KR100341018B1 - Artificial Blood-vessel Instruments - Google Patents

Abstract

The present invention relates to an insertion device for inserting an artificial blood vessel into a region where blood vessels are widened in a blood vessel. The present invention relates to a device for artificial blood vessel insertion to maintain a constant passage of blood vessels.

The present invention connects a plurality of wires to a single ring-shaped stent to extend, the wire is inserted into the guide tube installed in the artificial blood vessel through the expanded portion of the vessel through the tube in the state in which the stent is reduced The artificial blood vessels are pushed by a separate moving rod in a state in which the artificial blood vessels are inserted in an excessively inserted state so that the artificial blood vessels are fixed while being moved in contact with the stent along a plurality of wires. Is installed firmly in the state hooked to the hook of the wire connected to the stent, as well as a plurality of wires are installed in the outer periphery of the artificial blood vessels so that the passage is kept constant without pressurizing the widened blood vessels so that the widened vessels burst It is characterized by effective prevention of the risk.

Description

Artificial blood vessel insertion device {Artificial Blood-vessel Instruments}

The present invention relates to an insertion device for inserting artificial blood vessels into the region where the blood vessels are widened in the blood vessel, and more specifically, with the stent (Stent) to expand the vessels such as blood vessels are expanded and the blood vessels are expanded in the blood vessels are expanded The present invention relates to an artificial blood vessel insertion apparatus for expanding a stent by inserting a volume in a reduced state and fixing artificial blood vessels to the stent to maintain a constant passage of blood vessels.

In general, when waste blood accumulates in blood vessels and the blood vessels become wider, the blood vessels in the widened portion of the blood vessels become thinner and the portion of the blood vessels may burst and cause bleeding.

Therefore, in the case where the expansion of the blood vessels occurs, artificial blood vessel replacement or bypass composition is used in the area where the blood vessels are expanded through a surgical operation.

However, such a surgical operation is required to remove the body of the lesion, so that the area is very large, leaving a large scar, and also requires a lot of care periods, there is a disadvantage that the surgical effect is not very high.

In particular, in the case of the above vascular disease, it appears that the cause of hypertension, heart disease, etc. are most often the surgery itself is not possible in this case.

In order to overcome this problem, in recent years, instead of incision surgery, a small hole is drilled in the femoral artery, and a tube is inserted into the blood vessel from the outside of the body through the hole to insert an artificial blood vessel into the expanded portion of the blood vessel through the tube. It is being performed.

In the method using the artificial blood vessel as shown in Fig. 1 and 2 is a ring-shaped, when the compression is reduced in its volume, the release of the compression is expanded to its original state when the stent 20 of the shape memory alloy is returned to the longitudinal direction Installed in a plurality of connections, and inserted into the compression through a tube inserted into the blood vessel in a state in which the artificial blood vessel 10 is positioned outside the plurality of stents 20 to return to its original state at the expanded portion of the blood vessel again. It will be placed to position.

The artificial blood vessel 10 serves to maintain a constant while preventing the expanded portion of the blood vessels to expand.

However, this method is configured to be connected to the plurality of stents 20, the operation of inserting into the blood vessel through the tube in the compressed state is very difficult due to the repulsive action of the stent 20 has the difficulty of the operation.

In addition, as described above, a plurality of stents 20 inserted together with the artificial blood vessel 10 have a risk factor that causes the blood vessels to expand further due to the action of pushing the expanded portion of the blood vessel by the elastic force. Publication No. US Pat. No. 5,139,17 is to perform a procedure by inserting the inside of the sheath guide tube in a state in which a loop is formed at the lower end of the artificial blood vessel and bound with a suture, while the sheath guide tube is positioned at the lesion site through the blood vessel. However, there is a method of manually completing artificial blood vessel surgery by manually pushing the artificial crank to the cis guide tube, placing the artificial blood vessel at the lesion site, and then disengaging the sutures attached to the lower end of the artificial blood vessel. This is only a procedure for artificial blood vessels.

The present invention has been created to fundamentally solve all the problems of the prior art, the purpose is to insert and install a single stent and artificial blood vessels used semi-permanently and effectively in the expanded region of the blood vessels .

It is also an object of the present invention to maintain the passage while the stent is installed outside the expanded portion of the blood vessel to prevent expansion of the expanded portion of the vessel.

The object of the present invention is to connect a plurality of wires to a single ring-like stent to extend, the wire is inserted through the guide tube installed in the artificial blood vessel to insert the stent excessively through the tube to expand the blood vessels It is achieved by pushing the artificial blood vessels by a separate moving rod in a state in which the artificial blood vessels are fixed while being moved in contact with the stent along a plurality of wires.

1 is a front view of an exploded state showing a conventional artificial blood vessel insertion device,

Figure 2 is a cross-sectional view of the combined state of FIG.

3 is a front view of an exploded state showing the device of the present invention,

4 and 5 is a front view showing an operating state,

Figure 6 is a cross-sectional view showing the use state in which the device of the present invention in the blood vessel,

7 is a cross-sectional view showing a use state in which the device of the present invention is installed according to another embodiment;

<Explanation of symbols for main parts of drawing>

10; Artificial blood vessels 12; Support hole 15; Guide

20; Stent 25; Wire 26; Hook

30; Moving rod 32; Bending hang

Hereinafter, a preferred embodiment for achieving the object of the present invention will be described in detail with reference to the accompanying drawings.

That is, the present invention, in the insertion and installation of the artificial blood vessel 10 with the stent 20 (Stent) in the expanded portion of the blood vessel 5 is widened, as shown in Figures 3 to 5,

A plurality of wires 25 made of stainless steel wires are extended to a single stent 20 bent in a ring shape of a superelastic shape memory alloy material in a ring shape.

The wire 25 is installed on the outer periphery of the artificial blood vessel 10 made of poly terra fluorethylene (POLY TERA FLURO ATHYLENE). The stent 20 is inserted into and inserted through a plurality of guide tubes 15 and 15. The artificial blood vessel 10 is moved to a stent 20 along the plurality of wires 25 by the moving rod 30 in a state in which the expanded portion of the blood vessel is inserted into the compressed position in an excessive position. .

At this time, the artificial blood vessel 10 punctures a plurality of support holes 12 on the upper outer circumference thereof, and the movable rod 30 forms a plurality of bent engaging portions 32 at the tip thereof to support the support holes 12. By inserting to protrude outward from the inner side of the push rod 30 to move the artificial blood vessel 10 along the wire 25.

In addition, on the wire 25 of the position adjacent to the stent 20, the same separation distance as the guide tube (15) (15) installed on the upper and lower outer periphery of the artificial blood vessel (10) in the direction opposite to the insertion direction of the artificial blood vessel (10) The upper and lower hooks 26 and 26 protrude so that the guide tubes 15 and 15 of the artificial blood vessel 10 moving along the wire 25 are caught and fixed.

As the reference numeral 5a, the branched blood vessel of the vessel 5, the 10 'indicates the branching vessel of the artificial blood vessel 10 to be installed as the branched blood vessel 5' of the vessel (5).

Next will be described the operation and action of the present invention configured as described above.

First, the position, length, and the inner diameter of the portion of the waste product widened in the blood vessel 5 with a fluoroscopic apparatus using an angioplasty are examined, and an anesthesia is performed before the necessary portion.

In this state, longer than the length of the enlarged expanded portion of the blood vessel, corresponding to the inner diameter of the artificial vessel 10 and the appropriate size of the stent 20 is selected.

Referring to the case of the procedure as shown in FIG. 6 in such a state, a plurality of guide tubes installed on the upper and lower outer periphery of the artificial blood vessel 10 have a plurality of wires 25 connected to the stent 20 ( 15) to penetrate through the (15),

The support hole 12 formed on the upper outer periphery of the artificial blood vessel 10 is installed to protrude from the inner side to the outer bending portion 32 of the tip of the moving rod 30.

In the assembled state, a small hole is drilled in the femoral artery, and a tube is inserted into the hole, and the above-described stent 20, artificial blood vessel 10, and a moving rod 30 are compressed in the assembled state and the volume thereof. Since it is inserted in a minimized state, it will be inserted up to the expanded portion of the blood vessel.

In more detail, first, the stent 20 pushes a plurality of wires 25 connected to the stent 20 to a position passing through an extended portion of the blood vessel 5.

At this time, the stent 20 is elastically installed in the blood vessel 5 without moving the position by its elastic force, which is installed at a position beyond the expansion portion of the blood vessel, so that the expansion portion is not widened.

In addition, since the single stent 20 is pressed and inserted, the operation is easy.

In this manner, the artificial vessel 10 is moved by pushing the movable rod 30 while the stent 20 is inserted.

At this time, the bent engaging portion 32 of the tip of the moving rod 30 is moved in a state supporting the support hole 12 of the artificial blood vessel 10, the artificial blood vessel 10 is the guide tube 15 a number of The guide is moved along the wire 25.

As such, the artificial blood vessel 10 is moved to be positioned adjacent to the stent 20.

At this time, the upper and lower hooks 26 and 26 protruding to the position adjacent to the stent 20 protrude in the opposite direction to the inserting direction of the artificial blood vessel 10, so that the hook 26 is not inclined. It is guided through the upper and lower guide tubes (15, 15) of the artificial blood vessel (10).

When pulling the movable rod 30 in such a state, the artificial blood vessel 10 that has been moved backward by the movable rod 30 is attached to the upper and lower hooks 26 and 26 formed on the plurality of wires 25. The upper and lower guide tubes 15 and 15 of the artificial blood vessel 10 are fixed so as not to be caught and moved.

Continuously pulling the movable rod 30 in such a state, since the artificial blood vessel 10 is in a fixed state, the bending catching portion 32 is caught by the support hole 12 of the artificial blood vessel 10 and the bending thereof. As the part is unfolded, only the moving rod 30 is withdrawn.

In this way, when the artificial blood vessel 10 is inserted into the expansion portion of the blood vessel, a medical cutter (not shown) cuts the wire 25 extending from the artificial blood vessel 10 so that the procedure of artificial blood vessel 10 is performed. When the blood vessel 10 is completed, the artificial blood vessel 10 maintains a constant flow path of blood vessels by blood flow.

On the other hand, when the artificial blood vessels 10 need to be installed up to the branched blood vessels 5 'of the blood vessel 5, as shown in FIG. Install the artificial blood vessel 10 in the above-described way so that the organ 10 'is located in the branched blood vessel 5',

In such a state, the other stent 20 and the artificial blood vessel 10 may be inserted into the branched blood vessel 5 'by the same method described above.

At this time, the artificial blood vessel 10 located in the branched blood vessel 10 'is stably installed so that the stent 20 is supported on the branched tube 10' of the artificial blood vessel 10 of the blood vessel 10 by the blood vessel 10. And artificial blood vessels (10) installed in the branched blood vessel (10 ') is to maintain the connected state.

The specific procedure in this case is the same as the method described above.

As described above, the present invention provides a simple and effective insertion of artificial blood vessels while using a single stent, as well as the artificial blood vessels are firmly installed in a state of hooking a wire connected to the stent. Since a plurality of wires are installed around the periphery to maintain a constant passage without pressurizing the widened blood vessels, the widened blood vessels will effectively prevent the risk of bursting.

Claims (3)

In inserting and installing the artificial blood vessel 10 with the ring-shaped stent 20 in the expanded site | part where the blood vessel 5 was expanded, A plurality of wires 25 are connected to the single stent 20 so as to extend, and the wires 25 are inserted to penetrate a plurality of guide tubes 15 and 15 installed at upper and lower outer periphery of the artificial blood vessel 10. The artificial stent 10 is moved along the plurality of wires 25 by the moving rod 30 in the state where the stent 20 is pressed to the position passing the expanded portion of the blood vessel in the compressed state. The artificial blood vessel insertion device, characterized in that it is made to move in contact with and fixed to the expanded portion of the blood vessel. The method of claim 1, The artificial blood vessel 10 punctures a plurality of support holes 12 on the upper outer circumference thereof, and the movable rod 30 forms a plurality of bent catches 32 at the tip thereof to form the support holes 12. Artificial blood vessel inserting device, characterized in that made to move protruding from the inner side to the outer side by pushing the moving rod (30) along the wire (25). The method of claim 1, On the wire 25 of the position adjacent to the stent 20 at the same separation distance as the guide tube (15) (15) installed on the upper and lower outer periphery of the artificial blood vessel (10) in the direction opposite to the insertion direction of the artificial blood vessel (10) Artificial blood vessel insertion device, characterized in that the guide tube (15) (15) of the artificial blood vessel (10) moving along the wire (25) by protruding the upper and lower hooks (26) (26).