KR20010016905A - Stent graft - Google Patents

Abstract

PURPOSE: Provided is a stent connected with the inside of an artificial blood vessel, which can improve longitudinal flexibility when the stent shrinks and increase expansion ability. CONSTITUTION: The artificial blood vessel stent comprises an artificial blood vessel body(1) inserted in the artery, a main stent(3) comprising a plurality of unit structures(5), wherein the unit structures(5) are coupled with the inside of the artificial blood vessel body(1) at a regular interval and turned zigzag by a plurality of bending points to form a cylindrical structure, a side stent comprising connection structures(9) connected with the unit structures(5) by means of twisting each other at least one time.

Description

Artificial blood vessel stent {STENT GRAFT}

The present invention relates to an artificial blood vessel stent, and more particularly, to prevent the deformation of artificial blood vessels by combining the stent to the inside of the artificial blood vessels to improve the flexibility in the longitudinal direction when the contraction and increase the expandability In addition, to remove the risk of falling off the connection with the stent, and relates to an artificial blood vessel stent that can prevent the movement of the stent in the interior of the vessel when the stent is installed.

In general, an aneurysm is a disease caused by swelling of an artery, such as a balloon, which is very dangerous because it can burst like a balloon.

Conventional methods for treating such an aneurysm include a surgical procedure to replace artificial blood vessels by surgical surgery and excision of the skin of the lesion to expose the artery to the outside, and then inserting an artificial blood vessel stent into the inside of the artery using an intubation apparatus. It is largely classified as an incision.

According to the above-described incision treatment method, the skin should be incised by a certain length, and it is desirable to reduce the pain to the patient and to reduce the incision site of the skin so that the patient can recover quickly.

However, the stent is stretched in the longitudinal direction during contraction but artificial blood vessels are not stretched at all, so when the stent is stretched a lot when the artificial blood vessel stent is contracted, that is, the flexibility in the longitudinal direction is decreased, so that the shape of the artificial blood vessel is deformed or the There is a risk of dropping the connection site, and therefore, when the artificial vessel stent shrinks, the pressing of the stent in the longitudinal direction is minimized, so the flexibility in the longitudinal direction needs to be excellent.

As described above, the artificial blood vessel stent inserted into the artery using the inserter is a stent having its own elastic force so that the artificial blood vessel body and the artificial blood vessel body can be inserted into the artificial blood vessel body while maintaining the shape of the artificial blood vessel body. Is done.

The stent may be generally contracted by applying an external force, and each of the plurality of unit structures that are arranged in regular intervals and zigzag turns to form a cylindrical shape, and connects the unit structures and neighboring unit structures at regular intervals. It consists of a connecting body.

These conventional stents are made of stainless steel wire and are arranged at regular intervals, respectively, to form a plurality of turns zigzag turn to form a cylindrical shape, the stent is made by connecting the turn part and the adjacent turn part again with a stainless steel wire When the contraction is greatly reduced in the flexibility in the longitudinal direction, there is a problem that the stent is easily moved inside the blood vessel when installing the stent.

Therefore, the present invention has been proposed to solve the above problems, the object of the present invention is to combine the stent to the inside of the artificial blood vessels to improve the flexibility in the longitudinal direction when the contraction and increase the expandability The present invention provides an artificial blood vessel stent that prevents deformation of artificial blood vessels and removes the risk of falling of the connection portion with the stent, and prevents the movement of the stent in the vessel when the stent is installed.

In order to achieve the above object, the present invention provides a artificial blood vessel body for blocking the pressure inside the artery to be applied to the weakened blood vessel wall, and the artificial blood vessel body is provided, the contraction when the external force is applied In addition to the artificial vessel stent consisting of a stent to expand to its original shape when the external force is removed,

The stent is coupled to the inner surface of the artificial blood vessel body at regular intervals, is formed of a plurality of unit structures zigzag by a plurality of bending points to form a cylindrical structure while occupying a certain width, the unit structure is When the stent contracts, the unit structure and the neighboring unit structures are connected to each other so as to not extend in the longitudinal direction.

1 is an exploded front view showing an artificial vessel stent according to the present invention.

Figure 2 is a partial incision front view showing the binding state of the artificial vessel stent in accordance with the present invention.

Figure 3 is a plan view showing an artificial vessel stent in accordance with the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an exploded front view showing an artificial blood vessel stent according to the present invention, Figure 2 is a partial cutaway front view showing a bonding state of the artificial blood vessel stent according to the present invention, Figure 3 shows an artificial blood vessel stent according to the present invention One floor plan.

The artificial blood vessel stent according to the present invention includes an artificial blood vessel body (1) inserted into an artery to block the pressure inside the blood vessel from being applied to a weakened blood vessel wall;

It is provided in the artificial blood vessel body 1, and is contracted when the external force is applied, and when the external force is removed, the main stent (3) for expanding the original shape to maintain the artificial blood vessel in a constant shape.

The main stent (3) is coupled to the inner surface of the artificial blood vessel body (1) at regular intervals, a plurality of unit structures zigzag by a plurality of bending points to form a cylindrical structure while taking a certain width (5) Is formed.

A connection member (not shown) is connected to the unit structure 5 by twisting or engaging at least one or more times along a spiral at regular intervals.

And at least one end of the main stent (3) is at least one turn in a zigzag to form a cylindrical shape, and to improve the expandability to prevent the movement of the main stent in the vessel when the main stent is installed There is provided a subtent of the connecting structure (9).

In addition, the unit structure (5) is connected to each other or twisted at least one or more times corresponding to the unit structure (5) and the neighboring unit structure in order to improve the longitudinal flexibility when the main stent (3) shrinks Connect with

The longitudinal axis length H of the mesh formed by connecting the unit structure 5 and the neighboring unit structure 5 to each other is equal to the horizontal axis length of the mesh so as to further improve the flexibility of the main stent 3. It is preferable to be formed in the same or at least one or more times L).

The unit structure 5 is twisted at least once with the neighboring unit structure 5 when it is turned to form the neighboring unit structure 5 after one turn.

The connection structure 9 is preferably twisted at least one or more times with the connection structure 9 and the adjacent connection structure 9 so as to retain the expansion force of a predetermined size or more.

The connection structure 9 is preferably formed to have a pitch larger than the pitch of the unit structure (5) to further improve the longitudinal flexibility and expandability of the main stent (3).

And the unit structure (5) is connected to the artificial blood vessel body 1 by a connection string 11 at regular intervals, the connection string 11 is a unit structure (5) to the artificial blood vessel body (1) It is preferable to connect at regular intervals to the connecting portion of the unit structure (5) and the connecting structure (9) so as to be firmly connected.

The artificial vessel stent configured as described above is inserted with an inserter (not shown) in advance before being inserted into the artery in a state in which a part of the artery is cut.

That is, when the main vessel 3 of the artificial vessel stent and the main stent 3 and the subtent are contracted to be inserted into the inserter, the unit structure 5 extends in the longitudinal direction of the main stent 3. In addition, the unit structure 5 and the neighboring unit structure 5 are separated from each other by the hooked portion.

Therefore, the unit structure 5 of the main stent (3) is to increase the flexibility in the longitudinal direction is not stretched in the longitudinal direction of the main stent (3) and to shrink to a minimum volume.

In addition, when the connecting structure 9 of the subtent together with the unit structure 5 is contracted, the connecting structure 9 is expanded to a predetermined size or more, so that the installation of the main stent 3 inside the blood vessel during the installation of the main stent 3 Movement is prevented.

As described above, the present invention prevents deformation of artificial blood vessels and connects them with the stents, since the stents are coupled to the inside of artificial blood vessels to improve the flexibility in the longitudinal direction when contracted and to increase the expandability. The risk of falling in advance is eliminated, and the installation of the stent has the effect of preventing the movement of the stent inside the vessel.

Claims (6)

The artificial blood vessel body is inserted into the artery and is provided to the artificial blood vessel body for blocking the pressure inside the blood vessel from being applied to the weakened blood vessel wall, and when the external force is applied, the artificial blood vessel contracts and expands to its original shape when the external force is removed. In the artificial vessel stent consisting of the main stent to be, The main stent is coupled to the inner surface of the artificial blood vessel body at regular intervals, is formed of a plurality of unit structures zigzag by a plurality of bending points to form a cylindrical structure while taking a certain width, At least one end of the main stent to the at least one turn in a zigzag to form a cylindrical shape to improve the expandability to prevent the movement of the stent in the blood vessels during the installation of the stent and the at least one An artificial blood vessel stent provided with a boosting stent consisting of a connecting structure for twisting more than once. The artificial blood vessel according to claim 1, wherein the unit structure is connected to the unit structure and the neighboring unit structure in correspondence with each other or twisted at least one time so as to improve the longitudinal flexibility when the main stent is contracted. Stent. According to claim 1 or claim 2, wherein the longitudinal length of the mesh formed by the unit structure and the neighboring unit structure is connected to each other and the horizontal axis length of the mesh to further improve the longitudinal flexibility of the main stent Artificial blood vessel stent formed the same or at least one or more times. The artificial blood vessel stent of claim 1, wherein the connection structure is twisted at least one or more times with the connection structure adjacent to the connection structure so as to have expansion force of a predetermined size or more. The artificial blood vessel stent of claim 1 or 4, wherein the connection structure is formed to have a pitch larger than that of the unit structure so as to further improve the longitudinal flexibility and expandability of the main stent. The artificial blood vessel stent of claim 1, wherein the unit structure is connected to the artificial blood vessel body by a connection string at regular intervals.