KR20240047053A - Elepant trunk type catheter unit for intraperitoneal ascites drain - Google Patents

Abstract

The present invention relates to a trunk-type drainage tube unit for ascites drainage, which passes through the bladder wall, which is the standard for dividing the area between the abdominal cavity and the bladder, and has both ends located in the abdominal cavity and the bladder, respectively, so that a flow path through which fluid can move is formed inside. A main conduit portion made of a shape, an abdominal cavity-side anchoring portion extending from one end of the main conduit portion and passing through the bladder wall and positioned on the abdominal cavity side, wherein an inlet through which fluid in the abdominal cavity flows is formed, and the main conduit portion a drainage tube extending from the other end and including a bladder-side anchoring portion located on the bladder side; And, a tubular main body coupled in a form that surrounds the through hole at the rear end of the bladder side anchoring portion, and a tubular main body provided at the rear end to enable fluid movement, which is spirally coiled to enable movement of fluid to the abdominal cavity and the bladder. It includes a check valve including a nozzle portion that prevents reverse inflow of side fluid.

Description

Trunk type drainage tube unit for ascites drainage {Elepant trunk type catheter unit for intraperitoneal ascites drain}

The present invention relates to a trunk type drainage tube unit for draining ascites, and more specifically, to a trunk type with an improved structure to allow ascites in the abdominal cavity to be discharged into the bladder and to prevent fluid inside the bladder from flowing back into the abdominal cavity. It relates to a drainage tube unit for ascites drainage.

In liver cirrhosis or peritoneal disseminated disease (peritoneal metastasis of cancer, peritoneal carcinomatosis: when cancer metastasizes to the peritoneum from stomach/colon/pancreas/ovarian cancer, etc.), water-filled ascites (ascites) occurs inside the peritoneal cavity. Ascites) symptoms occur. When ascites symptoms worsen, patients experience symptoms such as discomfort, pain, and mobility impairment due to abdominal distension.

In this case, as shown in Figures 1 and 2, repeated paracentesis (a procedure to repeatedly pierce the abdomen with a needle and drain the ascites outside the abdomen) must be performed for the purpose of improving symptoms, but the duration of symptom improvement Since this is not long, the patient undergoes paracentesis repeatedly at daily intervals (approximately 2 to 3 liters of ascites are drained per procedure). This procedure causes a lot of discomfort, such as pain, because it requires piercing the abdomen with a thick needle to the inside of the peritoneum. In addition, as the number of repeated punctures accumulates, many complications occur, such as piercing the intestines, causing intestinal perforation, or bleeding and infection due to the procedure.

Among the methods for draining ascites, catheter insertion through the intestinal wall (PCD: Percutaneous Catheter Drainage) is a method of placing the catheter outside the abdominal wall. It is difficult to maintain the catheter for several days, and the risk of infection increases over time. This limits the patient's movement and causes a lot of discomfort in daily life.

In this way, the catheter according to the prior art for ascites drainage can cause fluid inside the bladder, including the drained ascites, to flow back into the abdominal cavity, is difficult to fix to the human body, and not only causes pain and complications to the patient, but also causes discomfort. Shiki has a problem.

The prior art includes Registered Patent Publication No. 10-1671612.

The present invention was created to solve the above problems, and the purpose of the present invention is to allow ascites inside the abdominal cavity to be discharged into the bladder and, due to its structure, to prevent the fluid inside the bladder from flowing back into the abdominal cavity. The aim is to provide a trunk type drainage unit for ascites drainage that prevents pain and complications caused by repeated procedures for ascites drainage.

The problems to be solved by the present invention are not limited to those mentioned above, and other problems not mentioned can be clearly understood by those skilled in the art from the description below.

The trunk-type drainage tube unit for ascites drainage according to the present invention for achieving the above object passes through the bladder wall, which is the standard for dividing the area between the abdominal cavity and the bladder, and has both ends located in the abdominal cavity and bladder, respectively, and has a flow path on the inside that allows fluid movement. A main conduit portion formed in a tube shape so as to be formed, an abdominal cavity anchoring portion extending from one end of the main conduit portion and passing through the bladder wall and positioned on the abdominal cavity side, wherein an inlet through which fluid in the abdominal cavity flows is formed; , a drainage pipe extending from the other end of the main conduit portion and including a bladder-side anchoring portion located on the bladder side; And, a tubular main body coupled in a form that surrounds the through hole at the rear end of the bladder side anchoring portion, and a tubular main body provided at the rear end to enable fluid movement, which is spirally coiled to enable movement of fluid to the abdominal cavity and the bladder. It includes a check valve including a nozzle portion that prevents reverse inflow of side fluid.

The nozzle part is made of a material with elasticity so that it can be wound in a coil or unfolded in a flat form, so that the fluid on the abdominal cavity is expanded in a flat form in the process of being discharged through the nozzle part, and after the discharge, by the elastic force. It can be configured to be wound into its original shape.

The abdominal anchoring portion is formed of an elastically deformable material, passes through the inside of the laparoscope while being disposed long along the same axis as the main conduit portion by deformation, and approaches the bladder wall, and when separated from the inside of the laparoscope after access, It is preferable that it is wound into a ring shape by elastic restoring force and is configured to be hung on the abdominal cavity wall.

The bladder-side anchoring portion is formed of an elastically deformable material, passes through the inside of the laparoscope while being disposed long along the same axis as the main conduit portion by deformation, and approaches the bladder wall, and is elastic when separated from the inside of the laparoscope after access. It can be placed on the bladder in a state where it is wound into a ring shape due to the restoring force.

The trunk-type drainage tube unit for ascites drainage according to the present invention having the above-described configuration is provided with an abdominal cavity-side anchoring portion at one end of the main conduit portion of the drainage tube and a bladder-side anchoring portion at the other end, and the tubular body portion of the check valve is provided to the bladder. It is provided at the rear end of the side anchoring part and placed on the bladder side, and the nozzle part provided at the rear end of the tubular main body is coiled in a spiral shape, and when the fluid in the abdominal cavity moves, its shape is changed by the pressure of the fluid to discharge the fluid and the pressure of the fluid is reduced. When released or reduced, it is restored to its spirally coiled form, blocking the inflow of fluid on the bladder side, allowing ascites inside the abdominal cavity to be smoothly discharged into the bladder, and due to its own structure, fluid inside the bladder is prevented from flowing back into the abdominal cavity. It has the effect of preventing pain and complications caused by repeated procedures for draining ascites.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description below.

Figures 1 and 2 are conceptual diagrams illustrating the surgical procedure for ascites drainage according to the prior art.
Figure 3 is a conceptual diagram illustrating the placement of a trunk-type drainage tube unit for ascites drainage on the bladder wall by laparoscopy according to an embodiment of the present invention.
4 and 5 are diagrams for explaining an embodiment of the present invention.
Figure 6 is a diagram for explaining a check valve employed in one embodiment of the present invention.
Figure 7 is a diagram showing a state in which an embodiment of the present invention is operated for ascites drainage.
Figures 8 and 9 are diagrams showing a state in which the check valve employed in one embodiment of the present invention is deformed by the pressure of the fluid when the fluid is discharged.
Figure 10 is a diagram for explaining in more detail the check valve employed in one embodiment of the present invention.

Hereinafter, a trunk type drainage pipe unit for ascites drainage according to an embodiment of the present invention will be described in detail with reference to the attached drawings.

Figure 3 is a conceptual diagram for explaining how a trunk type drainage tube unit for ascites drainage is placed on the bladder wall by laparoscopy according to an embodiment of the present invention, and Figures 4 and 5 are diagrams for explaining an embodiment of the present invention. , FIG. 6 is a diagram for explaining a check valve employed in an embodiment of the present invention, FIG. 7 is a diagram showing a state in which an embodiment of the present invention is operated for ascites drainage, and FIGS. 8 and 9 are diagrams of the present invention. It is a diagram showing a state in which the check valve employed in one embodiment is deformed by the pressure of the fluid when the fluid is discharged, and Figure 10 is a diagram for explaining the check valve employed in one embodiment of the present invention in more detail. .

As shown in these drawings, the trunk type drainage pipe unit for ascites drainage according to an embodiment of the present invention includes a drainage pipe 100 and a check valve 200.

The drainage pipe 100 passes through the bladder wall 10, which is the standard for dividing the area between the abdominal cavity and the bladder, and both ends are located in the abdominal cavity B and bladder A, respectively. The drainage pipe 100 includes a main conduit portion 110, an abdominal cavity-side anchoring portion 120, and a bladder-side anchoring portion 130 to allow fluid, including ascites, to move from the abdominal cavity to the bladder.

As shown in FIGS. 3 to 5, the main conduit portion 110 of the drainage tube 100 is shaped like a tube, has a flow path for fluid movement on the inside, and is disposed at both ends in the abdominal cavity and bladder, respectively. The main conduit portion 110 is capable of shape deformation and restoration and may be made of a flexible, corrosion-resistant material, and both ends are connected to the abdominal cavity anchoring portion 120 and the bladder anchoring portion 130, respectively. .

In addition, the abdominal cavity-side anchoring portion 120 of the drainage tube 100 extends from one end of the main conduit portion 110, passes through the bladder wall 10, and is located on the abdominal cavity B side. The abdominal cavity-side anchoring unit 120 is provided with inlets 121 that communicate with the flow path between the abdominal cavity B and the main conduit portion 110, and the fluid (ascites in the abdominal cavity) flowing into the inlet 121 flows into the flow path. Let it be moved to .

The abdominal cavity-side anchoring unit 120 has a tubular structure and is made of a material capable of changing and restoring its shape, and is integrated with the main conduit unit 110. The abdominal cavity-side anchoring unit 120 is positioned inside the abdominal cavity (B) in a state whose shape has been deformed by a laparoscope, and after being positioned inside the abdominal cavity (B), its shape can be restored and the position can be fixed.

The bladder side anchoring portion 130 of the drainage pipe 100 extends from the other end of the main conduit portion 110 and is located on the bladder A side. The bladder-side anchoring unit 130 is configured to flow into the inlet 121 of the abdominal cavity-side anchoring unit 120 so that the fluid passing through the passage of the main conduit unit 110 can be discharged into the bladder A. It is located inside A) and is connected to a check valve 200 to discharge the fluid.

As shown in FIGS. 5 and 6, the check valve 200 is connected to the rear end of the bladder-side anchoring unit 130, and the fluid passing through the passage of the bladder-side anchoring unit 130 flows into the bladder (A). It includes a tubular body portion 210 and a nozzle portion 220 so that it can be discharged. The check valve 200 is capable of deforming and restoring its shape and can be made of a corrosion-resistant material, so that its shape is deformed when the fluid is discharged and its shape is restored when the discharge is completed, so that the fluid on the bladder side flows into the drainage pipe 100. Prevent it from flowing in again.

The tubular body portion 210 of the check valve 200 is made in the form of a tube and is coupled to the rear end of the bladder side anchoring portion 130 in a form that surrounds the rear through hole. The interior of the tubular body portion 210 communicates with the interior of the bladder side anchoring portion 130 and communicates with the flow path of the main conduit portion 110. The tubular body portion 210 of the check valve 200 is formed on the side opposite to the rear end of the bladder anchoring portion and is integrated with the nozzle portion 220.

As shown in FIG. 7, the nozzle portion 220 of the check valve 200 is integrated with the tubular body portion 210 and is made of a material capable of deforming and restoring its shape, and the bladder side anchoring portion After passing through (130), the fluid is discharged into the bladder via the tubular body portion (210). The nozzle unit 220, while located on the bladder side, changes its shape when the fluid is moved and discharges the fluid. After the fluid is discharged, the nozzle unit 220 restores its shape so that the fluid on the bladder A side is discharged from the nozzle unit ( 220).

The nozzle unit 220 has an internal gap, that is, a gap between the passages through which the fluid moves, is narrower than the internal gap of the tubular body 210, and extends long from the tubular body 210, thereby allowing the flow of fluid. Smooth shape deformation and restoration is possible following discharge, and the inflow of fluid into the bladder can be prevented due to its restored structure.

The nozzle unit 220 can be made of various shapes and can be transformed and restored. However, in this embodiment, the nozzle unit will be described focusing on the spiral coiled form. In other words, the nozzle unit 220 is disposed together with the bladder-side anchoring unit 130 inside the bladder A in a spirally coiled form, and the fluid on the abdominal cavity passes through the tubular body unit 210. When it is moved inside, its shape is deformed due to the pressure of the fluid, and when the pressure of the fluid is relatively weakened or released, it is restored to its spirally coiled form.

The trunk-type drainage tube unit for ascites drainage according to an embodiment of the present invention having such a configuration is provided with an abdominal cavity-side anchoring part 120 at one end of the main conduit part of the drainage tube 100, and a bladder-side anchoring part 130 at the other end. is provided, the tubular body portion 210 of the check valve 200 is provided at the rear end of the bladder-side anchoring portion 130 and disposed on the bladder side, and the nozzle portion 220 is disposed at the rear end of the tubular body portion 210. It is provided to allow fluid movement and is coiled in a spiral shape. When fluid moves to the abdominal cavity, its shape is changed by the pressure of the fluid to discharge the fluid, and when the fluid pressure is released or reduced, it is restored to its spirally coiled form. By blocking the inflow of fluid on the bladder side, ascites inside the abdominal cavity is smoothly discharged into the bladder, and due to its own structure, it prevents fluid inside the bladder from flowing back into the abdominal cavity, and causes pain caused by repeated procedures for ascites drainage. It has the effect of preventing complications.

Meanwhile, as shown in FIGS. 8 to 10, the nozzle portion 220 of the check valve 200 is made of a material with elasticity so that it can be rolled into a coil or expanded into a flat shape, so that the fluid on the abdominal cavity side is In the process of being discharged through the nozzle unit 220, it unfolds in a flat shape and is configured to be wound back to its original shape by the elastic force after discharge, so that bladder-side fluid, including ascites discharged from the nozzle unit, flows back into the nozzle unit. It has the advantage of preventing backflow of discharged fluid into the abdominal cavity.

As described above, the nozzle portion 220 may be formed to be thinner than the thickness of the tubular body portion 210 so that shape deformation and shape restoration according to fluid pressure can be smoothly achieved, and is formed in a long, flat shape. It can be. Here, the nozzle portion 220 is preferably formed in the shape of an elephant trunk when its shape is restored.

As shown in FIGS. 7 to 9, the abdominal cavity-side anchoring portion 120 employed in this embodiment is formed of an elastically deformable material, and is deformed along the same axis as the main conduit portion 110. In a long arrangement, it passes through the inside of the laparoscope 20 to approach the bladder wall 10, and after approaching, when separated from the inside of the laparoscope 20, it is wound into a ring shape by elastic restoring force and caught on the abdominal wall. It is desirable to be Here, the abdominal cavity-side anchoring portion 120 is preferably formed in the shape of a pig tail.

The bladder side anchoring portion 130 of the drainage tube 100 is It is formed of an elastically deformable material and is disposed long along the same axis as the main conduit portion 110 by deformation, passes through the inside of the laparoscope 20, and approaches the bladder wall 10, and after accessing the inside of the laparoscope 20. In the separated state, it can be placed in the bladder (A) in a state where it is wound into a ring shape due to elastic restoring force. Here, the bladder side anchoring portion 130 is preferably formed in the shape of a pig tail.

In this embodiment, the abdominal cavity-side anchoring portion 120 of the drainage tube 100 is located in the abdominal cavity B, is wound into a ring shape by elastic restoring force, and is caught on the bladder wall 10, and the bladder-side anchoring portion 130 ) is located in the bladder (A) in a state of being wound into a ring shape by elastic restoring force, and prevents the separation of the drainage tube 100 from the bladder wall 10, thereby providing a fixing force to the bladder wall, which is the standard for dividing the area between the abdominal cavity and the bladder. It not only increases the number of patients, but also prevents pain and complications caused by repeated procedures for ascites drainage and minimizes patient discomfort.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited to the embodiments described above, but is defined by the claims, and various modifications and developments can be made in the technical field to which the present invention pertains. Self-explanatory.

10: Bladder wall
A: Bladder
B: Abdominal cavity
20: Laparoscopy
100: drainage pipe
110: main conduit section
120: Abdominal cavity side anchoring unit
130: Bladder side anchoring part
200: check valve
210: Tubular main body
220: nozzle part

Claims (3)

A main conduit section that passes through the bladder wall, which is the standard for dividing the area between the abdominal cavity and the bladder, and has both ends located in the abdominal cavity and the bladder, respectively, and has a tube shape so that a flow path capable of fluid movement is formed on the inside, and extends from one end of the main conduit section. An abdominal cavity-side anchoring portion that is formed and located on the abdominal cavity side after passing through the bladder wall and has an inlet through which fluid in the abdominal cavity flows, and a bladder-side anchoring portion that is formed extending from the other end of the main conduit portion and is located on the bladder side. a drainage tube containing a portion; and
A tubular main body coupled in a form that surrounds a through hole at the rear end of the bladder-side anchoring unit, and a rear end of the tubular main body to enable fluid movement, are coiled in a spiral shape to enable movement of abdominal fluid and bladder-side fluid. A trunk type drainage pipe unit for ascites drainage comprising a check valve including a nozzle unit that prevents reverse inflow.
According to paragraph 1,
The nozzle part,
It is made of a material with elasticity so that it can be wound in a coil or unfolded in a flat form, so that the fluid on the abdominal cavity is expanded in a flat form in the process of being discharged through the nozzle part, and after the discharge, it is returned to its original shape by the elastic force. A trunk type drainage tube unit for ascites drainage, characterized in that it is configured to be wound.
According to paragraph 1,
The abdominal anchoring portion is formed of an elastically deformable material, passes through the inside of the laparoscope while being disposed long along the same axis as the main conduit portion by deformation, and approaches the bladder wall, and when separated from the inside of the laparoscope after access, It is wound into a ring shape by elastic restoring force and is configured to be hung on the abdominal cavity wall,
The bladder-side anchoring portion is formed of an elastically deformable material, passes through the inside of the laparoscope while being disposed long along the same axis as the main conduit portion by deformation, and approaches the bladder wall, and is elastic when separated from the inside of the laparoscope after access. A trunk type drainage tube unit for ascites drainage, characterized in that it is located in the bladder in a state of being wound into a ring shape by restoring force.

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