KR101666547B1 - Artificial blood-vessel for hemodialysis - Google Patents

Abstract

TECHNICAL FIELD [0001] The present invention relates to a synthetic blood vessel for hemodialysis, and more particularly, to a synthetic blood vessel for hemodialysis, in which hemostasis of artificial blood vessels is performed well even after needle insertion.
The artificial blood vessel for hemodialysis according to the present invention comprises: a hollow blood vessel tube; A metal stent inserted into the blood vessel tube; And a cover member which is coupled to the stent and is disposed inside the blood tube, wherein the cover member is made of a material that is closely contacted when the needle is punctured to close the hole.

Description

[0001] ARTIFICIAL BLOOD-VESSEL FOR HEMODIALYSIS [0002]

TECHNICAL FIELD [0001] The present invention relates to a synthetic blood vessel for hemodialysis, and more particularly, to a synthetic blood vessel for hemodialysis, in which hemostasis of artificial blood vessels is performed well even after needle insertion.

Cardiovascular disease is one of the most common causes of death in the world.

Atherosclerosis, angina pectoris, myocardial infarction, and stroke are the most common causes of death in the world due to vascular diseases, and many studies are being conducted worldwide.

Although the incidence rate in these lineages is increasing, most of the patients are treated with surgical treatment due to limitation of pharmacotherapy.

Studies on the reconstruction of end-stage cardiovascular disease, which may result in loss of function of the heart and blood vessels, are well-suited to the purpose of biomedical engineering to restore, maintain and improve the functions of tissues or organs. The artificial blood vessel manufacturing field has been attracting attention as the most advanced bio-tissue engineering technique.

In the case of artificial blood vessels for hemodialysis, artificial blood vessels of Dacron or Goretex having an inner diameter of 6 mm are used. The length of the artificial blood vessels is cut by physicians according to the patient and the site of use.

However, in the case of blood needles, the diameter is about 1 mm, which is larger than the diameter of artificial blood vessels, and doctors often do not find their positions frequently.

In addition, after the most important dialysis, when the needle is withdrawn from the artificial blood vessel again, hemostasis is not easy and hemorrhage continues to occur.

In addition, since the person moves after the operation, the rupture phenomenon of the artificial blood vessel, that is, the artificial blood vessel ruptures due to the V-shaped bending, occurs, and the blood supply is stopped.

Korean Patent Publication No. 10-2011-0090425

Disclosure of the Invention The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an artificial blood vessel for hemodialysis, in which artificial blood vessels are not broken into a V shape when a needle is inserted into a artificial blood vessel made of a material harmless to the human body, The purpose is to provide.

In order to accomplish the above object, the present invention provides a hemodialysis blood vessel comprising: a hollow blood vessel tube; A metal stent inserted into the blood vessel tube; And a cover member which is coupled to the stent and is disposed inside the blood tube, wherein the cover member is made of a material that is closely contacted when the needle is punctured to close the hole.

The blood vessel tube is made of any one of PFA, FEP and PTFE.

The cover member is made of polyurethane or silicone.

The stent is disposed at a portion where the blood vessel tube is bent.

And the cover member is composed of a first cover part coupled to the outside of the stent, wherein the first cover part is disposed in close contact with the stent and the blood vessel tube.

And the cover member includes a second cover portion coupled to the inside of the stent.

The blood vessel tube is formed by injection-molding an outer circumferential surface of the stent or the cover member.

As described above, the artificial blood vessel for hemodialysis according to the present invention has the following effects.

By inserting the stent and the cover member into the inside of the blood vessel tube, even if the needle is inserted into and removed from the artificial blood vessel made of a material harmless to the human body, the hemostasis can be performed well by the cover member.

Further, it is possible to prevent the artificial blood vessel from being bent into a V-shape by the stent.

FIG. 1 is a perspective view of a blood vessel for hemodialysis according to an embodiment of the present invention,
FIG. 2 is an exploded perspective view of an artificial blood vessel for hemodialysis according to an embodiment of the present invention,
3 is a sectional view taken along the line A-A 'in FIG. 1,
FIG. 4 is a process diagram showing a state in which a needle is inserted into a blood vessel for hemodialysis according to an embodiment of the present invention. FIG.

FIG. 1 is a perspective view of the artificial blood vessel for hemodialysis according to an embodiment of the present invention, FIG. 2 is an exploded perspective view of an artificial blood vessel for hemodialysis according to an embodiment of the present invention, FIG. 3 is a cross- FIG. 4 is a process diagram illustrating a state in which a needle is inserted into a blood vessel for dialysis, according to an embodiment of the present invention. Referring to FIG.

1 to 3, the artificial blood vessel for hemodialysis according to the present invention comprises a blood vessel tube 10, a stent 20, and a cover member 30.

The blood vessel tube 10 has a hollow shape.

The blood vessel tube 10 is made of any one of PFA, FEP, and PTFE, which is a material that is not harmful to a human body, in particular, a material of Gore-Tex.

The stent 20 is made of a metal material and inserted into the blood vessel tube 10.

The stent 20 may be a well-known stent 20, and a detailed description thereof will be omitted.

It is preferable that the stent 20 is disposed at a portion where the blood vessel tube 10 is bent rather than the entire length of the blood vessel tube 10.

As the stent 20 is disposed at the bent portion of the blood vessel tube 10 as described above, the blood vessel tube 10 can be bent into a U shape without being broken into a V shape, So that it can be prevented from being broken and broken.

The cover member 30 is engaged while enclosing the stent 20 and is disposed inside the blood vessel tube 10.

Unlike the material of the blood vessel tube 10, the cover member 30 is provided with a hole 33 when the needle 40 is pierced by the needle 40, that is, the needle 33 is formed by the needle 40, And portions around the holes 33 formed by the needles 40 come into close contact with each other to close the holes 33.

To this end, the cover member 30 is made of a material such as polyurethane or silicone.

As described above, the cover member 30 is composed of the first cover portion 31 and the second cover portion 32.

The first cover part 31 is coupled to the outside of the stent 20 and the second cover part 32 is coupled to the inside of the stent 20.

The first cover part 31 and the second cover part 32 are connected to each other through holes formed in the stent 20 substantially.

However, in some cases, the first cover part 31 and the second cover part 32 may not be integrally connected to each other.

The first cover part 31 is disposed in close contact with the stent 20 and the blood vessel tube 10.

The cover member 30 may be formed of only the first cover portion 31 or the second cover portion 32. However, the cover member 30 may be formed of only the first cover portion 31 and the second cover portion 32, have.

The cover member 30 is coupled to the stent 20 inwardly and / or outwardly through dipping or electrospinning.

The vascular tube 10 is formed on the outer circumferential surface of the stent 20 or the cover member 30 by insert injection.

When the hemodialysis needle 40 is inserted by the artificial blood vessel having the above-described structure, the needle 40 is inserted into the portion where the stent 20 is inserted as shown in FIG. 4 (a) .

As the needle 40 is inserted, the needle 40 generates a hole 33 in the blood vessel tube 10 and the cover member 30.

When the needle 40 is removed after hemodialysis, the hole 33 formed by the needle 40 is opened in the blood vessel tube 10 and the cover member 30.

At this time, the cover member 30 is made of silicon, polyurethane, or the like, which covers the hole 33 by itself. As shown in FIG. 4 (b) The portions of the member 30 are brought into close contact with each other to seal the hole 33. [

Therefore, even when the hole 33 is formed in the blood vessel tube 10, the inside of the artificial blood vessel is sealed by the cover member 30, so that bleeding can be prevented like a natural blood vessel.

The artificial blood vessel for hemodialysis according to the present invention is not limited to the above-described embodiment, but can be variously modified within the scope of the technical idea of the present invention.

10: blood vessel tube,
20: stent,
30: cover member, 31: first cover portion, 32: second cover portion, 33: hole.
40: Needles.

Claims (7)

A blood vessel tube made of any one of PFA, FEP, and PTFE and having a hollow shape;
A metal stent inserted into the blood vessel tube;
And a cover member coupled to the stent and disposed inside the blood vessel tube,
Wherein the stent is disposed at a portion where the blood vessel tube is bent,
Wherein the cover member is made of a polyurethane or silicone material which is closely contacted when the needle is punctured to close the hole,
Wherein the cover member comprises a first cover portion coupled to the outside of the stent,
Wherein the first cover part is disposed between the stent and the blood vessel tube in close contact with the inner surface of the blood vessel tube while being in surface contact. delete delete delete delete The method according to claim 1,
And the cover member includes a second cover portion coupled to the inside of the stent. The method according to claim 1,
Wherein the blood vessel tube is formed by injection-molding an outer circumferential surface of the stent or the cover member.

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