KR100942036B1 - A Stent - Google Patents

Abstract

In the case of cancer cells inside the bile duct or due to stenosis of the bile duct, if the bile does not supply bile to the duodenum smoothly, a cylindrical stent is applied to the corresponding site to supply bile of bile successfully.

In addition, the general stent does not slip at the installation position, but there is a problem that the cancer cell that grows infiltrates into the inside of the stent. The covered (stiffened) stent can solve the problem of infiltration into the cancer cell even if the cancer cell grows, There is a problem that can cause development, pancreatitis and gallstone disease.

The present invention has been made to solve the above-described problems, and provides a stent that prevents food from passing through the duodenum from flowing back into the bile duct and prevents the bile from being easily moved by the bile supplied with smooth supply of bile have.

In order to achieve the above object, according to the present invention, an inner stent of upper light-tight narrow-band inner stent covered with a material such as PTFE or silicone having affinity for the human body is inserted into a cylindrical outer stent, Provide a stent.

Stent, Non-retrograde stent, Bile duct stent, Bile duct stent, Shape winger alloy stent.

Description

Stent {A Stent}

More particularly, the present invention relates to a stent, and more particularly, to a stent having a dual structure so that an external lesion such as a cancer can not penetrate into a stent without slipping at a surgical site, And to prevent stagnant food, etc. passing through the bile duct from flowing back into the bile duct.

Generally, the stent prevents stenosis of various organs and blood vessels, or to prevent the stagnation of various organs or blood vessels or obstruction of the ducts or obstruction of the flow of food or blood vessels due to the narrowing of the ducts, And it is commonly used for performing smooth communication by forcibly expanding the tube by performing the operation at the corresponding site.

Such a stent is mainly configured to have a cylindrical shape by using a shape memory alloy, and there are various types of stents having different shapes depending on parts such as organs and blood vessels to be performed.

In the stent, the conventional stent does not slip at the installation position, but there is a problem that the cancerous cells that penetrate into the inside of the stent have a problem, and the covered stent can solve the problem of infiltration into the inside even when cancer cells grow, There is a problem that can cause slipping phenomenon, pancreatitis and gallstone disease.

In the case of bile ducts, the digestive enzymes secreted from the liver are transferred to the duodenum.

When cancer cells develop in the bile duct or stenosis of the biliary tract prevents bile from being supplied smoothly to the duodenum, a cylindrical stent is implanted in the corresponding region to supply bile of bile successfully.

This stent procedure involves forcibly expanding the inside of the biliary duct using the stent, so that when the food passed through the stomach passes through the duodenum, the food returns to the liver through the stent performed inside the biliary duct Rather, problems such as the interruption of the supply of bile are caused.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems. It is an object of the present invention to provide a stent with a double structure for preventing the outer lesion of the stomach from penetrating into the stent without slipping at the treatment position, And to provide a stent that prevents reflux and does not easily move by the bile supplied with the smooth supply of bile.

In order to achieve the above object, according to the present invention, a conventional cylindrical stent is inserted into a stent having a light-tight lower closure coated with a material such as PTFE or silicone having affinity for a human body, Thereby completing the invention.

At this time, the outer stent positioned outside may be configured as a light-tight narrowing type so that the bile duct is not pushed toward the duodenum during the procedure.

According to the present invention, a stent having a dual structure and located outside is effectively positioned without slipping a surgical position, and in the case of an external lesion of an underarm, the stent is prevented from penetrating into the inside by a covered stent.

In case of stent placement in the bile duct, the cylindrical or upper stomal stent deployed outside the inner wall extends the biliary duct. The stomatectomy stent located in the inner stent prevents the duodenal food from flowing back to the stomach through the bile duct So that the bile can be smoothly supplied.

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

FIG. 1 is a perspective exploded perspective view of the stent of the present invention, FIG. 2 is a partial cross-sectional view illustrating a state of engagement between an outer stent and an inner stent of the present invention, FIG. 4 is a view illustrating a stent of the present invention, and FIG. 5 shows another embodiment of the present invention.

A cylindrical outer stent 1 made of a shape memory alloy and an inner stent 3 having a funnel-like structure having an upper light shielding structure covered with PTFE or silicone 2, respectively.

The inner and outer stents 3 and 1 may be configured so that the inner stent 3 is positioned inside the outer stent 1 to couple the outer stent 1 and the inner stent 3 A stent (5) of the present invention having a dual structure is provided.

At this time, the coupling of the outer stent 1 and the inner stent 3 can be connected to each other by the shape memory alloy wire or the thread 4, or by welding.

In the stent of the present invention, since the outer stent 1 disposed at the outer side is of a mesh type, the mesh structure of the outer stent 1 is inserted into a part of the inner wall of the organs after being implanted in an organ or the like, It will not slip out of position.

Even after the lesion is expanded, the inner stent 3 is covered with the PTFE or silicon 2 as described above, so that the inner stent 3 can be prevented from penetrating into the inner stent 3.

Therefore, the stent of the present invention does not slip at the treatment position after the procedure, but is not infiltrated into the interior of the inner stent even if the lesion portion of the stomach is expanded.

The stent 5 according to the present invention has an effect of preventing backflow. The stent 5 according to the present invention will be described by being used in the interior of the bile duct A by the molding operation as shown in FIG. 3 attached hereto.

At this time, the outer stent 1 is positioned on the inner wall of the bile duct A and functions to expand the bile duct A. The inner stent 3 located inside the inner stent 1 is a funnel- The digestive enzyme secreted from the liver C is uniformly supplied to the duodenum B through the above-described inner stent 3 in the upper bile duct A.

On the other hand, the food or the like located in the duodenum (B) flows backward to the bile duct (A) through the outer stent (1), but the inner stent (3) is covered with PTFE or silicone The upper end of the inner stent 3 or the upper end of the inner stent 3 is connected to the inner side of the outer stent 1 while the inner stent 3 is positioned inside the outer stent 1, Since the inner stent 3 is in close contact with the inner wall of the inner stent 3, the backward flow of the food or the like back to the side of the liver C is effectively prevented, and in the case of the inner stent 3, So that it can effectively prevent backflow into the interior of the stent 3.

In the present invention, the outer stent 1 is installed in the bile duct A to expand the bile duct A. At this time, since the outer stent 1 is performed on the inner wall of the bile duct A, It can be configured in the form of an upper light beam to prevent it from being pushed to the duodenum (B) side.

In the present invention, when the upper end of the inner stent 3 is connected to the outer stent 1, the lower end of the inner stent 3 is moved by the food or the like passing through the duodenum B So that food or the like passing through the duodenum (B) can be prevented from flowing back into the inside of the inner stent (3).

In the above description, the coupling between the inner stent 3 and the outer stent 1 is connected by the shape memory alloy wire or the thread 4, but it is possible to perform the welding by welding if necessary.

As described above, since the stent of the present invention can prevent the lesion of the arm or the like from invading into the inside of the inner stent while not slipping at the treatment position by the outer stent constructed as a mesh type, It can be used not only for the bile duct but also for long-term suspected reflux, for example, esophagus.

Therefore, the use of the present invention is not limited to its use because it is described in an embodiment of the present invention to be installed in a bile duct.

1 is a perspective exploded perspective view of a stent of the present invention.

2 is a partial cross-sectional view showing a state of engagement between an outer stent and an inner stent of the present invention.

FIG. 3 is a cross-sectional view of another embodiment of the present invention showing the state where the outer stent and the inner stent are engaged. FIG.

FIG. 4 is a reference diagram showing the state of the stent according to the present invention. FIG.

FIG. 5 is an embodiment showing another embodiment of the present invention. FIG.

Description of the Related Art

Cylindrical outer stent: 1 PTFE or silicone: 2

Inner stent with funnel-like cone-shaped structure: 3

Claims (5)

In the stent, A cylindrical outer stent 1 in the form of a mesh made of a shape memory alloy and an inner stent 3 in the form of a funnel-like narrowed cone covered with PTFE or silicone 2 are formed respectively and the outer stent 1 Wherein the inner stent is positioned inside the inner stent and the upper ends of the outer stent and the inner stent are welded or joined together by a wire or a thread. delete The method according to claim 1, Wherein the outer stent (1) is formed as a supersaturation. delete delete

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