DE102009058132A1 - Occluder for use in vascular system of patient for sealing hollow-cylindrical body vessels, has sealing element arranged at inner wall of vessels, where occluder is manufactured from body through insertion of openings in area of element - Google Patents

Abstract

The occluder (10) has a cylinder-shaped sealing element (11) arranged at an inner wall of body vessels in an expanded condition, where the occluder is manufactured from a tube-shaped body through insertion of walls openings (17) in an area of the sealing element. The openings extend parallel to a longitudinal axis of the occluder, where the occluder is made from shape memory polymer. Fluid-tight sealing units (13-15) are arranged in the sealing element and made from textile material or plastic e.g. polyethylene terephthalate, polyethylene, PTFE or expanded PTFE.

Description

The invention relates to a cylindrical occluder for sealing hollow cylindrical body vessels, which is minimally invasively positioned in a contracted state and can be converted into an expanded state in which it has a diameter-expanded cylindrical sealing element, which in the expanded state for engagement with the inner wall of a body vessel is determined.

Such occluders are already known. For example, describes the EP 0 808 138 B1 an occluder made of a metal mesh of interwoven metal strands. The occluder is placed in the desired location in a patient's vascular system using a catheter and expanded. With the help of the occluder, it is possible to close the vessels of a patient in order, for example, to stop the blood flow through an artery at a tumor or other damage and, for example, to be able to lay a bypass around the damaged area.

The known occluders have the disadvantage that their production of thin metal wires or polymer fibers is relatively expensive.

It is therefore an object of the present invention to provide an occluder which is easy to manufacture and to handle.

This object is achieved by a cylindrical occluder for sealing hollow cylindrical body vessels that minimally invasive positionable in a contracted state and can be converted into an expanded state in which it has a diameter-expanded cylindrical sealing element, which in the expanded state to rest on the Inner wall of a body vessel is determined. In this case, the occluder is produced from a tubular body by introducing wall openings in the region of the sealing element. The occluder according to the invention is thus not made of fabrics or nets, which are previously made in relatively complex process of thin threads or wires. Instead, the occluder is made of a solid tubular body, which is provided with wall openings at least at the point which forms the sealing element in the expanded state. By the introduction of the wall openings, it is possible to produce the sealing elements with enlarged diameters, for example by the tubular body is compressed. The wall openings can be preferably introduced by laser cutting in the tubular body. This method is highly accurate and relatively inexpensive. The mutual distance of the wall openings can also be chosen such that the intervening wall webs of the tubular body are thicker than the threads or strands of the known occluders. As a result, occluders according to the invention can be produced with a higher dimensional stability than the known occluders.

Preferably, the wall openings may be formed diamond-shaped. This shape of the wall openings allows easy deformability of the tubular body, so that in the expanded state having an enlarged diameter sealing element is easy to produce. The mutual distance of the wall openings and their distribution over the circumference of the tubular body can be selected according to the desired properties of the occluder. The configuration of the wall openings determines the properties of the sealing element.

In a preferred variant, the wall openings may extend substantially parallel to the longitudinal axis of the occluder. As a result, they are easy to introduce into the tubular body and also ensure easy transfer of the occluder in the expanded state. However, the wall openings may also extend helically over the circumference of the occluder. In addition, the wall openings may extend at an acute angle to the longitudinal axis of the occluder.

Particular advantages arise when the occluder from the expanded state can be converted by a reversible elastic or pseudoelastic deformation in the contracted state. When contracted, the occluder can be positioned.

Further advantages arise when the occluder is made of a shape memory alloy, in particular nitinol. When using such materials, the expanded state of the occluder can be fixed. Nitinol also has resilient properties, so that the occluder can be brought into the contracted state for introduction into the body of the patient and, for example, introduced by means of a catheter. At the target site, the catheter can be withdrawn, whereby the occluder assumes the stored expanded form in which it is able to seal the vessel opening.

Alternatively to the use of a shape memory alloy, a shape memory polymer can also be used to produce the occluder of the invention. Polymers also have excellent shape memory properties and are even easier to deform than nitinol.

According to one embodiment of the invention can be provided that at both ends tubular portions are provided with respect to the expanded sealing element of smaller diameter, wherein the tubular portions are integrally formed with the sealing element. In particular, the tubular sections may be connected via webs of material with the sealing element. This makes it possible, as it were, to form the sealing element as a closed cage, in which further sealing means can be arranged which do not simply move out of the "cage". The tubular sections at the ends of the occluder may also be used to position the occluder.

It is particularly preferred if one or more liquid-tight or liquid-absorbing sealing means are arranged in the sealing element. In this case, the sealing means can extend over the entire cross section of the sealing element and thereby act sealingly, in particular to stop a flow of fluid through the occluder. The sealing elements should act in particular for body fluids, such as blood, sealing.

According to a development it can be provided that the sealing means are expandable. In particular, the sealing means in the contracted sealing element can also be arranged in a contracted manner and expanded together with the sealing element, so that they can fill the entire cross section in the interior of the sealing element and thereby prevent a liquid flow.

The sealing means may be formed as membranes. In particular, the sealing means may be made of different materials. In order to achieve a high level of body compatibility, the sealant may be made of textile material, plastic, PET, polyethylene, but more preferably of PTFE or ePTFE.

Further advantages arise when the occluder can be brought into contact with the vessel wall by upsetting and / or twisting of the sealing element. Thereby, the sealing element can be expanded in a simple manner and a good sealing effect can be achieved. Furthermore, it is conceivable to expand (gradually) the sealing element by means of tubes which are introduced into the sealing element and then to compress the ends of the occluder.

Like the known occluders, the occluder according to the invention may preferably be positionable in the body by means of a catheter or a helix. In addition, the occluder according to the invention can be guided and positioned through a guide wire. Using the catheter or coil, the occluder can be moved through the patient's vascular system with high accuracy and positioned at the desired location. For the attachment of the catheter or the coil different possibilities come into consideration. In a particularly simple embodiment, the catheter or the helix can be connected to one of the ends of the occluder by means of a screw connection or by means of a bayonet closure.

After insertion of the occluder, it should be overgrown by the body tissue. This can be facilitated by the fact that the entire occluder is provided with a biocompatible coating.

Hereinafter, a preferred embodiment of an occluder according to the invention will be described in more detail with reference to the drawing.

In detail show:

1 a perspective view of an occluder in the expanded state;

2 a perspective view of a tubular body for producing an occluder according to the invention.

The in 1 illustrated cylindrical occluder 10 shows a sealing element 11 , opposite the ends 12 has a significantly enlarged diameter. In the implanted state, the sealing element is located 11 from the inside to the vessel wall of a vessel to be closed. Inside the sealing element 11 In the exemplary embodiment, three sealants 13 - 15 shown in the longitudinal direction of the occluder 10 seen arranged one behind the other. The sealants 13 - 15 are formed of a liquid-tight membrane and with the sealing element 11 connected, in particular with this sewn. The sealing element 11 and the ends formed as tubular portions 12 are formed in one piece. While the ends 12 are formed of solid pipe sections, is the sealing element 11 of metal bars 16 educated. The metal bars 16 caused by cutting diamond-shaped wall openings 17 in a tubular body, as he still in the end 12 you can see. Is the occluder 10 at the point of use, the sealing element 11 , in particular gradually by means of tubes of different diameters, expanded. After expanding the sealing element 11 become the tubular ends 12 compressed in the longitudinal direction, causing the in the 1 shown state arises. Will the occluder 10 made of a material with shape memory, this expanded form can be stored in the material. The ends 12 are with the sealing element 11 over material webs 18 connected to the expanded sealing element 11 essentially in a plane perpendicular to the longitudinal axis of the occluder 10 are arranged. This is the occluder 10 Caged like a cage. Thus, can prevents the sealant 13 - 15 the occluder 10 leave, they should be inadvertently from the sealing element 11 to solve.

To insert the occluder 10 becomes the occluder 10 on the other hand brought back into its contracted state, the one of the 2 equivalent. In the contracted state is the occluder 10 Tubular and can thus easily with a catheter or a coil minimally invasive spend on the vascular system to the desired location. Is the occluder 10 positioned, so can the expanded, stored state of the occluder 10 be activated, causing the occluder 10 can develop its sealing effect.

In the 2 is the occluder 10 shown in the contracted state. Here it can be seen that the diameter of the occluder 10 over its entire length about the diameter of the ends formed as tubular sections 12 . 20 equivalent. In the area of the sealing element 11 are wall openings 17 introduced by means of a laser. The connection points of the metal webs 16 are not shown for reasons of clarity.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 0808138 B1 [0002]

Claims (17)

Cylindrical occluder ( 10 ) for sealing hollow-cylindrical body vessels, which can be positioned in a minimally invasive manner in a contracted state and converted into an expanded state, in which it has a diameter-expanded cylindrical sealing element (US Pat. 11 ), which in the expanded state is intended to rest on the inner wall of a body vessel, characterized in that the occluder ( 10 ) from a tubular body by introducing wall openings ( 16 ) in the region of the sealing element ( 11 ) is made. Occluder according to claim 1, characterized in that the wall openings ( 17 ) are substantially diamond-shaped. Occluder according to one of the preceding claims, characterized in that the wall openings ( 17 ) substantially parallel to the longitudinal axis of the occluder ( 10 ). Occluder according to one of the preceding claims, characterized in that the wall openings ( 17 ) spirally over the circumference of the occluder ( 10 ). Occluder according to one of the preceding claims, characterized in that the wall openings ( 17 ) at an acute angle to the longitudinal axis ( 10 ) of the occluder are arranged. Occluder according to one of the preceding claims, characterized in that it can be converted from the expanded state by a reversible elastic or pseudoelastic deformation in the contracted state. Occluder according to one of the preceding claims, characterized in that it is made of a shape memory alloy, in particular Nitinol. Occluder according to one of the preceding claims, characterized in that it is made of a shape-memory polymer. Occluder according to one of the preceding claims, characterized in that at both ends ( 12 . 20 ) tubular sections with respect to the expanded sealing element ( 11 ) are provided with a smaller diameter, wherein the tubular portions integral with the sealing element ( 11 ) are formed. Occluder according to one of the preceding claims, characterized in that in the sealing element ( 11 ) one or more liquid-tight or liquid-absorbing sealants ( 13 - 15 ) are arranged. Occluder according to claim 10, characterized in that the sealing means ( 13 - 15 ) are expandable. Occluder according to one of the preceding claims, characterized in that the sealing means ( 13 - 15 ) are made of textile material, plastic, PET, polyethylene, PTFE or ePTFE. Occluder according to one of the preceding claims, characterized in that it by expanding, upsetting and / or twisting of the sealing element ( 11 ) can be brought into contact against the vessel wall. Occluder according to one of the preceding claims, characterized in that it can be positioned in the body by means of a catheter or a helix. An occluder according to claim 14, characterized in that the catheter or the helix is wound on at least one of the ends ( 12 . 20 ) of the occluder ( 10 ) is attachable. An occluder according to claim 15, characterized in that the catheter or the helix is in one of the ends ( 12 . 20 ) of the occluder ( 10 ) screwed or fastened by means of a bayonet lock. Occluder according to one of the preceding claims, characterized in that it comprises a biocompatible coating.

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