JP4166543B2 - Biological tissue ligation device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a biological tissue ligating apparatus that is inserted into a body cavity endoscopically and ligates biological tissue with a clip.
[0002]
[Prior art]
As a ligation apparatus for living tissue, for example, Japanese Patent Application Laid-Open No. 8-280701 and Japanese Patent Application No. 2001-244402 are known. In these, a clip having a pair of arms for gripping a living tissue is fitted to the clip fastening ring to close the leg of the clip, and the arm is opened by projecting from the clip fastening ring. ing. The clip and the clip tightening ring can be accommodated in an introduction tube that is inserted into a channel of the endoscope, and the clip is connected to an operation wire that is inserted into the introduction tube so as to advance and retreat through a connecting member.
[0003]
Then, under endoscopic observation, the clip can be opened and closed by moving the introduction tube and the operation wire back and forth by the hand operation unit of the ligation apparatus. That is, the biological tissue can be ligated by the clip by pressing the clip against the biological tissue in an open leg state and pulling the clip into the clip fastening ring by the operation wire.
[0004]
[Problems to be solved by the invention]
In the above-mentioned Japanese Patent Application Laid-Open No. 8-280701 and Japanese Patent Application No. 2001-244402, a clip, a clip unit comprising a clip fastening ring and a connecting member is inserted into an introduction tube made of a coil sheath, and is viewed through the introduction tube. Inserted into the mirror channel.
[0005]
However, the clip arm has a plate shape made of stainless steel or the like, and the end portion is an edge, which may damage the inner surface of the endoscope channel. Therefore, although the clip is inserted through the channel of the endoscope through the introduction tube, the clip must be formed in a small size with respect to the inner diameter of the channel. Further, in order to make the clip a desired size, there is a situation that the inner diameter of the channel is increased and the insertion portion of the endoscope is increased in diameter.
[0006]
The present invention has been made by paying attention to the above circumstances, and the object of the present invention is to increase the clip even if the endoscope channel has a limited inner diameter, and even if the channel has a small inner diameter. An object of the present invention is to provide a living tissue ligating apparatus capable of reliably ligating a living tissue with a clip having a size sufficient for ligating the living tissue.
[0007]
[Means for Solving the Problems]
Mounting claims The invention according to claim 1, have a plurality of arms forming a tissue grasping portion for grasping a biological tissue to the tip, and the clip imparted with expanded habit in the arm, and fitted to a portion of said arm A fastening member that closes the arm of the clip, and an operation member that is inserted into the channel of the endoscope so as to be able to move forward and backward , and engageable with the clip , and the arm has a transverse section of the arm. A ligating apparatus for living tissue, characterized in that the shape is formed in a substantially arc shape that bulges outward .
[0008]
The invention according to claim 2 has a plurality of arms formed with a tissue gripping portion for gripping a biological tissue at the tip, a clip that imparts expansive habits to the arm, and a fitting fit to the arm portion. A clamping member that closes the arm of the clip, and an operation member that is inserted in the channel of the endoscope so as to be able to move forward and backward and engage with the clip, and the arm includes the clamping member. A ligating apparatus for living tissue characterized in that a cross-sectional shape of a portion including a portion to be fitted is formed in a substantially arc shape that bulges outward .
[0009]
The invention according to claim 3 is a ligation apparatus that is inserted into a body cavity through a channel of an endoscope and ligates a living tissue in the body cavity, and has a plurality of arms formed with a tissue gripping part that grips the living tissue at the tip. A clip that imparts expansive habits to the arm, a fastening member that closes the arm of the clip by being fitted to and attached to the arm portion, and a channel of the endoscope that can be moved forward and backward. An operating member that can be engaged with the clip, wherein the arm has a cross-sectional shape of a portion including the tissue gripping portion to a portion where the fastening member is fitted, and the arm is substantially cylindrical when the leg is closed. a ligating apparatus of the living tissue, characterized in that formed in a substantially arcuate shape so as to form a.
[0010]
According to a fourth aspect of the present invention, in a ligation apparatus that is inserted into a body cavity through a channel of an endoscope and ligates a living tissue in the body cavity, a plurality of arms each having a tissue gripping portion that grips the living tissue are formed at the tip. And a clip that gives the arm a spread habit and exposes a leg-openable portion of each arm so as to be inserted into the channel of the endoscope, and is fitted and attached to the arm. A fastening member that closes the arm of the clip, and an operation member that is movably inserted into the channel of the endoscope and engageable with the clip, and the arm has a cross-sectional shape of the arm. A living tissue ligation apparatus characterized by being formed in a substantially arc shape that bulges outward .
According to a fifth aspect of the present invention, in a ligation apparatus that is inserted into a body cavity through a channel of an endoscope and ligates a living tissue in the body cavity, a plurality of arms each having a tissue gripping portion that grips the living tissue are formed at the tip. And a clip which gives the arm a spread habit and exposes a leg-openable portion of each arm so as to be inserted into the channel of the endoscope, and is fitted and attached to the arm portion. A clamping member that closes the arm of the clip, and an operation member that is movably inserted into the channel of the endoscope and engageable with the clip. The arm extends from the tissue grasping portion. The ligating apparatus for living tissue is characterized in that a cross-sectional shape of a portion including a portion where the fastening member is fitted is formed in a substantially arc shape that bulges outward .
According to a sixth aspect of the present invention, in a ligation apparatus that is inserted into a body cavity through a channel of an endoscope and ligates a living tissue in the body cavity, a plurality of arms each having a tissue gripping part that grips the living tissue are formed at the tip. a, a clip to expose portions of the open leg of each arm with imparting expansion behavior to the arm so as to insert into a channel of the endoscope is mounted and fitted in a portion of said arm A fastening member that closes the arm of the clip, and an operation member that is inserted into the channel of the endoscope so as to be able to move forward and backward, and engageable with the clip. A living tissue ligating apparatus characterized in that a cross-sectional shape of a portion including a portion where a fastening member is fitted is formed in a substantially arc shape so that the arm forms a substantially cylindrical shape when the leg is closed.
The invention according to claim 7 is characterized in that the clip, the fastening member, and the operation member are exposed and inserted into the channel of the endoscope. It is a ligation apparatus of the described biological tissue.
[0011]
According to the above configuration, since the clip unit can be directly inserted into the channel without using the introduction tube, and the arm of the clip is formed in a substantially arc shape in cross section along the curvature of the channel, the endoscope Can be inserted directly without damaging the inner surface of the channel.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0013]
FIGS. 1-13 shows 1st Embodiment, FIG. 1 is a perspective view of the clip unit 1 of the ligation apparatus of a biological tissue. The clip unit 1 includes a clip 2, a connecting member 3, and a presser tube 4 as a fastening member.
[0014]
As shown in FIGS. 2A and 2B, the clip 2 has a loop portion 2a formed by bending a metal plate material such as a plate spring material such as stainless steel at the center. Further, after crossing at a position in the vicinity of the loop portion 2a, a pair of arms 2b having spreading habits are extended in a state where the distal end portions are separated from each other, and a tissue grasping portion 2c is provided at the distal end portion. Is formed.
[0015]
Further, the crossing portion of the arms 2b of the clip 2 is formed to be narrower than the distal end side, and the tissue gripping portions 2c are opposed to each other. Further, the base end portion of the loop portion 2a of the arm 2b is formed to be narrower than the other portions, and saw blade-like projections 2d protruding in the plate width direction are provided on both sides of the loop portion 2a. That is, the protrusion 2d slides on the inner surface of the presser tube 4 with respect to the direction in which the clip 2 is pulled into the presser tube 4, but the tissue gripping portion side so as to bite into the inner surface of the presser tube 4 in the direction opposite to the pulling direction. Is formed with an acute slope, and the loop side is formed with an obtuse slope.
[0016]
Further, the arm 2b is formed in a substantially arc shape in cross section along the curvature of the endoscope channel to be described later, and when the clip 2 is closed, the pair of arms 2d has a substantially cylindrical shape, and the clip 2 is placed in the channel. It can be inserted directly. Furthermore, the tissue gripping portion 2c is curved in a spherical shape from 90 ° to 150 ° inward, and one of the tissue gripping portions 2c is a substantially triangular convex portion 2f and the other is a substantially triangular concave portion 2g that meshes with the convex portion 2f. Is formed.
[0017]
Here, the dimensions of the clip 2 will be described. The size is set in consideration of the grasping ability of the living tissue and the insertion into the endoscope. For example, the thickness is 0.1 to 0.5 mm, and the total length is 5 mm. -10 mm. The loop portion 2a is circular or elliptical with a major axis of 1 mm to 5 mm and a minor axis of 1 mm to 5 mm. Furthermore, the tissue gripping portion 2c has a length of about 1 mm and a width of about 1 to 2 mm. Further, the protrusion 2d is set to have a width of 1 mm or more so that it can be pulled into the presser tube 4 and a tip tube described later. Furthermore, the radius of the arm 2b is formed to be 1 mmφ to 1.3 mmφ.
[0018]
As shown in FIGS. 3 (a) and 3 (b), the connecting member 3 is manufactured by injection molding a high-strength resin material such as liquid crystal polymer or nylon, and is formed in a cylindrical bar shape. A protrusion 3a is provided. The protrusion 3a protrudes laterally from the base 3b. The width 3c of the protruding portion 3a is about 0.6 mm to 1.2 mm, and the clip 2 can be closed into the holding tube 4 by hooking the loop portion 2a of the clip 2 to the protruding portion 3a.
[0019]
Furthermore, the other end portion of the connecting member 3 is bifurcated and formed with a grip portion 3e that has a notch portion 3d at the branch portion and grips an arrowhead hook described later. Further, the intermediate portion of the connecting member 3 is formed into a small-diameter portion 3f, a medium-diameter portion 3g, and a large-diameter portion 3h as a rupture portion from the front end side toward the rear end side. The dimensions are set to break when force is applied. Furthermore, the plane part 3j is formed over the opposite direction of the large diameter part 3h in the axial direction, and the large diameter part 2h is formed in a non-circular shape. A locking projection 3i is provided on a part of the outer peripheral surface of the large-diameter portion 3h at the terminal portion of the flat surface portion 3j.
[0020]
Here, the dimensions of the connecting member 3 will be described. The total length is about 10 mm, and the grip portion 3 e has an inner diameter φ of about 0.6 mm. The outer diameter φ of the small diameter portion 3f is 0.3 mm or more, and the large diameter portion 3h is 1 mmφ to 1.3 mmφ. Further, the height of the locking projection 3i is set to 0.1 mm or more.
[0021]
The presser tube 4 is manufactured by injection molding a soft material having moderate elasticity such as a material softer than the clip 2, for example, PPA (polyphthalamide) or PA (polyamide). This presser tube 4 closes the arm 2b of the clip 2 by being fitted to and mounted on the arm 2b of the clip 2.
[0022]
A tip tube 4 a made of a high-strength metal such as stainless steel is fitted to the tip of the presser tube 4. The outer diameter of the distal end tube 4a is the same as that of the presser tube 4, and the inner diameter is formed in the inner diameter inclined portion 4c so as to gradually increase from the minimum inner diameter portion 4b of the base end portion toward the distal end portion. . Further, the outer diameter of the distal end tube 4a is formed in the outer diameter inclined portion 4c ′ so as to gradually become smaller toward the distal end portion so as to easily slip inside the channel of the endoscope.
[0023]
A pair of projecting and retracting wings 4 d that are elastically projectable and retractable in the radial direction is provided on the outer periphery of the presser tube 4, and a rear end inclined portion 4 e is provided at the rear end of the presser tube 4. The inner diameter of the presser tube 4 is slightly larger on the tip side, and an inner diameter step portion 4f is formed between the inner diameter on the rear end side.
[0024]
Here, the dimensions of the presser tube 4 will be described. The overall length and the inner and outer diameters are set according to the size of the clip 2. The inner diameter inclined portion 4c of the distal end tube 4a has an angle of 15 to 90 ° and an inlet diameter of about 1.6 mm, and has an inlet diameter and an angle suitable for the clip 2 to grasp tissue. The outer diameter inclined portion 4c ′ has an angle of 5 to 120 ° and comes into surface contact with the curved channel of the endoscope. The projecting and retracting wing 4d is substantially triangular, and the maximum projecting width 4g is 2 mm or more, and is set to be equal to or larger than the inner diameter of the channel.
[0025]
Furthermore, the stepped portion 4e between the rear end inclined portion 4e of the presser tube 4 and the large diameter portion 3h of the connecting member 3 is 0.5 mm or less, and the inner diameter step portion 4f is set to have a height of 0.1 mm or more. Yes.
[0026]
Here, the assembly of the clip unit 1 will be described. First, the connecting member 3 is inserted from the rear end side of the presser tube 4, and the protruding portion 3 c of the connecting member 3 is completely projected from the distal end tube 4 a of the presser tube 4. In this state, the loop portion 2a of the clip 2 is hooked on the protruding portion 3c. Next, when the connecting member 3 is pulled slightly toward the hand side, the loop portion 2a of the clip 2 hits the distal end tube 4a of the presser tube 4, and the assembly of the clip unit 1 is completed.
[0027]
From this state, when the connecting member 3 is pulled toward the hand side, the loop portion 2a of the clip 2 is drawn into the presser tube 4, and the loop portion 2a is crushed, so that the arm 2b is opened. At this time, as shown in FIGS. 4A to 4C, the clip 2 is in a state in which the clip 2 is opened to the maximum because the protrusion 2 d of the clip 2 is locked to the inner diameter step portion 4 f of the presser tube 4. Held in. When the connecting member 3 is pulled from this state, the protrusion 2d of the clip 2 gets over the inner diameter step portion 4f of the presser tube 4 and the clip 2 is drawn into the presser tube 4, so that FIG. ), The arm 2b of the clip 2 is closed.
[0028]
At this time, since the presser tube 4 is formed of a resin having an appropriate elasticity softer than the clip 2, the protrusion 2 d of the clip 2 bites into the inner wall of the presser tube 4, and the clip 2 is axially moved inside the presser tube 4. The movement is restricted and the leg is maintained in a closed state.
[0029]
Since the protrusion 2d of the clip 2 is formed in a saw blade shape protruding in the plate width direction of the loop portion 2a, the clip 2 moves lightly on the tightening side (the closing leg direction of the arm 2b), but the clip 2 is on the return side. In the arm 2b leg opening direction, the protrusion 2d does not bite into the inner wall of the presser tube 4 and move.
[0030]
Next, a connection structure between the connecting member 3 and the operation wire 6 shown in FIGS. 6A, 6B, and 6C will be described. The operation wire 6 is formed of a stranded wire composed of a core strand and a side strand of a metal wire having moderate elasticity such as stainless steel and NiTi. The outer diameter of the operation wire 6 is φ1.2 mm to φ1.8 mm, the clearance from the inner diameter of the endoscope channel is 0.4 mm or less, and a Teflon (registered trademark) coat is applied to the outer surface. .
[0031]
A cylindrical wire fixing portion 8a made of a metal material such as stainless steel is fitted to the distal end portion of the operation wire 6, and an arrowhead hook 8 is integrally provided on the wire fixing portion 8a via a shaft portion 8c. . The wire fixing portion 8a is provided with a fixing hole 8e, and a brazing material is poured into the fixing hole 8e and fixed to the operation wire 6.
[0032]
The arrowhead hook 8 has a conical shape formed at the tip of the shaft portion 8c and has an arrowhead slope portion 8b having an angle of 10 ° to 120 °, and the arrowhead large diameter portion 8d has a diameter of φ0.8 mm to φ1. It is about 2 mm.
[0033]
7 to 9 show the operation unit 9, and the operation unit main body 10 includes a cylindrical part 10a on the front end side, a shaft-like part 10b extending integrally with the cylindrical part 10a toward the rear end side, and the shaft-like part. It is comprised from the finger ring 10c rotatably provided in the base end part of 10b. A slit 10d is provided in the axial direction in the shaft-like portion 10b of the operation portion main body 10, and a slider 11 having a finger-hanging recess 11a on the outer peripheral surface is provided in the slit 10d so as to freely advance and retract.
[0034]
A proximal end portion of the operation wire 6 inserted through the cylindrical portion 10 a of the operation portion main body 10 is introduced into the lumen 11 b of the slider 11. A wire fixing member 12 divided into two is provided at a position biased toward the proximal end side of the lumen 11 b of the slider 11. And the base end part 6b of the operation wire 6 is clamped and fixed by the wire fixing member 12 divided into two. The wire fixing member 12 is fixed to the slider 11 by a lid body 14 fixed by screws 13.
[0035]
Therefore, the operation wire 6 moves forward and backward in the channel of the endoscope by moving the slider 11 back and forth with respect to the operation portion main body 10. Further, since the distal end side of the inner cavity 11b of the slider 11 is open, when the slider 11 is moved forward most, the proximal end large diameter portion 10a ′ of the cylindrical portion 10a of the operation portion main body 10 is fitted. Thus, the stroke of the slider 11 can be increased while shortening the length of the operation unit 9.
[0036]
Although the wire fixing member 12 is provided at a position biased toward the proximal end side of the lumen 11b of the slider 11, the same is true even if the wire fixing member 12 is provided at a position biased toward the distal end side of the lumen 11b of the slider 11. effective.
[0037]
A pipe 15 made of stainless steel is fitted to the operation wire 6 inserted through the cylindrical portion 10 a of the operation unit main body 10. Further, an inner peripheral enlarged diameter portion 16 is formed at the tip of the cylindrical portion 10a, and a coil joint pipe 17 fixed to the cylindrical portion 10a is fixed to the inner peripheral enlarged diameter portion 16.
[0038]
A proximal end portion of a coil sheath 23 that is fitted to the operation wire 6 is connected to the coil joint pipe 17. The coil sheath 23 has a length of 200 mm to 300 mm, and a forceps opening fixing portion 24 is provided at the tip of the coil sheath 23. The forceps opening fixing portion 24 is detachably fixed to a forceps opening 26 provided in the operation portion 25 of the endoscope 20. The lumen of the coil sheath 23 communicates with the channel 21 of the endoscope 20.
[0039]
Further, the proximal end portion of the operation wire 6 is connected to the slider 11 of the operation portion 9, and the operation wire 6 is inserted through the coil sheath 23 and the channel 21 and led to the distal end portion of the channel 21. The distal end portion of the operation wire 6 is engaged and connected to the connecting member 3 of the clip unit 1 via the arrowhead hook 8.
[0040]
Accordingly, by moving the slider 11 of the operation unit 9 forward and backward, a reaction force applied to the operation unit main body 10 can be received by the operation unit 25 of the endoscope 20 via the coil sheath 23, and the clip 2 is connected via the operation wire 6. The arm 2b can be opened and closed.
[0041]
Next, the operation of the ligation apparatus for living tissue configured as described above will be described.
[0042]
As shown in FIGS. 10 and 11, the clip unit 1 is introduced into the body cavity via the operation wire 6 into the channel 21 of the endoscope 20 that has been previously inserted into the body cavity, and the inside of the body cavity is observed by the endoscope 20. Then, the clip unit 1 is guided to the target site.
[0043]
12 and 13 show a procedure for ligating a living tissue with the clip 2. As shown in FIG. 12A, the clip unit 1 moves forward in the channel 21 through the operation wire 6 by the operation of pushing the slider 11 to the distal end side. When the operation wire 6 is further advanced by the slider 11, the clip unit 1 protrudes from the channel 21 as shown in FIG. At this time, since the projecting and retracting wing 4d of the presser tube 4 is inclined downward toward the tip, the clip unit 1 is pushed out smoothly and without resistance. The projecting and retracting wing 4 d of the presser tube 4 is released from the contact state with the inner surface of the channel 21 and protrudes from the presser tube 4 in the outer peripheral direction. Further, as shown in FIG. 13A, the pair of arms 2b of the clip 2 has the spreading habit, so that the legs are opened at the same time as protruding from the channel 21.
[0044]
Thereafter, when the slider 11 is moved to the base end side, the operation wire 6 is pulled back to the base end side as shown in FIG. 12C, and the base end side end surface of the projecting and retracting wing 4d of the presser tube 4 is the endoscope. It engages with the distal end surface of the 20 insertion portions 22.
[0045]
When the slider 11 is further moved to the proximal end side and the operation wire 6 is pulled back, the loop 2 a of the clip 2 is drawn into the presser tube 4 through the connecting member 3. Then, the loop portion 2a of the clip 2 comes into pressure contact with the inner wall of the presser tube 4, and the arm 2b is maximally opened as shown in FIGS. 4 (a) and 13 (b).
[0046]
In this state, while observing with the endoscope 20, the clip 2 is approached to the target site of the living tissue, and the tissue gripping portion 2c of the clip 2 is pressed. At this time, a thumb is inserted into the finger ring 10c of the operation unit 9 and the slider 11 is sandwiched between the index finger and the middle finger for operation. The finger ring 10c is rotatable with respect to the operation unit main body 10. Therefore, when the clip 2 is rotated to change the direction, the operation unit body 10 is rotated. However, the operation unit body 10 can be rotated even when the thumb is inserted into the finger ring 10c.
[0047]
When the slider 11 is further moved to the proximal end side, the operation wire 6 is retracted, and the arm 2 b of the clip 2 is drawn into the presser tube 4 via the connecting member 3. Accordingly, the arm 2b of the clip 2 is closed as shown in FIGS. 5 (a) and 13 (c). The living tissue is securely sandwiched between the arms 2 b of the clip 2. At this time, since the presser tube 4 is formed of a resin having an appropriate elasticity softer than the clip 2, the protrusion 2 d of the clip 2 bites into the inner wall of the presser tube 4, and the clip 2 is axially moved inside the presser tube 4. The movement is restricted and the leg is kept closed.
[0048]
When the slider 11 is further moved to the proximal end side and the operation wire 6 is retracted, the narrow-diameter portion 3f is broken as shown in FIG. The coupling with the connecting member 3 is released, and the clip 2 is detached from the ligating apparatus and is left in the body cavity while holding the living tissue.
[0049]
For example, the biological tissue at the bleeding site in the body cavity is sandwiched and compressed between the arms 2b of the clip 2, and the clip 2 is placed in that state, thereby compressing the blood vessel at the bleeding site and stopping bleeding. Although the living tissue is held by the clip 2 and left for several days until bleeding stops, the protrusion 2d of the clip 2 bites into the inner wall of the presser tube 4, and the clip 2 moves in the axial direction inside the presser tube 4. Is restrained and maintained in a closed leg state.
[0050]
After placement of the clip 2, the ligating apparatus is removed from the channel 21 of the endoscope 20. When the connecting member 3 is removed from the arrowhead hook 8, the arrowhead hook 8 is rotated along the opening direction of the notch 3 d with respect to the axis of the operation wire 6, so that the arrowhead hook 8 is removed from the notch of the connecting member 3. It can be extracted from 3d.
[0051]
In this way, the clip unit 1 can be directly inserted into the channel 21 of the endoscope 20, and the arm 2b of the clip 2 is formed in a substantially arc shape in cross section along the curvature of the channel 21. By operating the wire 6, the channel 21 can be smoothly advanced and retracted. Therefore, even if the channel 21 of the endoscope 20 has a limited inner diameter, the clip 2 can be enlarged, and even if the channel 21 has a small inner diameter, the clip 2 is large enough to ligate the living tissue. Can be ligated reliably.
[0052]
According to the present embodiment, the operation wire 6 and the clip 2 can be directly inserted into the channel 21 of the endoscope 20. Therefore, the operation wire 6 can be made thicker, the size operation force can be transmitted to the tip portion, and the clip 2 can be enlarged to obtain a sufficient gripping amount.
[0053]
14 to 16 show a second embodiment, and the same components as those of the first embodiment are denoted by the same reference numerals and description thereof is omitted. FIG. 14 is a perspective view of the clip unit 1, and the outer periphery of the presser tube 27 as a fastening member is formed with a large diameter portion 27a on the distal end side and a small diameter portion 27b on the proximal end side. Accordingly, the stepped portion 27c is formed on the outer periphery of the presser tube 27, and the projecting and retracting wing 4d of the first embodiment is not provided. The presser tube 27 is formed of a resin having a moderate elasticity that is softer than the clip 2, and the protrusion 2 d of the clip 2 bites into the inner wall of the presser tube 27 and restrains the clip 2 from moving in the axial direction inside the presser tube 27. And is maintained in a closed leg state.
[0054]
Further, similarly to the first embodiment, an arrowhead hook 8 is provided at the distal end portion of the operation wire 6, and is engaged and connected to the grip portion 3 e of the connecting member 3 constituting the clip unit 1. The proximal end portion of the operation wire 6 is connected to the slider 11 of the operation unit 9.
[0055]
Further, as shown in FIG. 15, the operation wire 6 is inserted into the channel 21 of the endoscope 20 while being inserted through the coil sheath 28. A distal end member 29 that abuts against the stepped portion 27 c of the presser tube 27 is provided at the distal end portion of the coil sheath 28. As shown in FIG. 16, the proximal end portion of the coil sheath 28 is led out from the forceps opening 26 and connected to the operation unit body 10 of the operation unit 9.
[0056]
Next, the operation of this embodiment will be described.
[0057]
The clip unit 1 can be advanced inside the channel 21 of the endoscope 20 through the coil sheath 28 by the advance operation of the operation unit 9 led out from the forceps port 26 of the endoscope 20. From the channel 21.
[0058]
Since the pair of arms 2b of the clip 2 has an expanding habit, the legs are opened at the same time as protruding from the channel 21. Thereafter, when the slider 11 is moved to the proximal end side, the operation wire 6 is pulled back to the proximal end side, and the stepped portion 27 c of the presser tube 27 is engaged with the distal end member 29 of the coil sheath 28.
[0059]
When the slider 11 is further moved to the proximal end side and the operation wire 6 is pulled back, the loop 2 a of the clip 2 is drawn into the presser tube 27 via the connecting member 3. Then, the loop portion 2a of the clip 2 is pressed against the inner wall of the presser tube 27, and the arm 2b is opened to the maximum.
[0060]
When the slider 11 is further moved to the proximal end side, the operation wire 6 is retracted, and the arm 2 b of the clip 2 is drawn into the presser tube 27 via the connecting member 3. Accordingly, the arm 2b of the clip 2 is closed, and the living tissue is securely sandwiched between the arms 2b of the clip 2. At this time, since the presser tube 27 is formed of a resin having an appropriate elasticity softer than that of the clip 2, the protrusion 2 d of the clip 2 bites into the inner wall of the presser tube 27, and the clip 2 is axially moved inside the presser tube 27. The movement is restricted and the leg is kept closed.
[0061]
When the slider 11 is further moved to the proximal end side and the operation wire 6 is retracted, the narrow-diameter portion 3f is broken as the breaking portion of the connecting member 3 of the clip 2, and the clip 2 is released from the connection with the connecting member 3. The clip 2 is detached from the ligation apparatus and is placed in the body cavity while holding the living tissue.
[0062]
According to the present embodiment, it is not necessary to provide the presser tube 27 with a projecting / recessing wing, and the presser tube 27 can be formed of a cylindrical body having a step, which is simplified in structure and is provided in the channel 21 of the endoscope 20. The effect is that you can move forward and backward smoothly.
[0063]
【The invention's effect】
As described above, according to the present invention, the clip unit can be directly inserted into the channel of the endoscope without using the introduction tube, and the arm of the clip has a substantially arc-shaped cross section along the curvature of the channel. Therefore, the channel can be smoothly advanced and retracted by operating the operation member. Therefore, even if the endoscope channel has a limited inner diameter, the clip can be enlarged, and even if the channel has a small inner diameter, the biological tissue is reliably ligated by a clip that is large enough to ligate the biological tissue. be able to.
[Brief description of the drawings]
FIG. 1 is a perspective view of a clip unit according to a first embodiment of the present invention.
2A is a perspective view of a clip, and FIG. 2B is a cross-sectional view taken along the line AA.
3A is a longitudinal plan view of the clip unit, and FIG. 3B is a longitudinal side view of the clip unit.
4A and 4B show the clip unit in a state in which the clip of the embodiment is opened, in which FIG. 4A is a longitudinal side view, and FIG. 4B is a cross-sectional view taken along line BB.
5A and 5B show a state in which the clip of the embodiment is closed, in which FIG. 5A is a longitudinal plan view, and FIG. 5B is a longitudinal side view.
6A is a longitudinal side view of a distal end portion of the ligating apparatus, FIG. 6B is a longitudinal side view of a connecting member, and FIG. 6C is a cross-sectional view showing a fixing structure of an arrowhead hook.
7A and 7B show an operation unit of the ligating apparatus according to the embodiment, wherein FIG. 7A is a longitudinal side view, FIG. 7B is a cross-sectional view taken along line CC, and FIG. 7C is a cross-sectional view taken along line DD.
FIGS. 8A and 8B are operation side views of the ligating apparatus according to the embodiment, and FIGS.
FIG. 9 is a configuration diagram of an operation unit of the ligation apparatus according to the embodiment.
10A is a longitudinal sectional side view of an insertion portion of an endoscope, and FIG. 10B is a cross-sectional view taken along the line EE.
11A is a perspective view of a clip unit inserted into a channel of an endoscope, and FIG. 11B is a cross-sectional view taken along the line FF.
FIG. 12 shows the same embodiment, and (a) to (c) are operation explanatory views.
FIG. 13 shows the same embodiment, and (a) to (d) are operation explanatory views.
FIG. 14 is a perspective view of a clip unit according to the second embodiment of the present invention.
15A is a perspective view of a clip unit inserted into a channel of an endoscope, and FIG. 15B is a cross-sectional view taken along a line GG.
FIG. 16 is a configuration diagram of an operation unit of the ligation apparatus according to the embodiment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Clip unit 2 ... Clip 3 ... Connecting member 4 ... Presser tube 6 ... Operation wire 20 ... Endoscope 21 ... Channel

Claims (7)

A clip have a plurality of arms forming a tissue grasping portion for grasping a biological tissue and impart expansion behavior to the arm tip,
A fastening member that closes the arm of the clip by fitting and attaching to the portion of the arm; and
An operation member which is inserted into a channel of the endoscope so as to be movable forward and backward and engageable with the clip ;
Comprising
The ligation apparatus for living tissue , wherein the arm has a cross-sectional shape of the arm formed in a substantially arc shape that bulges outward . A clip having a plurality of arms formed with a tissue gripping part for gripping a biological tissue at the tip, and imparting a spreading habit to the arm;
A fastening member that closes the arm of the clip by fitting and attaching to the portion of the arm; and
An operation member which is inserted into a channel of the endoscope so as to be movable forward and backward and engageable with the clip;
Comprising
The ligation apparatus for living tissue, wherein the arm is formed in a substantially arc shape that bulges outward in a cross-sectional shape of a portion including a portion where the fastening member is fitted . In a ligation apparatus that inserts into a body cavity through a channel of an endoscope and ligates biological tissue in the body cavity,
A clip having a plurality of arms formed with a tissue gripping part for gripping a biological tissue at the tip, and imparting a spreading habit to the arm;
A fastening member that closes the arm of the clip by fitting and attaching to the portion of the arm; and
An operation member which is inserted into a channel of the endoscope so as to be movable forward and backward and engageable with the clip;
Comprising
The arm is characterized in that a cross-sectional shape of a portion including the tissue gripping portion to a portion where the fastening member is fitted is formed in a substantially arc shape so that the arm forms a substantially cylindrical shape when the leg is closed. Biological tissue ligation device. In a ligation apparatus that inserts into a body cavity through a channel of an endoscope and ligates biological tissue in the body cavity,
It has a plurality of arms formed with a tissue gripping part for gripping a living tissue at the tip, imparts expansibility to the arms, and exposes a leg-openable portion of each arm to the channel of the endoscope With a clip to be inserted,
A tightening member that closes the arm of the clip by fitting and attaching to the arm;
An operation member which is inserted into a channel of the endoscope so as to be movable forward and backward and engageable with the clip;
Comprising
The ligation apparatus for living tissue , wherein the arm has a cross-sectional shape of the arm formed in a substantially arc shape that bulges outward . In a ligation apparatus that inserts into a body cavity through a channel of an endoscope and ligates biological tissue in the body cavity,
It has a plurality of arms formed with a tissue gripping part that grips a living tissue at the tip, imparts expansibility to the arm, and exposes a leg-openable part of each arm and inserts it into the channel of the endoscope With a clip that
A fastening member that closes the arm of the clip by fitting and attaching to the portion of the arm; and
An operation member which is inserted into a channel of the endoscope so as to be movable forward and backward and engageable with the clip;
Comprising
The ligation apparatus for living tissue, wherein the arm has a cross-sectional shape including a portion from the tissue gripping portion to a portion where the fastening member is fitted, in a substantially arc shape that bulges outward . In a ligation apparatus that inserts into a body cavity through a channel of an endoscope and ligates biological tissue in the body cavity ,
It has a plurality of arms formed with a tissue gripping part that grips a living tissue at the tip, imparts expansibility to the arm, and exposes a leg-openable part of each arm and inserts it into the channel of the endoscope With a clip that
A fastening member that closes the arm of the clip by fitting and attaching to the portion of the arm; and
An operation member which is inserted into a channel of the endoscope so as to be movable forward and backward and engageable with the clip;
Comprising
The arm is characterized in that a cross-sectional shape of a portion including the tissue gripping portion to a portion where the fastening member is fitted is formed in a substantially arc shape so that the arm forms a substantially cylindrical shape when the leg is closed. Biological tissue ligation device. The ligation apparatus for living tissue according to any one of claims 1 to 6, wherein the clip, the fastening member, and the operation member are exposed and inserted into a channel of the endoscope.

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