into the resection blade together.
- the resection blade further comprises a suction sampling collecting means which is detachably connected to the rear end of the hollow cylinder body for sucking and collecting a part of tissue cut off as a sample piece by the resection blade.
- the suction sampling collecting means sucks to collect by effecting active suction force instead of keeping airtight in the hollow cylinder body, the cut off tissue can be easily and sequentially suck and collected in the sampling collecting means.
- a holding craw similar to thorn is provided in inner surface adjacent to the tip end of resection blade for preventing dropping out the tissue cut off as a sample piece by peripherally and partially holding it.
- a forceps used together with the present apparatus comprising a clamp provided at a tip end of the forceps and having a movable jaw capable of opening and closing which is joined to a fixed jaw provided with a chopping block piece, an open-close mechanism with a hand operation part for opening and closing the movable jaw, and a longitudinal penetrating passage into which the resection blade is inserted and moves back and forth therein.
- Such a forceps is the one used for the tissue excision and cutting apparatus of the present invention, and accordingly a part of tissue can be finely and surely cut off.
- any kinds of resection blade which are rotatable or not rotatable can be also employed and a chopping block piece may serve as the so called a cutting board.
- the operation part of the forceps is constructed such that it can be held by one hand and the movable jaw can be operated for opening and closing by manual operation of the one hand.
- the operation part of the forceps is constructed such that it can be held by one hand and the movable jaw can be operated by the one hand. Therefore, the apparatus is very convenient for handling because forceps can be held and manually operated by the same one hand while the resection blade can be operated by another hand.
- a chopping block piece of the resection blade is formed with a blade receiving surface on which the whole circumference of the blade contacts.
- a part of tissue grasping by the clamp can be sharply and finely cut off by pressing the blade of the resection blade onto the surface, by which a sample piece of tissue with a sharp cut end can be obtained.
- a sealing mechanism for airtightly sealing the penetrating passage is further provided for isolating ventilation of the open air even when the forceps is inserted into the passage or is pulled out from the passage.
- the sealing valve mechanism is detachable and exchangeable for the penetrating passage.
- FIG. 1 is a partially cutaway front view showing one embodiment of a tissue excision and cutting apparatus of the present invention.
- FIG. 2 is a perspective view of a clamp of a tissue excision and cutting apparatus of the present invention.
- FIG. 3( a ) is a partial cutaway front view when the clamp is opened according to a tissue excision and cutting apparatus of the present invention.
- FIG. 4( a ) is a vertical section when tissue is cut
- FIG. 4( b ) is a vertical section after tissue is cut.
- FIG. 5( a ) shows a vertical section when tissue is cut according to a tissue excision and cutting apparatus of the present invention.
- FIG. 5( b ) shows a vertical section after tissue is cut according to a tissue excision and cutting apparatus of the present invention.
- FIG. 7 is an explanatory view showing sampling procedure 2 for tissue sample by means of the tissue excision and cutting apparatus of the present invention.
- FIG. 8 is an explanatory view showing sampling procedure 3 for tissue sample by means of the tissue excision and cutting apparatus of the present invention.
- FIG. 10 is an explanatory view showing sampling procedure 5 for tissue sample by means of the tissue excision and cutting apparatus of the present invention.
- FIG. 11 is a partial cutaway front view showing one embodiment of a tissue excision and cutting apparatus of the present invention combined with a rotatable resection blade.
- FIG. 12( a ) is a front view of a partial vertical section according to a tissue excision and cutting apparatus of another embodiment of the present invention.
- FIG. 12( b ) is a fragmental view in the direction of the arrow X according to a tissue excision and cutting apparatus of another embodiment of the present invention.
- FIG. 13( a ) shows when the sealing mechanism is loaded according to a tissue excision and cutting apparatus of the present invention.
- FIG. 13( b ) shows after it is loaded
- FIG. 13( c ) shows when the resection blade or the rotatable resection blade is inserted according to a tissue excision and cutting apparatus of the present invention.
- FIG. 14( a ) is its front view according to a tissue excision and cutting apparatus of the present invention.
- FIG. 14( b ) is a partial vertical section according to a tissue excision and cutting apparatus of the present invention.
- FIG. 15 is an external front view of one embodiment of a rotatable resection blade provided with holding craw as shown in FIG. 14.
- FIG. 16( a ) is its front view according to a tissue excision and cutting apparatus of the present invention.
- FIG. 16( b ) is its partial vertical section according to a tissue excision and cutting apparatus of the present invention.
- FIG. 17 is a partial vertical section explaining operation of one embodiment of a sealing rod used for a resection blade or a rotatable resection blade of the present invention.
- FIG. 18( a ) is a partial vertical section before tissue is cut according to a tissue excision and cutting apparatus of the present invention.
- FIG. 18( b ) is a partial vertical section after tissue is cut according to a tissue excision and cutting apparatus of the present invention.
- FIG. 18( c ) is a partial vertical section when a tissue sample is suck and held according to a tissue excision and cutting apparatus of the present invention.
- FIG. 19( a ) to FIG. 19( f ) explain operation of a suction and sampling means used for a resection blade or a rotatable resection blade of the present invention.
- FIGS. 20 ( a ), ( b ), ( c ) show one usage of a tissue excision and cutting apparatus and a forceps of the prior art.
- FIG. 21( a ) is a front view of a partial vertical section a tissue excision and cutting apparatus integrated with a forceps according to the prior art.
- FIG. 21( b ) is its rear view of a tissue excision and cutting apparatus integrated with a forceps according to the prior art.
- FIG. 1 is a partially cutaway front view of one embodiment of a tissue excision and cutting apparatus of the present invention.
- a tissue excision and cutting apparatus comprises a resection blade 7 having an inner hollow cylinder body formed with a cutting blade 7 a at its tip end, and a forceps 6 for cutting off a part of tissue A as a sample piece.
- the forceps 6 has a clamp 3 for grasping a part of tissue A in which the clamp has a movable jaw 3 b capable of opening and closing joined to a fixed jaw 3 a with a chopping block piece 2 , an open-close mechanism 5 with an operation part 5 a for opening and closing the movable jaw 3 b , and a longitudinal penetrating passage 4 into which the resection blade 7 is inserted and moves back and forth therein.
- the chopping block piece 2 is a characteristic of the tissue excision and cutting apparatus 1 , is vertically provided at the fixed jaw 3 a in such manner it intercepts the penetration passage 4 as a stopper of the resection blade 7 to be inserted into the longitudinal penetrating passage 4 for cutting tissue A, and works as so called a cutting board.
- the fixed jaw 3 a is provided normally at one end of a forceps cylinder 4 a with the longitudinal penetrating passage 4 therein, and the movable jaw 3 b is joined to the fixed jaw 3 a by a hinge 3 c so as to be pivotally opened and closed.
- the fixed jaw 3 a , the movable jaw 3 b and the hinge 3 c construct the clamp 3 .
- the longitudinal penetrating passage 4 is constructed with a cylindrical body as the forceps cylinder 4 a and the open-close mechanism 5 , which will be also explained hereinafter, is provided in the forceps cylinder 4 a and on the opposite side of the fixed jaw 3 a in such a manner as to form the longitudinal penetrating passage 4 .
- the operation part 5 a for holding the tissue excision and cutting apparatus 1 by one hand and for opening and closing the movable jaw 3 b is provided at a back end of the open and close mechanism 5 in such a manner that it directs approximately normally to the longitudinal direction of the forceps cylinder 4 a.
- the resection blade 7 is comprised of a cylinder body 7 b formed with the cylindrical blade 7 a at its one end and a holding portion 7 c for holding the resection blade 7 at its periphery of the other end, and is so constructed as to contain cut off tissue as a sample piece Ac at its tip of the hollow cylinder.
- a sealing rod 8 for airtightly sealing the inner portion of hollow cylinder body and a push rod 9 for extruding the cut of f tissue as a sample piece Ac by being airtightly inserted into the hollow cylinder body from a push hole (not shown) provided at the back end of the sealing rod 8 .
- the sealing rod 8 and the push rod 9 are detachable on the resection blade 7 if necessary and they will be explained hereinafter.
- tissue A can be grasped with a clamp 3 only by closing operation of the operation part 5 a (solid line arrow in the figure) while holding the same part 5 a by one hand.
- tissue A can be grasped with a clamp 3 only by closing operation of the operation part 5 a (solid line arrow in the figure) while holding the same part 5 a by one hand.
- the chopping block piece 2 body provided at the tip of the fixed jaw 3 a serves as a chopping board, only a part of the objective tissue A held by the clamp 3 can be safely and surely cut off comparing to the apparatus such a prior type that the tissue is cut off while being drawn into a cylinder of the resection blade 7 .
- FIG. 2 is a perspective view of the clamp 3 of the tissue excision and cutting apparatus 1 .
- the repetition explanation will be omitted by adding same reference numerals to the parts already explained hereinafter.
- the fixed jaw 3 a is provided with an arch-like support body 3 ca constructing a hinge 3 c for supporting the movable jaw 3 b so as to be opened and closed.
- An escape hole of this arch form constructs the longitudinal penetrating passage 4 .
- a hinge hole (not shown) is provided at the upper projection of the support body 3 ca , a hinge pin 3 cb is inserted into the hole, and a hinge hole (not shown) provided at the open-close end of the movable jaw 3 b is outwardly engaged into the hinge pin 3 cb.
- the attachment method of the movable jaw 3 b on the fixed jaw 3 a so as to be opened and close isn't limited to the above-mentioned one which uses a hinge supporting with one rod.
- Other method wherein the movable jaw 3 b is connected to the fixed jaw 3 a with plural arms so as to form a parallelogram and the movable jaw 3 b is opened or closed always keeping parallel to the fixed jaw 3 a may be used.
- a link arm 3 ba is extended from the open-close end of the movable jaw 3 b so as to make a prescribed angle with the movable jaw 3 b , and a link hole (not shown) is provided at its tip and rotatably connected to a link member 5 b by a link pin 5 ba .
- the link member 5 b is further rotatably connected to a connecting rod 5 c connecting the operation part 5 a side and the clamp 3 side of the forceps cylinder 4 a and is provided with the escape hole constructing the longitudinal penetrating passage 4 .
- a hook 3 bb for preventing moving of the tissue to be held by biting into the tissue is provided at the tip opposite to the link arm 3 ba side of the movable jaw 3 b facing to the fixed jaw 3 a , however such a 3 bb hook isn't inevitable.
- the movable jaw 3 b is closed (a solid line arrow) when the connecting rod 5 c is moved rear (into a solid line arrow), the movable jaw 3 b is opened (a broken line arrow) when the connecting rod 5 c is moved near (into a broken line arrow).
- any of them are provided so as to assure the longitudinal penetrating passage 4 for forwarding the resection blade 7 to be attached with the chopping block piece 2 provided at the tip of the fixed jaw 3 a without being an obstacle. Further, the longitudinal penetrating passage 4 may assure insertion of the resection blade 7 and may be provided with an open end as mentioned above other than the forceps cylinder 4 a which is closed perpendicular to the longitudinal direction.
- a connection 3 aa is vertically connected with the fixed jaw 3 a , connects the forceps cylinder 4 a and the fixed jaw 3 a , and is provided with a support hole for inserting the connecting rod 5 c slidably.
- FIG. 3 shows performance of the operation part 5 a and the open-close mechanism 5 of the tissue excision and cutting apparatus 1 of the present invention.
- FIG. 3( a ) is a partial cutaway front view when the clamp 3 is opened and
- FIG. 3( b ) is a partial cutaway front view when it is closed.
- the connecting rod 5 c passes through the connection 3 aa and the upper part of the forceps cylinder 4 a assuring the longitudinal penetrating passage 4 , extends to the operation part 5 a side of the forceps cylinder 4 a , and is connected to a slide block 5 e.
- the slide block 5 e is contained in an operating mechanism case 5 d slidably fixed at the operation part 5 a side of the forceps cylinder 4 a and the back and forth movement of the slide block 5 e is transmitted to the clamp 3 side of the forceps cylinder 4 a via the connecting rod 5 c so that the link member 5 b is moved back and forth.
- the slide block 5 e is provided with a pair of link pins 5 f at both ends of peripheral and a pair of link plates 5 e connecting the operation part 5 a and the slide block 5 e are outwardly inserted into the link pins 5 g so as to be slidable.
- a slide long hole 5 da working as a guide of moving of the link pins 5 g accompanying with back and forth movement of the slide block 5 e is provided at a position corresponding to the link pins 5 g of the operation mechanism case 5 d so as to allow back and forth sliding of the slide block 5 e and prevent rotation of the slide block 5 e.
- a pair of link support pins 5 db are provided forward the operation mechanism case 5 d and a rear cover 5 h is provided at back end of the case 5 d.
- the operation part 5 a is comprised of a fixed operation part 5 aa fixedly provided for the operation mechanism case 5 d and a movable operation part 5 ab which can be opened or closed by rotating the link support pins 5 db of the case 5 d as a rotating rod against the fixed operation part 5 aa . Such rotation is accomplished by that a link support hole 5 ac provided for the movable operation part 5 ab is outwardly inserted in the pins 5 db of the case 5 d .
- a link support 5 ad associating to a link plate 5 f outwardly inserted in the link pins 5 g of the slide block 5 e and a finger stopper 5 ae for acting operating force of fingers in both open and close directions are provided for the movable operation part 5 ab.
- a link mechanism is constructed by the link pins 5 g of the slide block 5 e sliding back and forth in the operation mechanism case 5 d , the link plate 5 f , the link support 5 ad and the link support hole 5 ac of the removable operation part 5 ab , and the link support pin 5 db of the case 5 d .
- the movable operation part 5 ab of the operation part 5 a is opened or closed by such a link mechanism, the movable jaw 3 b of the clamp 3 can be opened or closed.
- the clamp 3 can be easily opened and closed by operating the operation part 5 a by one hand.
- an escape for providing the longitudinal penetrating passage 4 is formed at inside of any of the forceps cylinder 4 a , the slide block 5 e , attachment part of the link pins 5 g of the slide block 5 e , and the rear cover 5 h so that the resection blade 7 or the rotary blade, will be described hereinafter, can be inserted.
- FIG. 4 shows operation of one embodiment of a sealing rod and a push rod provided for the resection blade or the rotatable resection blade of the present invention.
- FIG. 4( a ) is a vertical section when tissue is cut and
- FIG. 4( b ) is a vertical section after tissue is cut.
- the resection blade 7 is constructed such that the rear end of the hollow and cylindrical main body 7 b provided with the blade 7 a at its tip is inserted in the hollow and cylindrical holding portion 7 c.
- the inner diameter of the main body 7 b isn't uniform.
- the main body 7 b is comprised of a standard inner diameter part 7 ba having the same inner diameter as the blade 7 a portion and an escape inner diameter part 7 bb having the inner diameter larger than the standard inner diameter part 7 ba .
- the standard inner diameter part 7 ba occupies almost the inside of the main body 7 b from the tip with the blade 7 a to the rear end and the escape inner diameter part 7 bb occupies only at a fixed distance from the rear end.
- These two inner diameter parts 7 ba and 7 bb are connected by a gently tapered part 7 bc.
- the inner diameter of the holding portion 7 c is tiered and comprised of an inserting hole 7 ca for tightly inserting the rear end of the main body 7 b and a guide hole 7 cb of which inner diameter is smaller than that of the inserting hole 7 ca and also is the same as or a little larger than the standard inner diameter part 7 ba of the main body 7 b .
- the resection blade 7 is constructed such that the rear end of the main body 7 b is inserted in the inserting hole 7 ca of the holding part 7 c so as to bump into the tiered portion of the inserting hole 7 ca and the guide hole 7 cb.
- the resection blade 7 can be held by the holding part 7 c and also sealing function of the sealing rod 8 can be brought out effectively as mentioned herein.
- the sealing rod 8 is inserted in the guide hole 7 cb of the holding part 7 c from the rear end of the resection blade 7 and is provided with an rod part 8 b having a little smaller external diameter than the inner diameter of the standard inner part 7 ba of the main body 7 b and a rib 8 a contacting the rear end of the holding part 7 c .
- the center of the sealing rod 8 is formed with a push hole 8 c for airtightly inserting the push rod 9 along the axial direction.
- An O-ring 8 d is provided at an appropriate portion of the external diameter of the rod part 8 b and has an sealing effect for the standard inner diameter part 7 ba and doesn't have an sealing effect for the escape inner diameter part 7 bb .
- the external diameter of the O-ring 8 d is larger than the inner diameter of the standard inner diameter part 7 ba and smaller than the inner diameter of the escape inner diameter part 7 bb.
- the O-ring 8 d is positioned in the escape inner diameter part 7 bb of the main body 7 b and sealing function between the O-ring 8 d and the escape inner diameter port 7 bb doesn't achieved in FIG. 4( a ). So, air in a hollow part 7 d in the resection blade 7 is allowed to be communicated outside from the sealing rod 8 side via the space between the standard inner diameter part 7 ba and a head 9 c of the push shaft 9 , the space between the standard inner diameter 7 ba , the escape inner diameter part 7 bb , the guide hole 7 cb of the holding portion 7 c and the rod part 8 b of the sealing rod 8 . Under such a condition, the resection blade 7 is pressed on the tissue so that the tissue sample Ac is taken in the hollow part 7 d of the resection blade 7 (see FIG. 4( b )).
- the O-ring 8 d is positioned in the standard inner diameter part 7 ba of the main body 7 b so that air in the hollow part 7 d of the resection blade 7 is sealed not to communicate outside from the sealing rod 8 side.
- the O-ring 8 d moves to the standard inner diameter part 7 ba from the escape inner diameter part 7 bb , it isn't damaged because it moves in the gently tapered part 7 bc.
- the hollow part 7 d of the resection blade 7 is covered with the tissue sample Ac at its tip so that the tissue sample Ac doesn't easily dropped off the resection blade 7 because negative pressure is applied on the hollow part 7 d when the sample Ac is going to be dropped from the resection blade 7 .
- O-rings 8 e , 8 f are provided for the forward and rear parts of the push hole 8 c penetrating the center of the rod part 8 b and the rib 8 a so that the push rod 9 can move back and forth while keeping airtight between the push hole 8 c and the rod portion 9 b of the push rod 9 inserted therein.
- the push rod 9 is comprised of the rod portion 9 b and a rib 9 a provided at its rear end and the head 9 c provided at its forward end.
- the external diameter of the head 9 c is a little smaller than the inner diameter of the hollow cylinder of the resection blade 7 .
- the head 9 c is detachable for the rod portion 9 b by an appropriate association means such as a screw and can be disassembled so that the push rod 9 is removed from the sealing rod 8 in case of sterilization.
- the sealing shaft 8 When cutting tissue, the sealing shaft 8 is inserted into the position where the O-ring 8 d of the sealing rod 8 allows communication with outside air and the push rod 9 is set at the position where enough space for containing the tissue to be cut is remained at the tip of the head 9 c.
- the sealing rod 8 is pushed in the resection blade 7 at the position where the O-ring 8 d of the sealing rod 8 keeps airtight and the push shaft 9 is remained at it is, as shown in FIG. 4( b ).
- the inside of the resection blade 7 is kept airtight by the tissue sample Ac, the O-ring 8 d of the sealing rod 8 , and the O-rings 8 e , 8 f of the push rod 9 as mentioned above.
- the resection blade 7 is retracted from the forceps 6 while containing the cut and obtained tissue sample Ac at its tip and is moved to a prepared sample tray with the contained side downward, the contained tissue sample Ac doesn't dropped from the resection blade 7 because of atmospheric pressure.
- the sealing rod 8 is positioned like FIG. 4( a ) and the contained tissue sample Ac is extruded by pushing the push rod 9 .
- tissue A can be surely cut and the cut and sampled tissue sample Ac can be collected safely and certainly.
- FIG. 5 shows operation of another embodiment of a sealing rod and a push rod used for a resection blade or a rotating resection blade of the present invention.
- FIG. 5( a ) shows a vertical section when tissue is cut and
- FIG. 5( b ) shows a vertical section after tissue is cut.
- a push shaft 11 has both functions of the sealing rod 8 and the push rod 9 in FIG. 4 and a sealing rod 10 only has an auxiliary function to seal or allow communication with outside air.
- the shape of the push rod 11 is almost the same as the push rod 9 in FIG. 4 and is comprised of a rib 11 a , an rod part 11 b and a head 11 c .
- an O-ring lid for keeping airtight with the inner diameter of the hollow cylinder of the resection blade 7 is provided for the head lic and an air vent hole 11 e penetrating the center of the push rod 11 is provided.
- the sealing rod 10 is used for sealing the air vent hole lie of the push rod 11 .
- the sealing rod 10 When the sealing rod 10 is inserted in the air vent hole lie of the push rod 11 after cutting tissue (FIG. 5( b )), the air vent hole 11 e is sealed so that the cut and sampled tissue sample Ac doesn't drop from the contained portion even if the resection blade 7 is extracted and moved as explained for FIG. 4( b ).
- the push shaft 11 When the push shaft 11 is further pushed after being moved at a predetermined position, the tissue sample Ac is extruded from the tip of the resection blade 7 by air pressure between the tissue sample Ac and the head 11 c of the push rod 11 which are kept airtight.
- tissue A can be surely cut and the cut and sampled tissue sample Ac can be collected safely and certainly.
- the construction members of the above-mentioned clamp 3 comprised of the chopping block piece 2 , the fixed jaw 3 a , and the movable jaw 3 b , the forceps cylinder 4 a having the penetrating passage 4 , the open-close mechanism 5 , the operation part 5 a and the resection blade 7 are made of material excellent for sterilization and chemical proof, they are appropriate for surgical instruments because they can be easily sterilized such as autoclave sterilization after used.
- the clamp 3 , the forceps cylinder 4 a , members of the open-close mechanism 5 , and the resection blade 7 are preferably made of stainless steel and the O-ring for sealing is made of silicon rubber.
- FIG. 6 to FIG. 10 explain the procedure at five stages.
- an inserting instrument F for inserting an endo-bag E in abdominal cavity H and a trocar T are set at a trocar site J of patient's abdomen I.
- the endo-bag E is already inserted in the abdominal cavity H by the inserting instrument F, is expanded and contains the extracted organ A, an opening of the endo bag E is taken out of the trocar site F, the trocar T is inserted into the trocar site J, sterilized distilled water is injected into a trocar cuff TA provided for the trocar T so as to be expanded, and sealing between the trocar site J and the trocar T is kept.
- the auxiliary opening for the endo-bag E is set at the inserting instrument F and a laparoscope G is inserted in the auxiliary opening so as to observe inside of the endo-bag E.
- the forceps 6 is inserted into the trocar T and the organ A is grasped by operating the operation part 5 a of the forceps 6 while confirming the position of the organ A by the laparoscope G.
- the resection blade 7 is inserted into the longitudinal penetrating passage 4 of the forceps 6 .
- the forceps 6 is held by one hand while grasping the organ A and the resection blade 7 can be easily inserted by holding the holding portion 7 c by another hand.
- the sealing rod 8 with the push rod 9 is prepared for the resection blade 7 in such a manner that the resection blade 7 is allowed to be communicated with the air from the sealing rod 8 as shown in FIG. 4( a ).
- the tissue which is grasped by the clamp 3 and received by the chopping block piece 2 is finely and surely cut while the resection blade 7 is rotated right or left by a hand if necessary.
- the cut end is pressed and cut by the blade 7 a of the resection blade 7 and the chopping block piece 2 or is sheared and cut by the blade 7 a and a receiving blade (not shown) provided at the chopping block piece 2 depending on the shape of the blade 7 a .
- the resection blade 7 is guarded with the clamp 3 so that tissue can be safely cut without damaging the endo-bag E by the blade 7 a of the resection blade 7 is extruded.
- the sealing rod 8 is fully inserted in the resection blade 7 and the resection blade 7 is extracted from the forceps 6 while sealing the hollow cylinder containing the cut tissue sample Ac.
- the extracted resection blade 7 is moved to a sample tray K, the position of the sealing rod 8 is returned to where communication with outside air is allowed, then the tissue sample Ac contained at the tip in the hollow cylinder of the resection blade 7 .
- the tissue can be surely cut and the sampled tissue sample can be certainly moved to a prepared position.
- Such an organ for cutting and sampling tissue thereof is generally attacked by malignant in many cases so that it is highly required to prevent that a part of the organ is leaked out of the endo-bag E, the endo-bag E itself is damaged, or the other normal organ is damaged or broken.
- the blade 7 a is constructed so as not to go forward the chopping block piece 2 so that such a danger isn't caused.
- FIG. 11 is a partial cutaway front view showing one embodiment of the forceps of the present invention combined with the rotatable resection blade.
- a tissue excision and cutting apparatus 1 A is different from the apparatus 1 in that a resection blade is a rotatable resection blade 12 .
- the rotatable resection blade 12 includes a guide cylinder 13 a containing the rotatable resection blade 12 rotatably, a warm mechanism 13 b with a warm and a warm wheel for driving and rotating the resection blade 12 , and a driving and rotating mechanism 13 containing a mechanism for transmitting rotating power to the warm mechanism 13 b and comprised of a transmission part 13 c which can be a holding part of the resection blade 12 and a motor 13 d as a drive source.
- the driving and rotating mechanism 13 is provided with a controller such as a foot controller (not shown) for controlling on or off of driving and its rotation number so that rotation of the rotatable resection blade 12 can be controlled freely while operating the forceps 6 by one hand and grasping a transmission part 13 c of the blade 12 by another hand.
- a controller such as a foot controller (not shown) for controlling on or off of driving and its rotation number so that rotation of the rotatable resection blade 12 can be controlled freely while operating the forceps 6 by one hand and grasping a transmission part 13 c of the blade 12 by another hand.
- the tissue excision and cutting apparatus 1 A the tissue A which is grasped by the clamp 3 and received by the chopping block piece 2 like a cutting board can be finely cut.
- the warm mechanism 13 b is shown as one sample of the transmission mechanism for transmitting the rotational movement into perpendicular direction and the present invention isn't limited by such a warm mechanism 13 b .
- a mechanism combined with a bevel wheel may be used if the rotational movement is transmitted perpendicular.
- the driving and rotating mechanism 13 isn't limited to the above-mentioned one if the hollow cylindrical part is assured in the resection blade.
- a direct drive electric motor comprising the rotary blade itself as a rotor thereof may be used and in such a case the above-mentioned warm mechanism isn't required.
- the resection blade which is used together with the forceps comprising the tissue excision and cutting apparatus of the present invention may be rotated or not rotated. Further any resection blade can be combined if the cutting board function of the chopping block piece of the resection blade can be effectively utilized. Therefore, the forceps alone is available for a resection forceps 6 A (FIG. 1) and in such a case it can execute cutting operation more finely and surely cooperating with the combined resection blade.
- FIG. 12 shows another embodiment of the forceps of the tissue excision and cutting apparatus of the present invention.
- FIG. 12( a ) is a front view of a partial vertical section and
- FIG. 12( b ) is a fragmental view in the direction of the arrow X.
- FIG. 12( b ) is explained.
- the resection blade which is contacted with the chopping block piece 2 or the blade 7 a of the rotatable resection blade is virtually shown by dotted lines.
- the forceps 6 is constructed such that the size of the chopping block piece 2 provided at the tip of the fixed jaw 3 is designed to be contacted with the whole circumference of the blade 7 a of the resection blade or the rotatable resection blade which is inserted in the longitudinal penetrating passage 4 of the forceps 6 , as shown in the figure. Therefore, the chopping block piece 2 can be effected as a cutting board for any parts of the blade 7 a and cutting end of tissue can be completely done so that the tissue sample can be completely cut and separated.
- the virtual lines of the blade 7 a almost correspond to the shape of the longitudinal penetrating passage 4 and the above-mentioned effect can be expected for the resection blade or the rotatable resection blade which can be inserted in the penetration passage 4 .
- FIG. 12( a ) the forceps 6 is detachably provided with a sealing mechanism 5 i at the end of the open-close mechanism 5 .
- FIG. 13 is a partial vertical section explaining its sealing mechanism and FIG. 13( a ) shows when the sealing mechanism is loaded, FIG. 13( b ) shows after it is loaded, and FIG. 13( c ) shows when the resection blade or the rotatable resection blade is inserted.
- the sealing mechanism 5 i is comprised of a sealing body 5 ia , a sealing ring 5 ib , a presser board 5 ic , a sealing plate 5 id , a spring 5 ie , a setscrew 5 if , an auxiliary ring 5 ig , and an O-ring 5 ih.
- the sealing ring 5 ib is provided opposite to the inserted side of the open-close mechanism 5 with the sealing body 5 ia and is fixed with the presser board 5 ic .
- the sealing body 5 ia is like a circular disc with a hole made of rubber and the diameter of the hole is a little smaller than that of the longitudinal penetrating passage 4 . When the resection blade is inserted in the hole, the hole is designed to seal its external diameter.
- the seal plate 5 id is enforced by the spring 5 ie so as to open and close the hole provided at the intermediate part of the seal body 5 ia in axial direction.
- the setscrew 5 if is provided at the rear end of the open-close mechanism 5 for fixing and holding the detachably inserted seal body 5 ia.
- the auxiliary ring 5 ig is provided at the position which is the rear end of the forceps inner cylinder 4 b comprising a double cylinder in the forceps cylinder 4 a and also the seal body 5 ia is contacted and it is formed with a groove for containing the O-ring 5 ih .
- the O-ring 5 ih is designed to keep sealing between the seal body 5 ia and the forceps inner cylinder 4 b when the seal body 5 ia is inserted in the rear end of the open-close mechanism 5 .
- the inner diameter part of the forceps inner cylinder 4 b is formed the longitudinal penetrating passage 4 .
- the sealing mechanism 5 i is constructed such that the seal body 5 ia having the seal ring 5 ib and the sealing plate 5 id is detachably inserted into the rear end of the open-close mechanism 5 as shown in FIG. 13( a ) and the mechanism 5 i is fixed by the setscrew 5 if as shown in FIG. 13( b ), thereby exerting its function.
- the longitudinal penetrating passage 4 is kept sealed whenever the resection blade is inserted or not so that outer air is prevented from entering in abdominal cavity and the endo-bag through the longitudinal penetrating passage 4 or especially pneumoperitoneum gas is prevented from leaking out while being filled in the endo-bag.
- seal body 5 ia is exchangeable, it can be exchanged when polluted, thereby keeping safety without executing troublesome sterilization.
- FIG. 14 shows one embodiment of a holding craw provided at the internal tip of the resection blade or the rotatable resection blade.
- FIG. 14( a ) is its front view and Fib.
- 14 ( b ) is a partial vertical section.
- a holding craw 7 e provided at an inner circumference of the blade 7 a of the resection blade 7 is the same one which is used for preventing dropping out of fish after hooked by a fishhook and is one of drop-out prevention methods of the sampled tissue sample.
- the blade 7 a is made of stainless steel capable of hardening, for example SUS440C, for keeping sharpness of the blade. It is different from the material used for the resection blade body 7 b such as titanium or stainless steel of SUS304. Therefore, the blade 7 a is integrated with the body 7 b by a tight insertion of an insertion integration part 7 g after appropriate procedures such as sharpening and hardening of the blade 7 a are executed.
- the holding craw is formed circumferential, it is excellent for drop-out prevention, however, contrarily the cut tissue sample which has been cut into cylindrical by the tip blade and fed in the inmost recesses of the resection blade 7 in turn is prevented from being fed into further inmost recess.
- the holding craws are appropriately positioned not far from the tip of the blade 7 a in the blade axis direction, more concretely, where the shortest one of the usually formed cylindrical tissue samples can be hooked. Further, the holding craws may be provided in a line as shown in the figure, however they may be provided in plural lines at different positions from the tip in the direction of the blade axis by differing circumferential position or at the same circumferential position.
- Such a holding craw may be similarly provided for the rotatable resection blade 12 (FIG. 11) and such a case is shown as the parenthetic numerals in the figures such as a rotatable resection blade 12 , a blade 12 a , a body 12 b , a holding craw 12 e.
- FIG. 15 is an external front view of one embodiment of a rotatable resection blade provided with holding craw 12 e as shown in FIG. 14.
- the holding craw 12 e can be similarly provided for a rotatable resection blade and have the same effect.
- FIG. 16 shows another embodiment of a holding craw provided inside tip of a resection blade or a rotatable resection blade of the present invention.
- FIG. 16( a ) is its front view and
- FIG. 16( b ) is its partial vertical section.
- Both of the holding craw 7 e and 7 f may be provided.
- FIG. 17 is a partial vertical section explaining operation of one embodiment of a sealing rod used for a resection blade or a rotatable resection blade of the present invention.
- the sealing push rod 8 A is constructed like the push rod 11 in FIG. 5 and they are different in that the sealing push rod 8 A is provided with a simple suction means 8 g actively generating suction force in place of the sealing rod 10 , the simple suction means 8 g is one embodiment of a suction means of the cut and sampled tissue sample.
- the sealing push rod 8 A itself is constructed with a rib 8 A a , an rod part 8 A b , a head 8 A c , an O-ring 8 A d , and an air vent hole 8 A e like the push rod 11 in FIG. 5 and they work like those for the push rod 11 .
- the simple suction means 8 g detachably provided for the air vent hole 8 A e instead of the sealing rod 10 is comprised of a syringe 8 ga , a switch valve 8 gb , and a tube 8 gc.
- the simple suction means 8 g isn't loaded before the sealing rod 8 A is inserted in the resection blade 7 and it cuts and samples tissue so as not to disturb cutting and sampling of tissue by allowing communication of air from the air vent hole 8 A e.
- the simple suction means 8 g is loaded after the tissue sample Ac is sampled, the switch valve 8 gb is opened, and suction force is generated by operating the syringe 8 ga so as to actively suck the sampled tissue sample Ac not to be dropped out.
- the contained tissue sample Ac may be extruded by generating pressure force by operating the syringe 8 ga of the simple such means 8 g , or it may be extruded only by the operation of the sealing push rod 8 A after removing the simple suction means 8 g.
- the switch valve 8 gb may be closed after sucking with the syringe 8 ga to keep suction force. When it can be replaced by the operation of the syringe 8 ga , the switch valve 8 gb isn't always required.
- FIG. 18 explains operation of another embodiment of a sealing rod and a push rod used for a resection blade or a rotatable resection blade of the present invention.
- FIG. 18( a ) is a partial vertical section before tissue is cut
- FIG. 18( b ) is a partial vertical section after tissue is cut
- FIG. 18( c ) is a partial vertical section when a tissue sample is suck and held.
- a sealing suction rod 8 B and a push rod 9 A are the same as the sealing rod 8 and the push rod 9 in FIG. 4. However, a sealing suction mechanism 8 h is provided for the sealing suction rod 8 B.
- the push rod 9 A and a resection blade 7 A are a little different from those in FIG. 4.
- the sealing suction rod 8 B and the push rod 9 A are another embodiment of the suction means of cut and sampled tissue sample.
- the resection blade 7 A is different from the resection blade 7 in FIG. 4 in that a container 7 A e containing the sealing suction mechanism 8 h is included in a holding portion 7 A c corresponding to the sealing suction rod 8 B provided with the sealing suction mechanism 8 h . It also different in that a part connected from the container 7 A e to the hollow 7 A d in the resection blade 7 A is a sealing tapered part 7 A f .
- a blade 7 A a , a body 7 A b , the holding portion 7 A c and the hollow 7 A d are the same as those of the resection blade 7 .
- a rib 8 B a , an rod part 8 B b , and a push hole 8 B c of the sealing suction rod 8 B are almost the same as those of the sealing rod 8 . It is different in that a piston flange 8 he to be contained in the sealing suction mechanism 8 h is provided at the tip of the rod part 8 B b.
- the push rod 9 A is comprised of a rib 9 A a , an rod part 9 A b , and a head 9 A c like those of the push rod 9 in FIG. 4.
- the push hole 8 B c of the sealing suction rod 8 B, the spring 8 hf and the sealing cylinder 8 ha of the sealing suction mechanism 8 h are penetrated by the rod part 9 A b and the push hole 8 B c and the sealing cylinder 8 ha are sealed by an appropriate sealing means such as an O-ring so as to be slidable keeping airtight.
- the holding portion 7 A c of the resection blade 7 A is constructed such that the container 7 A e can be opened, the sealing cylinder 8 ha of the sealing suction mechanism 8 h is constructed so as to be able to open the inner chamber 8 hb , and the head 9 A c of the push rod 9 A is constructed detachable. As shown in the figure they can be disassembled after assembled and used.
- Sealing and suction can be achieved and the cut and sampled tissue sample Ac can be easily suck and grasped simply by pushing the sealing suction rod 8 B from a free condition L 1 to the distances L 2 and L 3 .
- the sealing suction rod 8 B can be returned to its original free position L 1 by the force of repulsion of the springs 8 hf , 8 hg only by releasing pushing of the sealing suction rod 8 B. Then the tissue sample Ac can be easily extruded by operating the push rod 9 A.
- FIG. 19( a )-FIG. 19( f ) explain operation of a suction and sampling means used for a resection blade or a rotatable resection blade of the present invention.
- This suction and sampling means 14 is provided for actively collecting the tissue sample cut and sampled by the resection blade in a sample container not only by sucking and grasping but also by utilizing air suction force. It is another embodiment of a suction means of tissue sample.
- the suction and sampling means 14 is comprised of a sample container 14 a which is a bag made of mesh material for passing suction force and provided with an attachment opening, a connecting means 14 b for connecting the sample container 14 a and a connecting part 7 B a at the rear of a resection blade 7 B, and a cover 14 c provided for the connecting means 14 b and covering the sample container 14 a fully for keeping airtight.
- the resection blade 7 B connected with the suction and sampling means 14 is different from the above-mentioned resection blade 7 , 7 B in that it is provided with the connecting part 7 B a at its rear end.
- a connecting groove 7 B b is provided for the connecting part 7 B a for fixing the connecting means 14 b of the suction and sampling means 14 and a connecting pin 14 ba is vertically provided for the connecting means 14 b to be inserted in the groove 7 B b.
- the suction and sampling means 14 When the suction and sampling means 14 is used, at first the connecting means 14 b is set for the sample holder 14 a (FIGS. 19 ( a ), ( b )), then the cover 14 c is covered (FIG. 19( c )), and the assembled suction and sampling means 14 is connected and fixed to the connecting part 7 B a of the resection blade 7 B by utilizing association of the connecting pin 14 ba and the connecting groove 7 B b (FIG. 19( d )).
- suction force is supplied to the suction and sampling means 14 from an suction air source (not shown) and the tissue sample cut and sampled by the resection blade 7 B is suck and collected (FIG. 19( e )). This suction and collection may be repeated until a purpose is accomplished more than one time.
- the suction and sampling means 14 is removed from the resection blade 7 B and disassembled.
- the tissue sample collected in the sample container 14 a is taken out at a predetermined place (FIG. 19( f )).
- tissue samples taken out several times can be easily collected and taken out in bulk.
- This suction and sampling means can be used for a rotatable resection blade.
- Both of the above-mentioned holding craw and several suction means for preventing dropping out of tissue sample can be applied for a resection blade or a rotatable resection blade. In such a case both effects can be synergistically brought out.
Abstract
A tissue excision and cutting apparatus used by inserted into a trocar for cutting off a part of tissue as a sample piece for such a diagnosis in a laparoscopic surgery or the like. The apparatus comprises a resection blade having an inner hollow cylinder with a cutting blade at its tip end, and a forceps having at its tip end a clamp having a movable jaw capable of opening and closing which is joined to a fixed jaw with a chopping block piece, open-close mechanism having an operation part for opening and closing the movable jaw, and a longitudinal penetrating passage into which the resection blade is inserted and moves back and forth therein.
Description
- The present invention relates to a newly developed tissue excision and cutting apparatus and resection forceps for cutting off a part of human tissue as a sample piece for such a diagnosis in laparoscopic surgery or the like.
- A tissue excision and cutting apparatus for surgical operation has been -used together with a forceps and a laparoscope and various kinds of such related apparatuses have been proposed till up now.
- One example has a cylindrical resection blade rotated by a motor in a guide cylinder to be inserted into a trocar, and forceps for grasping an objective tissue inserted into the resection blade.
- FIGS. 20a to 20 c show how to use the tissue excision and cutting apparatus of prior art and the forceps to be combined therewith.
- A tissue excision and cutting
apparatus 101, as shown in FIG. 20a, comprises amain body 103 with grip portion, aguide cylinder 102 a to be inserted into a trocar (not shown), and aresection blade 102 b with a blade at its tip end which is driven to be rotated in theguide cylinder 102 a by a motor (not shown). - On the other hand, a
forceps 104 to be combined with the tissue excision and cuttingapparatus 101 in such a manner as shown in FIG. 20(a) has a main axis 104 a with at its tip end aclamp 104 b which can be opened and closed by manual operation of one hand. - According to such a tissue excision and cutting
apparatus 101, while observing around the tip end of the tissue excision and cuttingapparatus 101 inserted into the trocar by a laparoscope (not shown), a tissue A may be grasped by theclamp 104 b of theforceps 104 by approaching the forceps to the tissue A, after then theforceps 104 is withdrawn into theguide cylinder 102 a in the state of grasping tissue A to bring it into contact with the blade of rotatingresection blade 102 b, by which a part of tissue A can be cut off as a sample piece (See FIGS. 20a to 20 c). - FIG. 21 shows a tissue excision and cutting apparatus according to the prior art in which a forceps and a resection blade are integrated wherein FIG. 21a illustrates a front view of its partial vertical section and FIG. 21b its rear view.
- A tissue excision and
cutting apparatus 111, as shown in these figures, comprises a tissuecutting resection blade 112 composed of acylindrical blade 112 b and aguide cylinder 112 a, amain body 113 with agrip 113 a and holingportion 113 b for theforceps 114, aforceps 114 itself, aforceps withdrawing mechanism 115 with a trigger 115 a for finger operation, a forceps open-close mechanism 116 with a finger operation part 116 a, and amotor 118 for rotating theblade 112 b. - In this figure, turning operational direction of the open-close finger operation part116 a is shown as an arrow corresponding to open and close operations of the clamp 114 b wherein opening direction is shown as an actual line and closing direction is shown as a dotted line, whereas sequential pulling operation of the trigger 115 a is also shown by an arrow corresponding to with drawing operation of the forceps.
- According to such a tissue excision and cutting
apparatus 111, operating a laparoscope (not shown) by a left hand while observing objective tissue with theapparatus 111 held by a right hand, and advancing theforceps 114 to the objective tissue, where the open-close operation part 116 a is turned in a closing direction by a thumb C of the right B hand as shown in a dotted line in FIG. 21(b), thus enabling to grasp the objective tissue by the clamp 114 b of theforceps 114. - After grasping the tissue A, the
motor 118 is driven to rotateresection blade 112 b and the trigger 115 a is repeatedly operated by a forefinger D of the right hand B, thereby cutting off tissue A by theresection blade 112 b in cylindrical shape. And the apparatus is so constructed that tissue thus grasped is prevented from dropping out even if the thumb C is departed from the open-close operation part 116 a. - According to the tissue excision and cutting
apparatus 111 described above, comparing to the one shown in FIG. 20, the forceps can be operated by a thumb C and retraction can be executed by a forefinger D, with its main body held only by one hand, thus enabling another hand to operate a laparoscope or the like. - In any of above-mentioned tissue excision and cutting apparatus of the prior art, tissue is drawn into a guide cylinder and cut off therein while rotating a resection blade. Therefore, in such a method, tissue would not be sharply or finely cut off.
- In other words, in such a method tissue is apt to be torn off and partly broken when tissue is drawn into the guide cylinder to be cut off so that it makes difficult to surely and sharply cut off the tissue, or the part of tissue could not be cut off well.
- In addition, in such a prior tissue excision and cutting apparatus, the resection blade is exposed from a guide cylinder when tissue is cut off. Therefore, there would be a fear that organ not to be cut off or an end-bag (explained hereinafter referring to FIG. 6 to FIG. 9) used for laparoscopic surgery happens to be damaged.
- The present invention has proposed to solve the abovementioned problems.
- Accordingly, it is the primary object of the invention to provide a tissue excision and cutting apparatus which can finely and sharply cut off an objective tissue and a resection forceps to be used for the apparatus.
- It is another object to provide a tissue excision and cutting apparatus which doesn't have such a fear and a forceps used for the apparatus.
- In the present invention, a tissue excision and cutting apparatus used by inserted into a trocar for cutting off a part of tissue for sampling in laparoscopic surgery or the like comprises a resection blade with an inner hollow cylinder body having a cutting blade at its tip end, and a forceps for cutting off a part of tissue to be cut off as a sample piece.
- The forceps has at its tip end a clamp for grasping a part of tissue which has a movable jaw capable of opening and closing and is joined to a fixed jaw vertically provided with a chopping block piece, an open-close mechanism with a hand operation part for opening and closing by manual operation, and a longitudinal penetrating passage into which the resection blade is inserted and moves back and forth therein.
- The tissue excision and cutting apparatus is constructed such that resection blade and the forceps are combined with when using it.
- The apparatus is characterized in that the penetrating passage of the forceps is constructed such that the resection blade is inserted into and moves back and forth therein and one of the clamp of the forceps is a fixed jaw provided at its chip end with a chopping block piece servicing as a stopper plate for the blade of resection blade. The chopping block piece functions as the so called chopping block for the blade of the resection blade, thereby enabling to cut off an objective tissue by pressing it in such manner as not in the prior pull-in-type tissue excision and cutting apparatus, thus any of tissues can be finely and surely cut off.
- In addition, in the apparatus, other organ or an endo-bag isn't damaged because the resection blade is contained and hidden in the clamp of the forceps, thereby achieving safety.
- If the shape of a part where the resection blade is contacted is contrived, tissue can be cut off not only by pressing on the resection blade a chopping block piece but also by shearing the resection blade and the chopping block piece. For example, when the chopping block piece is normally formed as such cylindrical shape that it has an inner diameter in which the outer diameter of cylindrical blade of the resection blade is just engaged, tissue can be sheared to be cut off by cylindrical shape, or the chopping block piece and the resection blade.
- In other embodiment of the present invention, a tissue excision and cutting apparatus used by inserted into a trocar for cutting off a part of tissue for sampling in laparoscopic surgery or the like comprises a resection blade with an inner hollow cylinder body having a cutting blade at its tip end, and a forceps for cutting off a part of tissue as a sample piece wherein the resection blade is capable of rotating by driving a rotary driving mechanism and the forceps has at its tip end a clamp for grasping a part of tissue to be cut off which has a movable jaw capable of opening and closing and is joined to a fixed jaw vertically provided with a chopping block piece, an open-close mechanism with a hand operation part for opening and closing by manual operation, and a longitudinal penetrating passage into which the resection blade is inserted and moves back and forth therein.
- According to such a tissue excision and cutting apparatus, the resection blade is capable of rotating by a rotary driving mechanism comprised of a motor by operating a switching means such a foot pedal or the like. Therefore, tissue can be cut off and sampled more smoothly.
- Further in another tissue excision and cutting apparatus of the present invention, the hand operation part of the forceps is constructed such that it can be held by one hand and the movable jaw can be operated by the one hand. Therefore, the apparatus is very convenient for handling because forceps can be held and manually operated by one hand while the resection blade can be operated by another hand.
- Further in other embodiment of the present invention, a chopping block piece of the resection blade is formed with a blade receiving surface on which the whole circumference of the blade contacts.
- According to such construction, cut end of tissue by the resection blade can be done sharply and finely by pressing the blade of the resection blade onto the surface.
- In still another embodiment of the invention, a sealing mechanism for airtightly sealing the penetrating passage is further provided for isolating ventilation of the open air even when the forceps is inserted into the passage or is pulled out from the passage.
- According to such construction, outer air is prevented from entering in abdominal cavity or the endo-bag through the penetrating passage or especially pneumoperitoneum gas is prevented from leaking out when being filled in the endo-bag.
- In other embodiment of the invention, the sealing valve mechanism is detachable and exchangeable for the penetrating passage.
- Therefore, used it is very useful for preventing contamination or contagion since it can be easily exchanged every time the forceps is used.
- In still other embodiment of the invention, the resection blade further comprises a sealing rod for airtightly sealing the inner of the hollow cylinder body and a push shaft for outward extruding a part of tissue cut off and held in the hollow cylinder body as a sample piece which is airtightly inserted into the cylinder body from a push hole provided at the rear end of the sealing rod.
- According to such tissue excision and cutting apparatus, the inner of the hollow cylinder body of the resection blade can be kept airtight by the sealing rod and the push rod so that the tissue cut off as a sample piece is prevented from dropping out from the hollow cylinder body even when the tip of the resection blade is directed downward for extracting the resection blade from the forceps. And the cut off tissue held in the hollow cylinder body can be easily extruded by releasing the sealing and pushing the push shaft into the inner of the hollow cylinder after when the resection blade is moved to a predetermined place.
- In other embodiment of the invention, the resection blade further comprises a sealing push rod airtightly inserted into the hollow cylinder body from an insertion opening provided at the rear end of the cylinder body, and a simple suction means which is connected to the sealing push rod for keeping the inner portion of the hollow cylinder body airtight to hold a part of tissue cut off by the resection blade.
- According to such tissue excision and cutting apparatus, the cut off tissue as a sample piece held in the hollow cylinder body can be surely prevented from dropping out by effecting sucking force by means of the simple suction means. Further, the cut off tissue held in the hollow cylinder body can be easily extruded outward by releasing the sucking force and pushing a sealing push rod into the hollow cylinder body after moving to a predetermined place.
- In still further other embodiment of the tissue excision and cutting apparatus, the resection blade further comprises a sealing suction rod into which a sealing suction mechanism is incorporated and a push rod for outward extruding the tissue cut of f and held in the hollow cylinder body as a sample piece wherein the sealing suction rod airtightly seals the inner portion of the hollow cylinder and holds the tissue by keeping airtight, and the push rod is airtightly inserted in the hollow cylinder body from a push hole provided at the rear end of the sealing suction rod.
- According to such tissue excision and cutting apparatus, the cut off tissue as a sample piece held in the hollow cylinder body can be surely prevented from dropping out by effecting sucking force by means of the simple suction means. Further, the cut of f tissue held in the hollow cylinder body can be easily extruded outward by releasing the sucking force and pushing a sealing push rod into the hollow cylinder body after moving to a predetermined place. In addition, it is more convenient to handle it because sealing suction rod and a sealing suction mechanism are incorporated into the resection blade together.
- In other embodiment of the tissue excision and cutting apparatus, the resection blade further comprises a suction sampling collecting means which is detachably connected to the rear end of the hollow cylinder body for sucking and collecting a part of tissue cut off as a sample piece by the resection blade.
- According to such a tissue excision and cutting apparatus, since the suction sampling collecting means sucks to collect by effecting active suction force instead of keeping airtight in the hollow cylinder body, the cut off tissue can be easily and sequentially suck and collected in the sampling collecting means.
- In other embodiment of the tissue excision and cutting apparatus, a holding craw similar to thorn is provided in inner surface adjacent to the tip end of resection blade for preventing dropping out the tissue cut off as a sample piece by peripherally and partially holding it.
- In the present invention, a forceps used together with the present apparatus has been also proposed, wherein the forceps comprises a clamp provided at a tip end of the forceps and having a movable jaw capable of opening and closing which is joined to a fixed jaw provided with a chopping block piece, an open-close mechanism with a hand operation part for opening and closing the movable jaw, and a longitudinal penetrating passage into which the resection blade is inserted and moves back and forth therein.
- Such a forceps is the one used for the tissue excision and cutting apparatus of the present invention, and accordingly a part of tissue can be finely and surely cut off.
- When such a forceps is used, any kinds of resection blade which are rotatable or not rotatable can be also employed and a chopping block piece may serve as the so called a cutting board.
- According to other embodiment of the forceps, the operation part of the forceps is constructed such that it can be held by one hand and the movable jaw can be operated for opening and closing by manual operation of the one hand.
- Further in another tissue excision and cutting apparatus of the present invention, the operation part of the forceps is constructed such that it can be held by one hand and the movable jaw can be operated by the one hand. Therefore, the apparatus is very convenient for handling because forceps can be held and manually operated by the same one hand while the resection blade can be operated by another hand.
- Therefore, it is easy and convenient to handle such a forceps because it can be opened and closed and held the same one hand with another hand operating a resection blade.
- Further in other embodiment of the present invention, a chopping block piece of the resection blade is formed with a blade receiving surface on which the whole circumference of the blade contacts.
- According to such construction, a part of tissue grasping by the clamp can be sharply and finely cut off by pressing the blade of the resection blade onto the surface, by which a sample piece of tissue with a sharp cut end can be obtained.
- Still another embodiment of the invention, a sealing mechanism for airtightly sealing the penetrating passage is further provided for isolating ventilation of the open air even when the forceps is inserted into the passage or is pulled out from the passage.
- According to such construction, outer air is prevented from entering in abdominal cavity or the endo-bag through the penetrating passage and especially pneumoperitoneum gas is well prevented from leaking out when being filled in the endo-bag.
- In other embodiment of the invention, the sealing valve mechanism is detachable and exchangeable for the penetrating passage.
- Therefore, according to such construction, it is very useful for preventing contamination or contagion since it can be easily exchanged every time the forceps is used.
- These and other objects and advantages of the present invention will become clear from the following description with reference to the accompanying drawings, wherein:
- FIG. 1 is a partially cutaway front view showing one embodiment of a tissue excision and cutting apparatus of the present invention.
- FIG. 2 is a perspective view of a clamp of a tissue excision and cutting apparatus of the present invention.
- FIG. 3(a) is a partial cutaway front view when the clamp is opened according to a tissue excision and cutting apparatus of the present invention.
- FIG. 3(b) is a partial cutaway front view when it is closed according to a tissue excision and cutting apparatus of the present invention.
- FIG. 4(a) is a vertical section when tissue is cut and
- FIG. 4(b) is a vertical section after tissue is cut.
- FIG. 5(a) shows a vertical section when tissue is cut according to a tissue excision and cutting apparatus of the present invention.
- FIG. 5(b) shows a vertical section after tissue is cut according to a tissue excision and cutting apparatus of the present invention.
- FIG. 6 is an explanatory view showing sampling procedure 1 for tissue sample by means of the tissue excision and cutting apparatus of the present invention.
- FIG. 7 is an explanatory view showing
sampling procedure 2 for tissue sample by means of the tissue excision and cutting apparatus of the present invention. - FIG. 8 is an explanatory view showing
sampling procedure 3 for tissue sample by means of the tissue excision and cutting apparatus of the present invention. - FIG. 9 is an explanatory view showing
sampling procedure 4 for tissue sample by means of the tissue excision and cutting apparatus of the present invention. - FIG. 10 is an explanatory view showing
sampling procedure 5 for tissue sample by means of the tissue excision and cutting apparatus of the present invention. - FIG. 11 is a partial cutaway front view showing one embodiment of a tissue excision and cutting apparatus of the present invention combined with a rotatable resection blade.
- FIG. 12(a) is a front view of a partial vertical section according to a tissue excision and cutting apparatus of another embodiment of the present invention.
- FIG. 12(b) is a fragmental view in the direction of the arrow X according to a tissue excision and cutting apparatus of another embodiment of the present invention.
- FIG. 13(a) shows when the sealing mechanism is loaded according to a tissue excision and cutting apparatus of the present invention.
- FIG. 13(b) shows after it is loaded, and
- FIG. 13(c) shows when the resection blade or the rotatable resection blade is inserted according to a tissue excision and cutting apparatus of the present invention.
- FIG. 14(a) is its front view according to a tissue excision and cutting apparatus of the present invention.
- FIG. 14(b) is a partial vertical section according to a tissue excision and cutting apparatus of the present invention.
- FIG. 15 is an external front view of one embodiment of a rotatable resection blade provided with holding craw as shown in FIG. 14.
- FIG. 16(a) is its front view according to a tissue excision and cutting apparatus of the present invention.
- FIG. 16(b) is its partial vertical section according to a tissue excision and cutting apparatus of the present invention.
- FIG. 17 is a partial vertical section explaining operation of one embodiment of a sealing rod used for a resection blade or a rotatable resection blade of the present invention.
- FIG. 18(a) is a partial vertical section before tissue is cut according to a tissue excision and cutting apparatus of the present invention.
- FIG. 18(b) is a partial vertical section after tissue is cut according to a tissue excision and cutting apparatus of the present invention.
- FIG. 18(c) is a partial vertical section when a tissue sample is suck and held according to a tissue excision and cutting apparatus of the present invention.
- FIG. 19(a) to FIG. 19(f) explain operation of a suction and sampling means used for a resection blade or a rotatable resection blade of the present invention.
- FIGS.20(a), (b), (c) show one usage of a tissue excision and cutting apparatus and a forceps of the prior art.
- FIG. 21(a) is a front view of a partial vertical section a tissue excision and cutting apparatus integrated with a forceps according to the prior art.
- FIG. 21(b) is its rear view of a tissue excision and cutting apparatus integrated with a forceps according to the prior art.
- Now embodiments of tissue excision and cutting apparatus will be explained referring to the drawings.
- FIG. 1 is a partially cutaway front view of one embodiment of a tissue excision and cutting apparatus of the present invention.
- A tissue excision and cutting apparatus comprises a
resection blade 7 having an inner hollow cylinder body formed with acutting blade 7 a at its tip end, and aforceps 6 for cutting off a part of tissue A as a sample piece. - The
forceps 6 has aclamp 3 for grasping a part of tissue A in which the clamp has amovable jaw 3 b capable of opening and closing joined to a fixedjaw 3 a with achopping block piece 2, an open-close mechanism 5 with anoperation part 5 a for opening and closing themovable jaw 3 b, and a longitudinal penetratingpassage 4 into which theresection blade 7 is inserted and moves back and forth therein. - The
chopping block piece 2 is a characteristic of the tissue excision and cutting apparatus 1, is vertically provided at the fixedjaw 3 a in such manner it intercepts thepenetration passage 4 as a stopper of theresection blade 7 to be inserted into the longitudinal penetratingpassage 4 for cutting tissue A, and works as so called a cutting board. - The fixed
jaw 3 a is provided normally at one end of aforceps cylinder 4 a with the longitudinal penetratingpassage 4 therein, and themovable jaw 3 b is joined to the fixedjaw 3 a by ahinge 3 c so as to be pivotally opened and closed. The fixedjaw 3 a, themovable jaw 3 b and thehinge 3 c construct theclamp 3. These parts will be detailed hereinafter. - The longitudinal penetrating
passage 4 is constructed with a cylindrical body as theforceps cylinder 4 a and the open-close mechanism 5, which will be also explained hereinafter, is provided in theforceps cylinder 4 a and on the opposite side of the fixedjaw 3 a in such a manner as to form the longitudinal penetratingpassage 4. Theoperation part 5 a for holding the tissue excision and cutting apparatus 1 by one hand and for opening and closing themovable jaw 3 b is provided at a back end of the open andclose mechanism 5 in such a manner that it directs approximately normally to the longitudinal direction of theforceps cylinder 4 a. - The
resection blade 7 is comprised of acylinder body 7 b formed with thecylindrical blade 7 a at its one end and a holdingportion 7 c for holding theresection blade 7 at its periphery of the other end, and is so constructed as to contain cut off tissue as a sample piece Ac at its tip of the hollow cylinder. - At the back end of the resection blade is provided a sealing
rod 8 for airtightly sealing the inner portion of hollow cylinder body and apush rod 9 for extruding the cut of f tissue as a sample piece Ac by being airtightly inserted into the hollow cylinder body from a push hole (not shown) provided at the back end of the sealingrod 8. - The sealing
rod 8 and thepush rod 9 are detachable on theresection blade 7 if necessary and they will be explained hereinafter. - According to the tissue excision and cutting apparatus1, tissue A can be grasped with a
clamp 3 only by closing operation of theoperation part 5 a (solid line arrow in the figure) while holding thesame part 5 a by one hand. Under such a condition, inserting theresection blade 7 into the longitudinal penetratingpassage 4 of theforceps 6 by another hand and bringing theblade 7 a of theresection blade 7 into direct contact with the tissue A by pressing it or bringing theblade 7 a of the resection blade into contact with the tissue A while twisting it right and left at its discretion, thereby cutting off the objective tissue A to obtain only a part of the objective tissue A as a sample piece Ac without damaging the surrounding tissues and with safety and sureness. - Namely, according to the tissue excision and cutting apparatus, since the
chopping block piece 2 body provided at the tip of the fixedjaw 3 a serves as a chopping board, only a part of the objective tissue A held by theclamp 3 can be safely and surely cut off comparing to the apparatus such a prior type that the tissue is cut off while being drawn into a cylinder of theresection blade 7. - Further, the
clamp 3 can be opened and closed by manual operation of one hand while holding the tissue excision and cutting apparatus 1 by the one hand and thereby enabling to operate theresection blade 7 by the other hand. Therefore, the required operation for cutting off tissue can be done by one person so that such an apparatus is suitable for laparoscopic surgery or the like. - FIG. 2 is a perspective view of the
clamp 3 of the tissue excision and cutting apparatus 1. The repetition explanation will be omitted by adding same reference numerals to the parts already explained hereinafter. - The
clamp 3 is constructed such that the fixedjaw 3 a is attached with themovable jaw 3 b so as to be opened and closed and themovable jaw 3 b is connected to the open-close mechanism 5 operated by theoperation part 5 a. Themechanism 5 is provided so as not to interrupt theblade 7 a of theresection blade 7 forwarding to thechopping block piece 2, or the mechanism is provided in such manner as to assure the longitudinal penetratingpassage 4. - The fixed
jaw 3 a is provided with an arch-like support body 3 ca constructing ahinge 3 c for supporting themovable jaw 3 b so as to be opened and closed. An escape hole of this arch form constructs the longitudinal penetratingpassage 4. A hinge hole (not shown) is provided at the upper projection of thesupport body 3 ca, ahinge pin 3 cb is inserted into the hole, and a hinge hole (not shown) provided at the open-close end of themovable jaw 3 b is outwardly engaged into thehinge pin 3 cb. - The
support body 3 ca and thehinge pin 3 cb construct thehinge 3 c and themovable jaw 3 b can be rotate around thehinge pin 3 cb as a rotation rod so as to be opened and closed for the fixedjaw 3 a. - The attachment method of the
movable jaw 3 b on the fixedjaw 3 a so as to be opened and close isn't limited to the above-mentioned one which uses a hinge supporting with one rod. Other method wherein themovable jaw 3 b is connected to the fixedjaw 3 a with plural arms so as to form a parallelogram and themovable jaw 3 b is opened or closed always keeping parallel to the fixedjaw 3 a may be used. - A
link arm 3 ba is extended from the open-close end of themovable jaw 3 b so as to make a prescribed angle with themovable jaw 3 b, and a link hole (not shown) is provided at its tip and rotatably connected to alink member 5 b by alink pin 5 ba. Thelink member 5 b is further rotatably connected to a connectingrod 5 c connecting theoperation part 5 a side and theclamp 3 side of theforceps cylinder 4 a and is provided with the escape hole constructing the longitudinal penetratingpassage 4. - A
hook 3 bb for preventing moving of the tissue to be held by biting into the tissue is provided at the tip opposite to thelink arm 3 ba side of themovable jaw 3 b facing to the fixedjaw 3 a, however such a 3 bb hook isn't inevitable. - According to such a
clamp 3 constructed mentioned above, themovable jaw 3 b is closed (a solid line arrow) when the connectingrod 5 c is moved rear (into a solid line arrow), themovable jaw 3 b is opened (a broken line arrow) when the connectingrod 5 c is moved near (into a broken line arrow). - Any of them are provided so as to assure the longitudinal penetrating
passage 4 for forwarding theresection blade 7 to be attached with thechopping block piece 2 provided at the tip of the fixedjaw 3 a without being an obstacle. Further, the longitudinal penetratingpassage 4 may assure insertion of theresection blade 7 and may be provided with an open end as mentioned above other than theforceps cylinder 4 a which is closed perpendicular to the longitudinal direction. - A
connection 3 aa is vertically connected with the fixedjaw 3 a, connects theforceps cylinder 4 a and the fixedjaw 3 a, and is provided with a support hole for inserting the connectingrod 5 c slidably. - FIG. 3 shows performance of the
operation part 5 a and the open-close mechanism 5 of the tissue excision and cutting apparatus 1 of the present invention. FIG. 3(a) is a partial cutaway front view when theclamp 3 is opened and FIG. 3(b) is a partial cutaway front view when it is closed. - The connecting
rod 5 c passes through theconnection 3 aa and the upper part of theforceps cylinder 4 a assuring the longitudinal penetratingpassage 4, extends to theoperation part 5 a side of theforceps cylinder 4 a, and is connected to aslide block 5 e. - The
slide block 5 e is contained in anoperating mechanism case 5 d slidably fixed at theoperation part 5 a side of theforceps cylinder 4 a and the back and forth movement of theslide block 5 e is transmitted to theclamp 3 side of theforceps cylinder 4 a via the connectingrod 5 c so that thelink member 5 b is moved back and forth. Theslide block 5 e is provided with a pair oflink pins 5 f at both ends of peripheral and a pair oflink plates 5 e connecting theoperation part 5 a and theslide block 5 e are outwardly inserted into the link pins 5 g so as to be slidable. A slidelong hole 5 da working as a guide of moving of the link pins 5 g accompanying with back and forth movement of theslide block 5 e is provided at a position corresponding to the link pins 5 g of theoperation mechanism case 5 d so as to allow back and forth sliding of theslide block 5 e and prevent rotation of theslide block 5 e. - A pair of link support pins5 db are provided forward the
operation mechanism case 5 d and arear cover 5 h is provided at back end of thecase 5 d. - The
operation part 5 a is comprised of a fixedoperation part 5 aa fixedly provided for theoperation mechanism case 5 d and amovable operation part 5 ab which can be opened or closed by rotating the link support pins 5 db of thecase 5 d as a rotating rod against the fixedoperation part 5 aa. Such rotation is accomplished by that alink support hole 5 ac provided for themovable operation part 5 ab is outwardly inserted in thepins 5 db of thecase 5 d. Alink support 5 ad associating to alink plate 5 f outwardly inserted in the link pins 5 g of theslide block 5 e and afinger stopper 5 ae for acting operating force of fingers in both open and close directions are provided for themovable operation part 5 ab. - A link mechanism is constructed by the link pins5 g of the
slide block 5 e sliding back and forth in theoperation mechanism case 5 d, thelink plate 5 f, thelink support 5 ad and thelink support hole 5 ac of theremovable operation part 5 ab, and thelink support pin 5 db of thecase 5 d. When themovable operation part 5 ab of theoperation part 5 a is opened or closed by such a link mechanism, themovable jaw 3 b of theclamp 3 can be opened or closed. - When the fixed
operation part 5 aa of theoperation part 5 a is held by one hand as shown in FIG. 3(a) and a first finger and a long finger (they are called “operation fingers”) are operated into closing direction (a solid line arrow in the figure) so as to clip thefinger stopper 5 ae, theslide block 5 e goes back, such a movement is transferred to thelink member 5 b by means of the connectingrod 5 c, thelink arm 3 ba of theclamp 3 is rotated, and themovable jaw 3 b is moved into closing direction (a solid line arrow in the figure). - On the other hand, when the operation fingers are operated into open direction (a broken line arrow in the figure) as shown in FIG. 3(b), the movement is transmitted to the
link member 5 b by the connectingrod 5 c, thelink arm 3 ba of theclamp 3 is rotated opposite direction, and themovable jaw 3 b is moved into opening direction (a broken line arrow in the figure). - Accordingly the
clamp 3 can be easily opened and closed by operating theoperation part 5 a by one hand. - Of course an escape for providing the longitudinal penetrating
passage 4 is formed at inside of any of theforceps cylinder 4 a, theslide block 5 e, attachment part of the link pins 5 g of theslide block 5 e, and therear cover 5 h so that theresection blade 7 or the rotary blade, will be described hereinafter, can be inserted. - FIG. 4 shows operation of one embodiment of a sealing rod and a push rod provided for the resection blade or the rotatable resection blade of the present invention. FIG. 4(a) is a vertical section when tissue is cut and FIG. 4(b) is a vertical section after tissue is cut.
- Now detailed construction of the
resection blade 7 provided corresponding to the sealing function of theseal rod 8. - The
resection blade 7 is constructed such that the rear end of the hollow and cylindricalmain body 7 b provided with theblade 7 a at its tip is inserted in the hollow and cylindrical holdingportion 7 c. - The inner diameter of the
main body 7 b isn't uniform. Themain body 7 b is comprised of a standardinner diameter part 7 ba having the same inner diameter as theblade 7 a portion and an escapeinner diameter part 7 bb having the inner diameter larger than the standardinner diameter part 7 ba. The standardinner diameter part 7 ba occupies almost the inside of themain body 7 b from the tip with theblade 7 a to the rear end and the escapeinner diameter part 7 bb occupies only at a fixed distance from the rear end. These twoinner diameter parts 7 ba and 7 bb are connected by a gentlytapered part 7 bc. - The inner diameter of the holding
portion 7 c is tiered and comprised of an insertinghole 7 ca for tightly inserting the rear end of themain body 7 b and aguide hole 7 cb of which inner diameter is smaller than that of the insertinghole 7 ca and also is the same as or a little larger than the standardinner diameter part 7 ba of themain body 7 b. Theresection blade 7 is constructed such that the rear end of themain body 7 b is inserted in the insertinghole 7 ca of the holdingpart 7 c so as to bump into the tiered portion of the insertinghole 7 ca and theguide hole 7 cb. - According to such a
resection blade 7, theresection blade 7 can be held by the holdingpart 7 c and also sealing function of the sealingrod 8 can be brought out effectively as mentioned herein. - The sealing
rod 8 is inserted in theguide hole 7 cb of the holdingpart 7 c from the rear end of theresection blade 7 and is provided with anrod part 8 b having a little smaller external diameter than the inner diameter of the standardinner part 7 ba of themain body 7 b and arib 8 a contacting the rear end of the holdingpart 7 c. And the center of the sealingrod 8 is formed with apush hole 8 c for airtightly inserting thepush rod 9 along the axial direction. - An O-
ring 8 d is provided at an appropriate portion of the external diameter of therod part 8 b and has an sealing effect for the standardinner diameter part 7 ba and doesn't have an sealing effect for the escapeinner diameter part 7 bb. Namely the external diameter of the O-ring 8 d is larger than the inner diameter of the standardinner diameter part 7 ba and smaller than the inner diameter of the escapeinner diameter part 7 bb. - Therefore, the O-
ring 8 d is positioned in the escapeinner diameter part 7 bb of themain body 7 b and sealing function between the O-ring 8 d and the escapeinner diameter port 7 bb doesn't achieved in FIG. 4(a). So, air in ahollow part 7 d in theresection blade 7 is allowed to be communicated outside from the sealingrod 8 side via the space between the standardinner diameter part 7 ba and ahead 9 c of thepush shaft 9, the space between the standardinner diameter 7 ba, the escapeinner diameter part 7 bb, theguide hole 7 cb of the holdingportion 7 c and therod part 8 b of the sealingrod 8. Under such a condition, theresection blade 7 is pressed on the tissue so that the tissue sample Ac is taken in thehollow part 7 d of the resection blade 7 (see FIG. 4(b)). - On the other hand when the sealing
rod 8 is fully pushed into theresection blade 7 as shown in FIG. 4(b), the O-ring 8 d is positioned in the standardinner diameter part 7 ba of themain body 7 b so that air in thehollow part 7 d of theresection blade 7 is sealed not to communicate outside from the sealingrod 8 side. When the O-ring 8 d moves to the standardinner diameter part 7 ba from the escapeinner diameter part 7 bb, it isn't damaged because it moves in the gentlytapered part 7 bc. - When such a sealing is accomplished, the
hollow part 7 d of theresection blade 7 is covered with the tissue sample Ac at its tip so that the tissue sample Ac doesn't easily dropped off theresection blade 7 because negative pressure is applied on thehollow part 7 d when the sample Ac is going to be dropped from theresection blade 7. - O-
rings push hole 8 c penetrating the center of therod part 8 b and therib 8 a so that thepush rod 9 can move back and forth while keeping airtight between thepush hole 8 c and the rod portion 9 b of thepush rod 9 inserted therein. - The
push rod 9 is comprised of the rod portion 9 b and arib 9 a provided at its rear end and thehead 9 c provided at its forward end. The external diameter of thehead 9 c is a little smaller than the inner diameter of the hollow cylinder of theresection blade 7. Thehead 9 c is detachable for the rod portion 9 b by an appropriate association means such as a screw and can be disassembled so that thepush rod 9 is removed from the sealingrod 8 in case of sterilization. - When cutting tissue, the sealing
shaft 8 is inserted into the position where the O-ring 8 d of the sealingrod 8 allows communication with outside air and thepush rod 9 is set at the position where enough space for containing the tissue to be cut is remained at the tip of thehead 9 c. - In such a case, when the tissue A is grasped by the
clamp 3 and is cut by theblade 7 a by forwarding theresection blade 7, air can be leaked from the sealingrod 8 side even if the hollow cylinder of theresection blade 7 is covered with the cut tissue sample Ac and sealed airtightly as explained about FIG. 1. Therefore, cutting operation of tissue can't be hindered. And the rear end of theresection blade 7 is inserted by the sealingrod 8 so that leakage of waste such as body fluid and blood in abdominal cavity along the hollow cylinder of theresection blade 7 into outside is reduced. - After cutting tissue, the sealing
rod 8 is pushed in theresection blade 7 at the position where the O-ring 8 d of the sealingrod 8 keeps airtight and thepush shaft 9 is remained at it is, as shown in FIG. 4(b). - Under such a condition, the inside of the
resection blade 7 is kept airtight by the tissue sample Ac, the O-ring 8 d of the sealingrod 8, and the O-rings push rod 9 as mentioned above. When theresection blade 7 is retracted from theforceps 6 while containing the cut and obtained tissue sample Ac at its tip and is moved to a prepared sample tray with the contained side downward, the contained tissue sample Ac doesn't dropped from theresection blade 7 because of atmospheric pressure. - After the
resection blade 7 reaches the prepared sample tray, the sealingrod 8 is positioned like FIG. 4(a) and the contained tissue sample Ac is extruded by pushing thepush rod 9. - Accordingly the tissue A can be surely cut and the cut and sampled tissue sample Ac can be collected safely and certainly.
- FIG. 5 shows operation of another embodiment of a sealing rod and a push rod used for a resection blade or a rotating resection blade of the present invention. FIG. 5(a) shows a vertical section when tissue is cut and FIG. 5(b) shows a vertical section after tissue is cut.
- A
push shaft 11 has both functions of the sealingrod 8 and thepush rod 9 in FIG. 4 and a sealingrod 10 only has an auxiliary function to seal or allow communication with outside air. - The shape of the
push rod 11 is almost the same as thepush rod 9 in FIG. 4 and is comprised of arib 11 a, anrod part 11 b and ahead 11 c. Differently, an O-ring lid for keeping airtight with the inner diameter of the hollow cylinder of theresection blade 7 is provided for the head lic and anair vent hole 11 e penetrating the center of thepush rod 11 is provided. - The sealing
rod 10 is used for sealing the air vent hole lie of thepush rod 11. - When cutting tissue (FIG. 5(a)), only the
push rod 11 is inserted into theresection blade 7 and thepush rod 11 is set at the position where enough space for containing the cut tissue is obtained at the tip of thehead 11 c. Theair vent hole 11 e isn't sealed so that tissue can be preferably cut as mentioned above. - When the sealing
rod 10 is inserted in the air vent hole lie of thepush rod 11 after cutting tissue (FIG. 5(b)), theair vent hole 11 e is sealed so that the cut and sampled tissue sample Ac doesn't drop from the contained portion even if theresection blade 7 is extracted and moved as explained for FIG. 4(b). When thepush shaft 11 is further pushed after being moved at a predetermined position, the tissue sample Ac is extruded from the tip of theresection blade 7 by air pressure between the tissue sample Ac and thehead 11 c of thepush rod 11 which are kept airtight. - In such a case the tissue A can be surely cut and the cut and sampled tissue sample Ac can be collected safely and certainly.
- If the construction members of the above-mentioned
clamp 3 comprised of thechopping block piece 2, the fixedjaw 3 a, and themovable jaw 3 b, theforceps cylinder 4 a having the penetratingpassage 4, the open-close mechanism 5, theoperation part 5 a and theresection blade 7 are made of material excellent for sterilization and chemical proof, they are appropriate for surgical instruments because they can be easily sterilized such as autoclave sterilization after used. For example, theclamp 3, theforceps cylinder 4 a, members of the open-close mechanism 5, and theresection blade 7 are preferably made of stainless steel and the O-ring for sealing is made of silicon rubber. - Next, one embodiment of actual procedures for sampling tissue sample using a tissue excision and cutting apparatus of the present invention in case of laparoscopic surgery will be explained.
- FIG. 6 to FIG. 10 explain the procedure at five stages.
- At the step1 (FIG. 6), an inserting instrument F for inserting an endo-bag E in abdominal cavity H and a trocar T are set at a trocar site J of patient's abdomen I. In the figure, the endo-bag E is already inserted in the abdominal cavity H by the inserting instrument F, is expanded and contains the extracted organ A, an opening of the endo bag E is taken out of the trocar site F, the trocar T is inserted into the trocar site J, sterilized distilled water is injected into a trocar cuff TA provided for the trocar T so as to be expanded, and sealing between the trocar site J and the trocar T is kept.
- On the other hand, the auxiliary opening for the endo-bag E is set at the inserting instrument F and a laparoscope G is inserted in the auxiliary opening so as to observe inside of the endo-bag E.
- At first the
forceps 6 is inserted into the trocar T and the organ A is grasped by operating theoperation part 5 a of theforceps 6 while confirming the position of the organ A by the laparoscope G. - At the step2 (FIG. 7), the
resection blade 7 is inserted into the longitudinal penetratingpassage 4 of theforceps 6. In this time, theforceps 6 is held by one hand while grasping the organ A and theresection blade 7 can be easily inserted by holding the holdingportion 7 c by another hand. The sealingrod 8 with thepush rod 9 is prepared for theresection blade 7 in such a manner that theresection blade 7 is allowed to be communicated with the air from the sealingrod 8 as shown in FIG. 4(a). - At the step3 (FIG. 8), the tissue which is grasped by the
clamp 3 and received by thechopping block piece 2 is finely and surely cut while theresection blade 7 is rotated right or left by a hand if necessary. The cut end is pressed and cut by theblade 7 a of theresection blade 7 and thechopping block piece 2 or is sheared and cut by theblade 7 a and a receiving blade (not shown) provided at thechopping block piece 2 depending on the shape of theblade 7 a. Theresection blade 7 is guarded with theclamp 3 so that tissue can be safely cut without damaging the endo-bag E by theblade 7 a of theresection blade 7 is extruded. - At the step4 (FIG. 9), the sealing
rod 8 is fully inserted in theresection blade 7 and theresection blade 7 is extracted from theforceps 6 while sealing the hollow cylinder containing the cut tissue sample Ac. - At the step5 (FIG. 10), the extracted
resection blade 7 is moved to a sample tray K, the position of the sealingrod 8 is returned to where communication with outside air is allowed, then the tissue sample Ac contained at the tip in the hollow cylinder of theresection blade 7. - Accordingly, the tissue can be surely cut and the sampled tissue sample can be certainly moved to a prepared position.
- Such an organ for cutting and sampling tissue thereof is generally attacked by malignant in many cases so that it is highly required to prevent that a part of the organ is leaked out of the endo-bag E, the endo-bag E itself is damaged, or the other normal organ is damaged or broken. According to the present invention, the
blade 7 a is constructed so as not to go forward the choppingblock piece 2 so that such a danger isn't caused. - When the forceps of the present invention is used together with a rotatable resection blade which rotates automatically, its effect is further brought out.
- FIG. 11 is a partial cutaway front view showing one embodiment of the forceps of the present invention combined with the rotatable resection blade.
- A tissue excision and cutting
apparatus 1A is different from the apparatus 1 in that a resection blade is arotatable resection blade 12. Therotatable resection blade 12 includes aguide cylinder 13 a containing therotatable resection blade 12 rotatably, awarm mechanism 13 b with a warm and a warm wheel for driving and rotating theresection blade 12, and a driving androtating mechanism 13 containing a mechanism for transmitting rotating power to thewarm mechanism 13 b and comprised of atransmission part 13 c which can be a holding part of theresection blade 12 and amotor 13 d as a drive source. - The driving and
rotating mechanism 13 is provided with a controller such as a foot controller (not shown) for controlling on or off of driving and its rotation number so that rotation of therotatable resection blade 12 can be controlled freely while operating theforceps 6 by one hand and grasping atransmission part 13 c of theblade 12 by another hand. - Therefore, according to the tissue excision and cutting
apparatus 1A, the tissue A which is grasped by theclamp 3 and received by thechopping block piece 2 like a cutting board can be finely cut. - The
warm mechanism 13 b is shown as one sample of the transmission mechanism for transmitting the rotational movement into perpendicular direction and the present invention isn't limited by such awarm mechanism 13 b. For example, a mechanism combined with a bevel wheel may be used if the rotational movement is transmitted perpendicular. The driving androtating mechanism 13 isn't limited to the above-mentioned one if the hollow cylindrical part is assured in the resection blade. For example, a direct drive electric motor comprising the rotary blade itself as a rotor thereof may be used and in such a case the above-mentioned warm mechanism isn't required. - The resection blade which is used together with the forceps comprising the tissue excision and cutting apparatus of the present invention may be rotated or not rotated. Further any resection blade can be combined if the cutting board function of the chopping block piece of the resection blade can be effectively utilized. Therefore, the forceps alone is available for a
resection forceps 6A (FIG. 1) and in such a case it can execute cutting operation more finely and surely cooperating with the combined resection blade. - The chopping block piece and the sealing mechanism of the forceps, a drop-out prevention means and a suction means provided for the resection blade as an active means for preventing drop out of the tissue sample after sampled, which are other characteristics of the tissue excision and cutting apparatus of the present invention, will be explained hereinafter.
- FIG. 12 shows another embodiment of the forceps of the tissue excision and cutting apparatus of the present invention. FIG. 12(a) is a front view of a partial vertical section and FIG. 12(b) is a fragmental view in the direction of the arrow X.
- At first FIG. 12(b) is explained. In this figure, the resection blade which is contacted with the
chopping block piece 2 or theblade 7 a of the rotatable resection blade is virtually shown by dotted lines. - The
forceps 6 is constructed such that the size of thechopping block piece 2 provided at the tip of the fixedjaw 3 is designed to be contacted with the whole circumference of theblade 7 a of the resection blade or the rotatable resection blade which is inserted in the longitudinal penetratingpassage 4 of theforceps 6, as shown in the figure. Therefore, thechopping block piece 2 can be effected as a cutting board for any parts of theblade 7 a and cutting end of tissue can be completely done so that the tissue sample can be completely cut and separated. - It isn't required to rip down the cut end by pulling the cut tissue sample with the forceps which has been done in the prior art. Therefore, tissue sample can be cut and sampled finely.
- The virtual lines of the
blade 7 a almost correspond to the shape of the longitudinal penetratingpassage 4 and the above-mentioned effect can be expected for the resection blade or the rotatable resection blade which can be inserted in thepenetration passage 4. - Then the front view of the FIG. 12(a) will be explained. As shown in the figure, the
forceps 6 is detachably provided with asealing mechanism 5 i at the end of the open-close mechanism 5. - FIG. 13 is a partial vertical section explaining its sealing mechanism and FIG. 13(a) shows when the sealing mechanism is loaded, FIG. 13(b) shows after it is loaded, and FIG. 13(c) shows when the resection blade or the rotatable resection blade is inserted.
- The
sealing mechanism 5 i is comprised of a sealingbody 5 ia, a sealingring 5 ib, apresser board 5 ic, a sealingplate 5 id, aspring 5 ie, asetscrew 5 if, anauxiliary ring 5 ig, and an O-ring 5 ih. - The sealing
body 5 ia is approximately cylindrical as shown in the figure and one end of the external diameter is detachably inserted into an insertion hole provided at the rear end of the open-close mechanism 5. A penetrating hole is provided in the inner diameter for securing the longitudinal penetratingpassage 4 in sequence of the open-close mechanism 5. - The
sealing ring 5 ib is provided opposite to the inserted side of the open-close mechanism 5 with the sealingbody 5 ia and is fixed with thepresser board 5 ic. The sealingbody 5 ia is like a circular disc with a hole made of rubber and the diameter of the hole is a little smaller than that of the longitudinal penetratingpassage 4. When the resection blade is inserted in the hole, the hole is designed to seal its external diameter. - The
seal plate 5 id is enforced by thespring 5 ie so as to open and close the hole provided at the intermediate part of theseal body 5 ia in axial direction. Thesetscrew 5 if is provided at the rear end of the open-close mechanism 5 for fixing and holding the detachably insertedseal body 5 ia. - The
auxiliary ring 5 ig is provided at the position which is the rear end of the forcepsinner cylinder 4 b comprising a double cylinder in theforceps cylinder 4 a and also theseal body 5 ia is contacted and it is formed with a groove for containing the O-ring 5 ih. The O-ring 5 ih is designed to keep sealing between theseal body 5 ia and the forcepsinner cylinder 4 b when theseal body 5 ia is inserted in the rear end of the open-close mechanism 5. The inner diameter part of the forcepsinner cylinder 4 b is formed the longitudinal penetratingpassage 4. - The
sealing mechanism 5 i is constructed such that theseal body 5 ia having theseal ring 5 ib and the sealingplate 5 id is detachably inserted into the rear end of the open-close mechanism 5 as shown in FIG. 13(a) and themechanism 5 i is fixed by thesetscrew 5 if as shown in FIG. 13(b), thereby exerting its function. - As shown in FIG. 13(b), when the resection blade or the rotatable resection blade isn't inserted in the longitudinal penetrating
passage 4, theseal plate 5 id of thesealing mechanism 5 i is enforce by thespring 5 ie so that the hole of theseal body 5 ia is closed and the longitudinal penetratingpassage 4 and outer air are sealed. Although theseal plate 5 id is enforced by thespring 5 ie, its enforcing power is set so as to fell down theseal plate 5 id when pushed by the inserted resection blade. - As shown in FIG. 13(c), when the resection blade or the rotatable resection blade is inserted in the longitudinal penetrating
passage 4, theseal plate 5 id is pushed and fell down by the resection blade so as not to prevent the resection blade from inserting. The periphery of theblade 7 b of the inserted resection blade or theguide cylinder 13 a of the rotatable resection blade is sealed from outside by affected by the inner diameter of the sealingring 5 ib. - Accordingly, the longitudinal penetrating
passage 4 is kept sealed whenever the resection blade is inserted or not so that outer air is prevented from entering in abdominal cavity and the endo-bag through the longitudinal penetratingpassage 4 or especially pneumoperitoneum gas is prevented from leaking out while being filled in the endo-bag. - Because the
seal body 5 ia is exchangeable, it can be exchanged when polluted, thereby keeping safety without executing troublesome sterilization. - The above-mentioned forceps is explained as a member of the tissue excision and cutting apparatus, however it doesn't matter the kind of the resection blade or the rotatable resection blade which is used together with the forceps. The forceps, as mentioned above, has independent utility value and technical value. Therefore, it can be used as a
resection forceps 6A (FIG. 12, FIG. 13) alone and has similar effect cooperating with the combined resection blade. - Next the drop-out prevention means and the suction means provided for the resection blade as an active means for preventing the sampled tissue sample will be explained.
- FIG. 14 shows one embodiment of a holding craw provided at the internal tip of the resection blade or the rotatable resection blade. FIG. 14(a) is its front view and Fib. 14(b) is a partial vertical section.
- A holding
craw 7 e provided at an inner circumference of theblade 7 a of theresection blade 7 is the same one which is used for preventing dropping out of fish after hooked by a fishhook and is one of drop-out prevention methods of the sampled tissue sample. - In this embodiment, the
blade 7 a is made of stainless steel capable of hardening, for example SUS440C, for keeping sharpness of the blade. It is different from the material used for theresection blade body 7 b such as titanium or stainless steel of SUS304. Therefore, theblade 7 a is integrated with thebody 7 b by a tight insertion of aninsertion integration part 7 g after appropriate procedures such as sharpening and hardening of theblade 7 a are executed. - The holding
craw 7 e is formed such that a radius shape is formed by turnery and substantial part is ground from the entire circumference of the radius shape formed around the circumference so as to leave three holdingcraws 7 e as shown in the figures. - If the holding craw is formed circumferential, it is excellent for drop-out prevention, however, contrarily the cut tissue sample which has been cut into cylindrical by the tip blade and fed in the inmost recesses of the
resection blade 7 in turn is prevented from being fed into further inmost recess. - Therefore, the holding
craw 7 e is partially left and three holding craws are appropriate as shown in the figure, however from two to five holding craws may be provided. - According to such about three holding
craws 7 e doesn't hinder the tissue sample from being fed and can prevent the tissue sample from dropping out. - The holding craws are appropriately positioned not far from the tip of the
blade 7 a in the blade axis direction, more concretely, where the shortest one of the usually formed cylindrical tissue samples can be hooked. Further, the holding craws may be provided in a line as shown in the figure, however they may be provided in plural lines at different positions from the tip in the direction of the blade axis by differing circumferential position or at the same circumferential position. - Such a holding craw may be similarly provided for the rotatable resection blade12 (FIG. 11) and such a case is shown as the parenthetic numerals in the figures such as a
rotatable resection blade 12, ablade 12 a, abody 12 b, a holdingcraw 12 e. - FIG. 15 is an external front view of one embodiment of a rotatable resection blade provided with holding
craw 12 e as shown in FIG. 14. - The holding
craw 12 e can be similarly provided for a rotatable resection blade and have the same effect. - FIG. 16 shows another embodiment of a holding craw provided inside tip of a resection blade or a rotatable resection blade of the present invention. FIG. 16(a) is its front view and FIG. 16(b) is its partial vertical section.
- The holding
craw 7 f is provided for thebody 7 b of theresection blade 7 comparing to the holdingcraw 7 e of FIG. 14 and is formed by plastic forming of theblade body 7 b made of lightweight titanium, and excellent for anti-corrosion, and plasticity or SUS304 stainless steel which is excellent for anti-corrosion and easy to be manufactured. - The holding
craw 7 f is designed t prevent the cut tissue sample from dropping out like the holdingcraw 7 e of FIG. 14. However, the holdingcraw 7 f is shaped by plastic forming with shearing and pressing against the relatively thin cylindrical part of theblade body 7 b. - Its drop-out prevention effect isn't different from the holding
craw 7 e, however, it must be provided for thebody 7 b because of the manufacturing performance so that it must be provided at substantial distance from the tip of theblade 7 a. In this point the holdingcraw 7 f isn't suitable for preventing dropping out of a short tissue sample. - Both of the holding
craw - The holding
craw 7 f can be provided for therotatable resection blade 12 like the holdingcraw 7 e and such a case is shown as parenthetic numbers in the figure. - FIG. 17 is a partial vertical section explaining operation of one embodiment of a sealing rod used for a resection blade or a rotatable resection blade of the present invention.
- The sealing
push rod 8A is constructed like thepush rod 11 in FIG. 5 and they are different in that the sealingpush rod 8A is provided with a simple suction means 8 g actively generating suction force in place of the sealingrod 10, the simple suction means 8 g is one embodiment of a suction means of the cut and sampled tissue sample. - The sealing
push rod 8A itself is constructed with a rib 8Aa, an rod part 8Ab, a head 8Ac, an O-ring 8Ad, and an air vent hole 8Ae like thepush rod 11 in FIG. 5 and they work like those for thepush rod 11. - The simple suction means8 g detachably provided for the air vent hole 8Ae instead of the sealing
rod 10 is comprised of asyringe 8 ga, aswitch valve 8 gb, and atube 8 gc. - The simple suction means8 g isn't loaded before the sealing
rod 8A is inserted in theresection blade 7 and it cuts and samples tissue so as not to disturb cutting and sampling of tissue by allowing communication of air from the air vent hole 8Ae. - However, as shown in FIG. 17, the simple suction means8 g is loaded after the tissue sample Ac is sampled, the
switch valve 8 gb is opened, and suction force is generated by operating thesyringe 8 ga so as to actively suck the sampled tissue sample Ac not to be dropped out. - After the
resection blade 7 is moved at a predetermined position while keeping suction, the contained tissue sample Ac may be extruded by generating pressure force by operating thesyringe 8 ga of the simplesuch means 8 g, or it may be extruded only by the operation of the sealingpush rod 8A after removing the simple suction means 8 g. - The
switch valve 8 gb may be closed after sucking with thesyringe 8 ga to keep suction force. When it can be replaced by the operation of thesyringe 8 ga, theswitch valve 8 gb isn't always required. - In this case a syringe is used as a sample of the simple suction means8 g because it is easily obtained at medical sites, however it isn't limited.
- FIG. 18 explains operation of another embodiment of a sealing rod and a push rod used for a resection blade or a rotatable resection blade of the present invention. FIG. 18(a) is a partial vertical section before tissue is cut, FIG. 18(b) is a partial vertical section after tissue is cut, and FIG. 18(c) is a partial vertical section when a tissue sample is suck and held.
- A sealing
suction rod 8B and apush rod 9A are the same as the sealingrod 8 and thepush rod 9 in FIG. 4. However, a sealingsuction mechanism 8 h is provided for the sealingsuction rod 8B. Thepush rod 9A and aresection blade 7A are a little different from those in FIG. 4. The sealingsuction rod 8B and thepush rod 9A are another embodiment of the suction means of cut and sampled tissue sample. - The
resection blade 7A is different from theresection blade 7 in FIG. 4 in that a container 7Ae containing the sealingsuction mechanism 8 h is included in a holding portion 7Ac corresponding to the sealingsuction rod 8B provided with the sealingsuction mechanism 8 h. It also different in that a part connected from the container 7Ae to the hollow 7Ad in theresection blade 7A is a sealing tapered part 7Af. A blade 7Aa, a body 7Ab, the holding portion 7Ac and the hollow 7Ad are the same as those of theresection blade 7. - A rib8Ba, an rod part 8Bb, and a push hole 8Bc of the sealing
suction rod 8B are almost the same as those of the sealingrod 8. It is different in that apiston flange 8 he to be contained in the sealingsuction mechanism 8 h is provided at the tip of the rod part 8Bb. - The sealing
suction mechanism 8 h is comprised of asealing cylinder 8 ha slidably contained in the container 7Ae of theresection blade 7A, aninner chamber 8 hb provided therein, acommunication passage 8 hc for communicating air between theinner chamber 8 hb and the hollow 7Ad of theresection blade 7A, an O-ring 8 hd which is provided at the tip of the hollow 7Ad side of thesealing cylinder 8 ha and exerts sealing function when it contacts with the sealing tapered part 7Af of theresection blade 7A, the above-mentionedpiston flange 8 he sliding airtightly in theinner chamber 8 hb, aspring 8 hf enforcing thepiston flange 8 he in the left direction in FIG. 18, and aspring 8 hg provided at the tip of the hollow 7Ad of thesealing cylinder 8 ha and enforcing thesealing cylinder 8 ha in the left direction of FIG. 18 by generating enforce power between an inner wall of the container 7Ad of theresection blade 7A. - The
spring 8 hf is designed to require larger force than thespring 8 hg to be compressed the same length so that the spring constant (load/distortion) of thespring 8 hf becomes larger than thespring 8 hg. - The
push rod 9A is comprised of a rib 9Aa, an rod part 9Ab, and a head 9Ac like those of thepush rod 9 in FIG. 4. The push hole 8Bc of the sealingsuction rod 8B, thespring 8 hf and thesealing cylinder 8 ha of the sealingsuction mechanism 8 h are penetrated by the rod part 9Ab and the push hole 8Bc and thesealing cylinder 8 ha are sealed by an appropriate sealing means such as an O-ring so as to be slidable keeping airtight. - The holding portion7Ac of the
resection blade 7A is constructed such that the container 7Ae can be opened, the sealingcylinder 8 ha of the sealingsuction mechanism 8 h is constructed so as to be able to open theinner chamber 8 hb, and the head 9Ac of thepush rod 9A is constructed detachable. As shown in the figure they can be disassembled after assembled and used. - When tissue sample is cut and sampled by means of the sealing
suction rod 8B and thepush shaft 9A, the sealingsuction rod 8B is positioned freely as shown in FIG. 18(a). The distance between the rib 8Ba of the sealingsuction rod 8B and the holding portion 7Ac of theresection blade 7A is defined as L1. Thepush rod 9A is positioned so as to keep enough space for containing the cut tissue sample in the hollow 7Ad forward of the head 9Ac. The hollow 7Ad in theresection blade 7A is communicated with air because of the space between the sealingsuction rod 8B, and sealingcylinder 8 ha and the container 7Ae of the holding portion 7Ac. - After tissue sample is cut by the tissue excision and cutting apparatus1 having the
resection blade 7A, only the sealingsuction rod 8B is pushed as shown in FIG. 8(b). Because thespring 8 hg is stronger than thespring 8 hf, the sealingcylinder 8 ha slides forward in the container 7Ae of the holding portion 7Ac by the just distance that the sealingsuction rod 8B is pushed. The O-ring 8 hd provided at the tip of thesealing cylinder 8 ha contacts with the sealing tapered part 7Af of the holding portion 7Ac and the hollow 7Ad in theresection blade 7A is kept airtight by the sealingcylinder 8 ha. The distance between the rib 8Ba of the sealingsuction rod 8B and the holding portion 7Ac of theresection blade 7A is defined as L2. - When only the sealing
suction rod 8B is further pushed, the sealingcylinder 8 ha doesn't further slide and only the sealingsuction rod 8B slides forward against the sealingcylinder 8 ha while compressing thespring 8 hf as shown in FIG. 18(c). Thepiston flange 8 he of the sealingsuction rod 8B slides forward while keeping airtight in theinner chamber 8 hb of thesealing cylinder 8 ha so that suction force is generated in the space in the rear of thepiston flange 8 he and is transmitted to the hollow 7Ad of theresection blade 7A via thecommunication passage 8 hc. Accordingly suction force is generated in the hollow 7Ad. The distance between the rib 8Ba of the sealingsuction rod 8B and the holding portion 7Ac of theresection blade 7A is defined as L3. - Sealing and suction can be achieved and the cut and sampled tissue sample Ac can be easily suck and grasped simply by pushing the sealing
suction rod 8B from a free condition L1 to the distances L2 and L3. After theresection blade 7A holding the tissue sample Ac is moved at a predetermined place, the sealingsuction rod 8B can be returned to its original free position L1 by the force of repulsion of thesprings 8 hf, 8 hg only by releasing pushing of the sealingsuction rod 8B. Then the tissue sample Ac can be easily extruded by operating thepush rod 9A. - It is more convenient that a lock means which can keep the sealing
suction rod 8B at the distance L3 and can be easily released is provided if required. - FIG. 19(a)-FIG. 19(f) explain operation of a suction and sampling means used for a resection blade or a rotatable resection blade of the present invention.
- This suction and sampling means14 is provided for actively collecting the tissue sample cut and sampled by the resection blade in a sample container not only by sucking and grasping but also by utilizing air suction force. It is another embodiment of a suction means of tissue sample.
- The suction and sampling means14 is comprised of a
sample container 14 a which is a bag made of mesh material for passing suction force and provided with an attachment opening, a connectingmeans 14 b for connecting thesample container 14 a and a connecting part 7Ba at the rear of aresection blade 7B, and acover 14 c provided for the connecting means 14 b and covering thesample container 14 a fully for keeping airtight. - The
resection blade 7B connected with the suction and sampling means 14 is different from the above-mentionedresection blade pin 14 ba is vertically provided for the connecting means 14 b to be inserted in the groove 7Bb. - When the suction and sampling means14 is used, at first the connecting means 14 b is set for the
sample holder 14 a (FIGS. 19(a), (b)), then thecover 14 c is covered (FIG. 19(c)), and the assembled suction and sampling means 14 is connected and fixed to the connecting part 7Ba of theresection blade 7B by utilizing association of the connectingpin 14 ba and the connecting groove 7Bb (FIG. 19(d)). - Then suction force is supplied to the suction and sampling means14 from an suction air source (not shown) and the tissue sample cut and sampled by the
resection blade 7B is suck and collected (FIG. 19(e)). This suction and collection may be repeated until a purpose is accomplished more than one time. - After suck and collection are finished, the suction and sampling means14 is removed from the
resection blade 7B and disassembled. The tissue sample collected in thesample container 14 a is taken out at a predetermined place (FIG. 19(f)). - Accordingly tissue samples taken out several times can be easily collected and taken out in bulk.
- This suction and sampling means can be used for a rotatable resection blade. Both of the above-mentioned holding craw and several suction means for preventing dropping out of tissue sample can be applied for a resection blade or a rotatable resection blade. In such a case both effects can be synergistically brought out.
- While the present invention has been particularly shown and described with reference to preferred embodiments thereof, it will be understood by those skilled in the art that the foregoing and other changes in form and details can be made therein without departing from the spirit and scope of the invention.
Claims (16)
1. A tissue excision and cutting apparatus used by inserted into a trocar for cutting off a part of tissue for sampling in a laparoscopic surgery or the like comprising:
a resection blade having an inner hollow cylinder body formed with a cutting blade at its tip end, and
a forceps for cutting off a part of tissue as a sample piece, said forceps having a clamp for grasping a part of tissue to be cut off, said clamp having a movable jaw capable of opening and closing which is joined to a fixed jaw with a chopping block piece, an open-close mechanism with an operation part for opening and closing said movable jaw, and a longitudinal penetrating passage into which said resection blade is inserted and moves back and forth therein.
2. A tissue excision and cutting apparatus used by inserted into a trocar for cutting off a part of tissue for sampling in a laparoscopic surgery or the like comprising:
a resection blade having an inner hollow cylinder body formed with a cutting blade at its tip end, said resection blade being driven by a rotary driving mechanism, and
a forceps for cutting off a part of tissue as a sample piece, said forceps having a clamp for grasping a part of tissue to be cut off, said clamp having a movable jaw capable of opening and closing which is joined to a fixed jaw with a chopping block piece, an open-close mechanism with an operation part for opening and closing said movable jaw, and a longitudinal penetrating passage into which said resection blade is inserted and moves back and forth therein.
3. The tissue excision and cutting apparatus as set forth in or , wherein said operation part of said the open-close mechanism is constructed such that it can be held by one hand and said movable jaw can be opened and closed by manual operation of said one hand.
claim 1
2
4. The tissue excision and cutting apparatus as set forth in or , wherein said chopping block piece is formed with a blade receiving surface so as to contact with the whole circumference of said blade of resection blade.
claim 1
2
5. The tissue excision and cutting apparatus as set forth in or , wherein said passage is at the rear end provided with an insertion opening for said resection blade and wherein said insertion opening is further provided with a sealing valve mechanism for isolating ventilation into the open air even when said resection blade is put in and out.
claim 1
2
6. The tissue excision and cutting apparatus as set forth in , wherein said sealing valve mechanism is detachable and exchangeable for said insertion opening.
claim 5
7. The tissue excision and cutting apparatus as set forth in or , wherein said resection blade further comprises a sealing rod for airtightly sealing the inner of said hollow cylinder body of said resection blade and a push shaft for outwardly extruding a part of tissue which is cut off by said blade and held in said hollow cylinder body as a sample piece, by being airtightly inserted into said cylinder body from a push hole provided at the rear end of said sealing rod.
claim 1
2
8. The tissue excision and cutting apparatus as set forth in or , wherein said resection blade further comprises a sealing push rod which is airtightly inserted into said hollow cylinder body from an insertion opening provided at the rear end of said cylinder body, and a simple suction means connected to said sealing push rod for keeping said inner portion of said hollow cylinder body airtight condition to hold the cut off tissue as a sample piece by said resection blade in said cylinder body.
claim 1
2
9. The tissue excision and cutting apparatus as set forth in or , wherein said resection blade further comprises a sealing suction rod into which a sealing suction mechanism is incorporated, said sealing suction rod airtightly sealing the inner portion of said resection blade and keeping airtight condition in the inner portion of said cylinder body to hold the cut off tissue as a sample piece by said resection blade, and a push rod for outward extruding a part of tissue cut off by said resection blade and held in said hollow cylinder body as a sample piece, by being airtightly inserted into said hollow cylinder body from a push hole provided at the rear end of said sealing suction rod.
claim 1
2
10. The tissue excision and cutting apparatus as set forth in or , wherein said resection blade further comprises a suction sampling collecting means detachably connected to the rear end of said hollow cylinder for sucking to collect the cut off tissue as a sample piece by said resection blade.
claim 1
2
11. The tissue excision and cutting apparatus as set forth in or , wherein said resection blade is in an inner surface adjacent to its tip end provided with a holding craw for preventing dropping out of the cut off tissue as a sample piece by said resection blade.
claim 1
2
12. A forceps used together with a resection blade which is inserted into a trocar for cutting off a part of tissue for sampling in a laparoscopic surgery or the like comprising:
a clamp provided at a tip end having a movable jaw capable of opening and closing which is jointed to a fixed jaw with a chopping block piece,
an open-close mechanism with an operation part for opening and closing said movable jaw, and
a longitudinal penetrating passage into which said resection blade is inserted and moves back and forth therein.
13. The forceps as set forth in , wherein said operation part of said open-close mechanism is constructed such that it can be held by one hand and said movable jaw can be opened and closed by manual operation of said one hand.
claim 12
14. The forceps as set forth in , wherein said chopping block piece is formed with a blade receiving surface so as to contact with the whole circumference of said blade of resection blade.
claim 12
15. The forceps as set forth in , wherein said passage is at rear end provided with an insertion opening for said resection blade and wherein said insertion opening is further provided with a sealing valve mechanism for isolating ventilation of the open air even when said resection blade is put in and out.
claim 12
16. The forceps as set forth in , wherein said sealing valve mechanism is detachable and exchangeable for said opening.
claim 5
Applications Claiming Priority (4)
Application Number | Priority Date | Filing Date | Title |
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JP33135898 | 1998-11-20 | ||
JP10-331358 | 1998-11-20 | ||
JP11-078436 | 1999-03-23 | ||
JP07843699A JP3708356B2 (en) | 1998-11-20 | 1999-03-23 | Tissue extractor and excision forceps used therefor |
Publications (2)
Publication Number | Publication Date |
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US20010044635A1 true US20010044635A1 (en) | 2001-11-22 |
US6398741B2 US6398741B2 (en) | 2002-06-04 |
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ID=26419500
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Application Number | Title | Priority Date | Filing Date |
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US09/439,760 Expired - Fee Related US6398741B2 (en) | 1998-11-20 | 1999-11-15 | Tissue excision and cutting apparatus and its forceps |
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US (1) | US6398741B2 (en) |
JP (1) | JP3708356B2 (en) |
DE (1) | DE19955592A1 (en) |
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US20070288044A1 (en) * | 2006-05-12 | 2007-12-13 | Terumo Kabushiki Kaisha | Manipulator |
US20110224705A1 (en) * | 2010-03-12 | 2011-09-15 | Ueno Tomio | Surgical tool for anastomosis |
WO2011143432A1 (en) * | 2010-05-12 | 2011-11-17 | Ethicon Endo-Surgery, Inc. | Instrument for debriding fistula and applying therapeutic cells |
US20130018404A1 (en) * | 2011-07-13 | 2013-01-17 | Sascha Berberich | Medical cutting instrument for cutting muscles and tendons |
US20130018403A1 (en) * | 2011-07-13 | 2013-01-17 | Sascha Berberich | Medical cutting instrument for cutting muscles and tendons |
US8696671B2 (en) | 2005-07-29 | 2014-04-15 | Vertos Medical Inc. | Percutaneous tissue excision devices |
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Also Published As
Publication number | Publication date |
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JP2000210293A (en) | 2000-08-02 |
DE19955592A1 (en) | 2000-06-08 |
US6398741B2 (en) | 2002-06-04 |
JP3708356B2 (en) | 2005-10-19 |
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