KR20130110413A - Anastomosis stent - Google Patents

Abstract

PURPOSE: An anastomosis stent is provided to naturally graft different organs which are arranged being opposite to a penetration hole, without a surgery which sews different organs, as time goes by. CONSTITUTION: An anastomosis stent forms a penetration hole in different organs and is used for an anastomosis which connecting each organ around the penetration hole. An anastomosis stent (100) comprises a body part (110) which is arranged with both terminals moving across the penetration hole formed in each different organ and which supplies a connection path which connects different organs; a flare part (120) which faces an inner surface of the organs around the penetration hole diverging to outside from both ends of the body part; and a flap part (130) which supports the inner organs around the penetration hole being protruded from both terminals of the body part.

Description

Anastomosis stent {ANASTOMOSIS STENT}

The present invention relates to surgery for connecting heterogeneous organs, and more particularly, to anastomosis capable of connecting through-holes of heterologous organs without sewing or other binders.

Ingested food is temporarily stored in the stomach through the esophagus and then digested by the small intestine and large intestine, which are divided into duodenum, jejunum, and ileum. (digestive organ) in turn.

On the other hand, if some organs do not function normally, or if a lesion (lesion) such as a malignant tumor occurs and must be removed inevitably, it involves surgery to remove the part and connect the separated digestive organs to each other.

For example, if a serious disease such as an inflammation or malignant tumor occurs in the duodenum and the food stored in the stomach does not go through the duodenum or the duodenum portion is to be removed at all, it is necessary to connect the stomach and the plant directly.

Conventionally, different kinds of organs are connected to each other through a surgical operation that punctures the stomach and the plant and sews around the hole. However, such surgery has a long operation time, there is a problem that recovery after surgery is also slow.

The present invention provides a stent for anastomosis for sewing heterogeneous organs or connecting without a binder.

The present invention provides a stent for anastomosis that can connect heterogeneous organs using an endoscope without surgical operation.

According to an exemplary embodiment of the present invention, the anastomosis stent used for anastomosis forming a through-hole in heterogeneous organs and fixing the periphery of the through-holes crosses the through-holes formed at both ends of the heterogeneous organs, respectively. A body part disposed across the body, the body part providing a connection path for communicating heterogeneous organs; A flare part that opens outwardly at both ends of the body part to face the inner surface of the organ around the through hole; And a flap part protruding from both ends of the body part to support a part of the different types of organs around the through hole disposed between the flap parts to support the inside of the organ around the through hole.

For example, if a serious disease such as inflammation or a malignant tumor occurs in the duodenum and the food stored in the stomach does not go through the duodenum and needs to be sent directly to the factory, it is necessary to connect the stomach and the factory directly.

Conventionally, heterogeneous organs have to be connected to each other through an incision in the abdomen, a hole in the stomach and the plant, and a surgical operation to sew around the hole.

However, using the anastomosis stent according to the present invention, the surgical operation for cutting the abdomen can be omitted. Specifically, the anastomosis stent is placed in the endoscope, and when the endoscope reaches the through hole of two organs, the stent may be pushed from the rear to allow both ends of the anastomosis stent to be disposed in the through hole formed in the heterogeneous organs. The procedure for cutting the abdomen may be omitted.

Also, the flap parts provided at both ends can prevent the anastomosis stent from moving, and the flap parts can support heterogeneous organ inner walls so that heterogeneous organs can be kept in close contact. After a certain period of time in this state, the two organs will naturally stick together. Thus, heterogeneous organs can be sewn or connected without a binder.

The body part, the flap part, and the flap part may be provided integrally by intertwining wires in a mesh structure. In particular, the outer side of the body part providing the connection path may include a cover film covering the tangled wire for sealing the connection path. Can be provided. As the material of the wire, a shape memory alloy or synthetic resin capable of storing a metal or a shape can be used.

In addition, the flare part is inclined toward a relatively adjacent end portion from the center of the body part, and preferably inclined to more than 0 ° and 60 ° or less based on a line perpendicular to the longitudinal direction of the body part.

 The flare part is formed at both ends of the body part to prevent the anastomosis stent placed in the through-holes of the heterogeneous organs to be attached to each other. When the flare part is opened beyond 60 °, the angle deflected from the body part is increased. Too small can cause a big problem that the anastomosis stent moves out of the through-holes, and may not be in close contact with the inner wall facing the flare part.

In addition, when the anastomosis stent connects the gastrointestinal and small intestine, the flare part may be in close contact with the inner wall of the gastrointestinal tract to prevent the food from falling into the outside through the through hole formed thereon.

In addition, since the flare part in close contact with the inner surface of the small intestine has an unfolded shape, it is possible to protect the small wall of the small intestine which can reach the flare part with a relatively small diameter.

In addition, the flap part is inclined toward the center at the end of the body part that is relatively closer to the outer surface of the body part from which it protrudes, and is inclined at 30 ° or more and 60 ° or less based on a line perpendicular to the longitudinal direction of the body part. It is preferable. The flap part is a part which supports the different kinds of organs to be attached to each other from the inner surface, and it is possible to support the long inner surface if the angle is out of the above angle range.

In addition, a plurality of flap parts may be provided along the outer periphery of the body part, and when several pieces are provided, the spacing is preferably the same.

In addition, when the heterologous organs correspond to the stomach and the small intestine, respectively, the length of the body part is preferably 20 to 30 mm. Because, if it is shorter than the above range, when considering the thickness of the stomach and small intestine, the connecting passage connecting the two organs is short, and when the diameter of the small intestine is exceeded, the end of the body part disposed on the small intestine side is in the small wall of the small intestine Problems may arise.

In addition, the inner diameter of the connecting passage is preferably 10 to 30mm, and in consideration of the food that is also passed to the small intestine from above, the range of the passage may be appropriate.

In addition, the outer diameter of the flare part is preferably 20 mm or more and 40 mm or less, and when the outer diameter of the flare part is smaller than the above range, the area facing the inner wall of the flare part becomes too narrow and the anastomosis stent is pulled out of the through hole. If there is a risk of coming out of the above-mentioned range, it is not easy to insert the flare part into the penetrating hole in the organ during the procedure, or to remove the flap part into the penetrating hole in the organ when removing the stent for anastomosis later.

An anastomotic stent that provides a connection channel through two through orifices formed in two organs is designed to closely adhere organs to be stuck to each other so that, when the time passes, It can be naturally bonded.

In addition, in the past, it was necessary to connect the heterogeneous organs to each other through a surgical operation for puncturing the stomach and the factory and sewing the periphery of the hole. As early as possible, both ends of the anastomosis stent may be disposed in the through-holes formed in the heterogeneous organs, and thus, the anastomosis may be simply completed through an endoscope without surgical operation of cutting the abdomen. This is a very fast recovery after surgery.

In addition, the anastomosis stent of the present invention prevents the anastomosis stent from moving through the through hole by the flap parts provided at both ends to prevent the anastomosis from exiting the through hole after surgery, and additionally, the flap part is to dissect the heterogeneous inner wall of the organ. By supporting, the state which the heterogeneous organ adhered to can be maintained stably. This can reduce the time that the heterogeneous organs are mutually bonded, and has the advantage of fast recovery. In particular, it is possible to ensure the stability of the surgery because it is possible to prevent the situation in which the heterogeneous long-term position is distorted.

In addition, the flare part formed by extending the end of the anastomosis stent of the present invention can protect the organ inner wall because it does not have a sharp tip even if it touches the organ inner surface. In particular, when used in gastrojejunostomy that directly connects the stomach and the jejunum, a plant with a relatively small diameter may reach the distal end of the anastomosis stent, especially when compared to the stomach. The unfolded end can prevent the factory inner wall from being damaged.

In addition, when the anastomosis stent of the present invention connects the stomach and the small intestine, the gastrointestinal flap part is maintained in close contact with the upper inner wall, it is possible to prevent the problem that the food falls out through the through hole formed thereon have.

1 is a schematic diagram of the anastomosis stent applied to the human body according to an embodiment of the present invention capable of anastomizing different organs.
Figure 2 is a perspective view of the anastomosis stent according to the present invention.
3 is a cross-sectional view of the anastomosis stent shown in FIG.
Figure 4 is a state diagram bonded to the through-hole periphery formed in the stomach and plant using the anastomosis stent according to the present invention.
Figure 5 is a photograph of the bonding around the perforated hole formed in the stomach and plant using the anastomosis stent according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout. For reference, the same numbers in this description refer to substantially the same elements and can be described with reference to the contents described in the other drawings under these rules, and the contents which are judged to be obvious to the person skilled in the art or repeated can be omitted.

Figure 1 is a schematic diagram of the anastomosis stent according to an embodiment of the present invention that can anastomize different types of organs applied to the human body, Figure 2 is a perspective view of the anastomosis stent according to the invention, Figure 3 is shown in Figure 2 Figure 4 is a cross-sectional view of the anastomosis stent, Figure 4 is a state of bonding the periphery of the through-hole formed in the stomach and factory using the anastomosis stent according to the present invention, Figure 5 is a stomach and factory using the anastomosis stent according to the present invention It is the photograph which joined the periphery of the through-hole formed in the.

The anastomosis stent according to the present invention can be used to connect heterogeneous organs. For example, if a serious disease such as inflammation or a malignant tumor occurs in the duodenum and the food stored in the stomach does not go through the duodenum and needs to be sent directly to the factory, it is necessary to connect the stomach and the factory directly.

Conventionally, it was necessary to connect the heterogeneous organs to each other through a surgical operation incising the abdomen, puncturing the stomach and the plant again, and sewing around the hole, but using the anastomosis stent according to the present invention, there is no need to cut the abdomen. You can sew different organs or connect them without glue.

Specifically, the anastomosis stent is placed in the endoscope, and when the endoscope reaches the through hole of two organs, the stent may be pushed from the rear to allow both ends of the anastomosis stent to be disposed in the through hole formed in the heterogeneous organs. The procedure for cutting the abdomen may be omitted.

In addition, by keeping the two organs in close contact with each other while facing the through holes of the two organs, and allowing the two organs to naturally stick together after the passage of time, the two organs are sewn around each other or the binder is used. Conventional and complicated surgical methods to anastomosis can be discarded.

1 to 4, the anastomosis stent 100 includes a body part 110, a flare part 120, and a flap part 130.

Anastomosis stent 100 according to the present invention can be used for anastomosis (anastomosis) of different organs, in this embodiment, in particular, the gastric jejunum anastomosis (gastrojejunostomy) directly connecting the stomach (10) and the plant (20) The case where it is used is demonstrated.

In order to connect the stomach 10 and the factory 20, the through hole 30 must be made in the stomach 10 and the factory 20, respectively, during the surgical procedure. Both ends of the body part 110 are inserted into the two through holes 30 formed as described above. The body part 110 may be disposed across the through holes 30 formed in the heterogeneous organs, respectively, and may provide a connection passage 112 for communicating the heterogeneous organs, thereby connecting the passage of the body part 110 ( 112, the food above can be passed directly to the factory (20).

On the other hand, the flare part 120 is formed to be spread out at both ends of the body part 110 may be disposed to face the inside of the organ around the through hole 30, this flare part 120 is even anastomosis stent Even if the 100 moves along the through hole 30, the upper wall 10 and the inner wall of the factory 20 are in close contact with each other to prevent excessive movement of the anastomosis stent 100, and the anastomosis stent 100 passes through the through hole 30. It is possible to prevent the accident coming out of the (30).

3, the flare part 120 is formed to be inclined at an angle from the outer circumference of the body part 110. Specifically, the flare part 120 is inclined toward an end portion from the center of the body part 110. It is preferable to incline more than 0 ° and less than 60 ° based on a line perpendicular to the longitudinal direction of the body part 110, and the angle is shown in FIG. 3 as 'H'.

As mentioned above, the flare part 120 is formed by unfolding at both ends of the body part 110 to prevent the anastomosis stent 100 disposed in the through hole 30 of the heterogeneous organs to be attached to each other As a result, if the gap is greater than 60 °, the angle refracted from the body part 110 may become too small, causing a large problem in that the anastomosis stent 100 moves out of the through-hole 30.

Particularly, when confirming the portion indicated by 'A' in FIG. 1, the gaseous flap part 120 remains in close contact with the upper inner wall, so that the food falls out through the through hole 30 formed thereon. Can be prevented.

In addition, the flap part 130 protrudes from both ends of the body part 110 so that a part of the heterogeneous organs around the through hole 30 disposed between the flap parts 120 is in close contact with each other, so that the flap part 130 surrounds the through hole 30. To support the organs inside. Accordingly, the stomach 10 and the factory 20 facing the through holes 30 may be sandwiched between the flap parts 130 disposed above and below the body part 110. A length of approximately 2 to 5 mm is appropriate so that two organs sandwiched between the flap parts 130 can be pressed, and is indicated by 'G' in FIG. 3.

Specifically, the flap part 130 is inclined toward the center at the end of the body part 110, the flap part 130 is 30 ° or more and 60 ° or less based on a line perpendicular to the longitudinal direction of the body part 110. It is preferable to incline to, and as already mentioned, the flap part 130 is a part for supporting heterogeneous organs to be attached to each other from the inner surface, and if the angle is out of the angle range, it is not easy to support the inner surface of the organ. . The angle at which the flap part 130 is tilted is shown in FIG. 3 as "I".

In addition, the flap part 130 may be provided in plural along the outer circumference of the body part 110, and when a plurality of flap parts 130 are provided, the spacing is preferably the same. In this embodiment, a total of eight are provided, arranged four each up and down.

That is, when both ends of the body part 110 are inserted into the through holes 30 formed in the heterogeneous organs, the flare parts 120 provided at both ends may move from the through holes 30 of the heterogeneous organs. To prevent, the flap part 130 may support the heterologous organ inner wall to maintain the heterogeneous organs in close contact. After a certain period of time in this state, the two organs will naturally stick together.

In addition, although the above-described anastomosis stent 100 may be manufactured and combined separately for each part, the body part 110, the flap part 120, and the flap part 130 according to the present embodiment may be formed of a metal mesh structure. The cover film 140 may be provided to entangle the wire and may be integrally provided, and the outer side of the body part 110 providing the connection passage 112 may cover the tangled metal wire for sealing the connection passage 112. .

In addition, when the heterogeneous organs correspond to the stomach and the small intestine, respectively, according to the present embodiment, the length of the body part 110 is represented by 'D' in FIG. 3, and may be 20 to 30 mm. Because, if it is shorter than the above range when considering the thickness of the stomach and the small intestine, the connecting passage 112 connecting the two organs is short, when considering the diameter of the small intestine beyond the range, the body part 110 disposed on the small intestine side Problems may occur in which the end of the in contact with the small intestine inner wall. In this regard, the length occupied by the flare part 120 is also approximately 5 to 6 mm, which is indicated by 'C' in FIG. That is, the overall length (F) of the flare part 120 and the body part 110 is preferably about 30 ~ 42mm.

In addition, the inner diameter (A) of the connecting passage is preferably 10 to 30 mm, and in consideration of the food that is also passed to the small intestine from above, the range of the passage may be appropriate.

In addition, the outer diameter (B) of the flare part is preferably 20 mm or more and 40 mm or less, and when the outer diameter of the flare part 120 is smaller than the above range, the area where the flare part 120 faces the long-term inner wall becomes too narrow. There is a fear that the anastomosis stent 100 will escape from the through-hole 30, if it exceeds the above range, put the flap part 120 into the through-hole 30 in the organ during the procedure, or the stent for later anastomosis When removing (100), it is not easy to pull the flap part 120 into the through hole 30 in the organ.

As described above, although described with reference to the preferred embodiment of the present invention, those skilled in the art various modifications and variations of the present invention without departing from the spirit and scope of the invention described in the claims below I can understand that you can.

10: The top 20: Factory
30: through-hole 100: stent for anastomosis
110: body part 112: connecting passage
120: flap part 130: flap part
140 ： Cover film

Claims (10)

In the anastomosis stent used for anastomosis to form a through-hole in the different organs, the anastomosis around the through-hole,
A body part having both ends disposed across the through holes respectively formed in the heterogeneous organs, the body part providing a connection path for communicating the heterogeneous organs;
A flare part which opens outwardly at both ends of the body part to face an inner surface of the organ around the through hole; And
A flap part that protrudes from both ends of the body part so as to be in close contact with each other, wherein a part of the heterogeneous organs around the through hole disposed between the flare parts supports the inside of the organ around the through hole;
Including, anastomosis stent for connecting the heterogeneous organs. The method of claim 1,
The body part, the flare part, and the flap part is a stent for anastomosis, characterized in that provided in the mesh structure is integrally intertwined with the outer wire. 3. The method of claim 2,
The anastomosis stent comprising a cover film covering the tangled wire to seal the connection passage. The method of claim 1,
The flare part is inclined toward the end from the center of the body part, the anastomosis stent, characterized in that inclined more than 0 ° 60 ° or less based on a line perpendicular to the longitudinal direction of the body part. The method of claim 1,
The flap part is inclined toward the center at the end of the body part, the anastomosis stent, characterized in that inclined to more than 30 ° 60 ° below the line perpendicular to the longitudinal direction of the body part. The method of claim 1,
The flap part is a stent for anastomosis, characterized in that provided in plurality along the outer periphery of the body part. The method according to claim 6,
The flap parts are anastomosis stent, characterized in that provided at equal intervals around both ends of the body part. The method of claim 1,
If the heterologous organs correspond to the stomach and small intestine, respectively,
The length of the body part anastomosis stent, characterized in that 20 to 30mm. The method of claim 1,
The stent for anastomosis, characterized in that the inner diameter of the connecting passage is 10 to 30mm. The method of claim 1,
The outer diameter of the flare part is stent for anastomosis, characterized in that 20mm or more and 40mm or less.

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