JPH10118088A - Lithodialysis apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To economically use a tube sheath without spoiling functions by providing a reinforcing means for reinforcing the second sheath within a range where the first strong sheath moves back and forth on the second flexible sheath and a liq. delivering means into the second sheath in the first sheath. SOLUTION: A coil sheath part 2 of a lithodialysis apparatus 1 is constituted by connecting and fixing flexible coil sheaths 5 and 6 through a connecting member 7 and the flexible coil sheath 5 at the apex side is more flexible than the flexible coil sheath 6 at the base end side. A guide pipe 29 for protecting a resin-made tube sheath 31 is inserted through a base coil sheath 12 and a slide member 13 within a range where a strong coil sheath part 2 is moved back and forth on the flexible tube sheath part 3 and the guide pipe 29 is fixed on a connecting member 25. The base end of the tube sheath 31 of a tube sheath part 3 is pressed and fixed in the apex fixing part of the main body to communicate a lure lock base pivoted and fixed on the outer periphery of the main body with the tube sheath 31.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a calculus crushing device for crushing calculus generated in a body cavity.

[0002]

2. Description of the Related Art Stone formation in organs such as the biliary tract and the bladder adversely affects patients. In particular, an enlarged stone causes a great deal of pain to the patient. So, using an endoscope,
2. Description of the Related Art A treatment for introducing a calculus crushing device into a body cavity, crushing a calculus generated in the body cavity, and discharging or removing the calculus from the body is performed.

[0003] As a calculus crushing device used for this kind of treatment, Japanese Patent Publication No. Hei 4-30302 and Japanese Utility Model Application Laid-Open No. 3-785 are known.
There is one disclosed in Japanese Patent Publication No. In these, a basket is provided at the distal end of the operation wire inserted through the flexible sheath, and this basket can be freely inserted into the flexible sheath together with the operation wire, and the basket is operated by an operation section connected to the rear end of the flexible sheath. The calculus is taken into the basket by pushing and retracting the operation wire, the basket is drawn into the distal end portion of the flexible sheath, and the calculus is crushed and crushed.

[0004] The flexible sheath of the calculus breaking device described above includes:
It is composed of a flexible tube sheath and a strong coil sheath that can advance and retreat on the tube sheath. The coil sheath is slidable between a first position at which the tip projects from the tube sheath tip and a second position at which the tube sheath tip projects sufficiently from the coil sheath tip. Further, the tube sheath is provided with a reinforcing member for reinforcing a portion where the coil sheath slides, and a mouthpiece for sending a liquid such as a contrast agent into the tube sheath.

[0005]

However, in these calculus breaking devices, the tube sheath is less flexible and durable than a rigid coil sheath, and often only the tube sheath has to be replaced. However, the tube sheath is integrally provided with a reinforcing member such as a pipe and a connecting member therefor, and the structure is complicated in structure. Because of this, the tube sheath is expensive, and replacing the tube sheath has placed a great economic burden on the user.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems, and an object of the present invention is to provide a tube sheath which is generally inferior in durability and needs to be replaced without reducing its function, at a low cost. It is an object of the present invention to provide a calculus breaking device which can be constructed and used economically.

[0007]

In order to solve the above-mentioned problems, a calculus breaking device according to the present invention reinforces a second sheath within a range in which a strong first sheath advances and retreats on a flexible second sheath. A reinforcing means and / or a liquid feeding means for feeding the liquid into the second sheath are provided on the first sheath side. Thus, the first sheath portion becomes an inexpensive part, and replacement thereof can be performed economically.

[0008]

BEST MODE FOR CARRYING OUT THE INVENTION

[First Embodiment] A first embodiment of the present invention will be described with reference to FIGS. As shown in FIG. 1A, a calculus breaking device 1 includes a coil sheath portion 2 as a first sheath portion.
A tube sheath portion 3 as a second sheath portion which is inserted into the coil sheath portion 2 so as to be able to advance and retreat, and a basket wire portion 4 which is inserted into the tube sheath portion 3 so as to be able to advance and retreat. . The coil sheath part 2
Are formed by connecting and fixing flexible coil sheaths 5 and 6 having different flexibility via a connecting member 7. The distal side flexible coil sheath 5 is a coil softer than the proximal side flexible coil sheath 6. The side parts are softened. The tip of the distal coil sheath 5 has a metal tip 8
Are externally fitted and fixed. As shown in FIG. 1B, a slide operation unit 9 described later is connected to the proximal end of the proximal coil sheath 6. A plurality of, in this case, four wire guide grooves 10 in which each ridge line is smoothly finished are cut out and provided at the front end edge of the metal tip 8, and a smooth taper surface 11 is formed on the rear end side inner surface. ing.

FIG. 2 is a cross-sectional view of the slide operation unit 9, FIG. 3A is a plan view of the operation unit 9, and FIG.
Is a side view of the operation unit 9. A root coil sheath 12 having a diameter larger than this is connected and fixed to a base end of the proximal coil sheath 6 by a connection member 13. A slide member 14 is provided at the base end of the root coil sheath 12.
Are externally fitted and fixed. On the outer periphery of the slide member 14,
A cylindrical slide seat 16 provided with a guide groove 15 opening along the axial direction is provided so as to be fitted, and the slide member 14 is provided so as to be slidable in the slide seat 16 in the front-rear direction. ing. The base end of the guide groove 15 is open at the base end surface of the slide seat 16.

[0010] As shown in FIG.
5 on the side wall of the tip side portion, a plurality of
Here, four notch grooves 17a to 17d are provided at regular intervals in the axial direction. A cylindrical fixing portion 18 having an outer periphery formed in a bamboo shoot shape is provided on the outer periphery of the distal end portion of the slide member 14.
A base end of a resin buckling tube 19 that covers the root coil sheath 12 and the connection member 13 is press-fitted and fixed to the fixing portion 18.

At the side of the slide member 14, a mounting hole 2 is provided.
0 is drilled, one end of a screw shaft 21 is inserted into the mounting hole 20, and the screw shaft 21 is fixed by a screw 22. The screw shaft 21 penetrates the guide groove 15 of the slide seat 16 and protrudes to the outside. A tubular knob 23 is screwed around the protruding portion so as to be rotatable and vertically movable.

At the base end of the slide seat 16, a distal end of a cylindrical connecting member 25 having an engagement groove 24 at the base end is provided.
In the fitted state, it is fixed by screws 26. The base end of the connecting member 25 has a thread groove 2 on its inner periphery.
7 is provided rotatably. At the tip of the joint knob 28, the connection member 2
5 that is locked to a flange 25a formed on the outer periphery of the base end of the flange 5
8a are formed. The sliding means configured as described above allows a range in which the tube sheath portion 3 is slid forward and backward with respect to the coil sheath portion 2. A guide pipe 29 constituting a reinforcing means for protecting the resin tube sheath 31 is inserted through a range in which the guide tube 29 advances and retreats on the sheath portion 3. The guide pipe 29 is connected to the connecting member 2 via a fixing member 30.
5 is fixed. That is, the guide pipe 29 of the reinforcing means is provided not on the tube sheath portion 3 side but on the coil sheath portion 2 side.

The tube sheath 3 is configured as shown in FIG. That is, it is composed of a resin tube sheath 31 and a main body 32 connected to the base end. The proximal end of the tube sheath 31 is press-fitted and fixed to the distal end fixing portion 33 of the main body 32. A screw portion 34 into which the joint knob 28 is screwed is provided on the outer periphery of the main body 32. A screw 35 is screwed and fixed in front of the screw portion 34. Further, a luer lock base 36 is screwed and fixed to the outer periphery of the main body 32. The luer lock base 36 communicates with the tube sheath 31 and the tube sheath 3
1 is provided with a liquid feeding means for feeding the liquid. Also, body 3
An O-ring 37 is inserted in the base end of the main body 2, and a rear connecting pipe 38 is screwed and attached to the base end of the main body 32.

On the other hand, the basket wire section 4 is shown in FIG.
It is configured as shown in FIG. The basket wire section 4 is provided with a basket section 39 at the tip end. The basket section 39 has a plurality of, here four elastic wires 40.
Of the elastic wires 40 are united by a tip member 41, and the middle part of each elastic wire 40 is united by a collecting member 42. The elastic wire 40 has bending portions 43a to 43d between the tip 41 and the collecting member 42.
3e is formed so as to form a swollen basket shape. The basket 39 is connected and fixed to the distal end of the operation wire 44. An operation rod 45 is connected and fixed to the base end of the operation wire 44.

The calculus crushing apparatus 1 includes a calculus crushing operation unit (not shown) for pulling the basket wire portion 4 to the tube sheath portion 3 and the coil sheath portion 2 connected and fixed to the tube sheath portion 3. It is detachably attached to the portion 38. The operation unit for calculus crushing may be a unit for strongly pulling the basket wire unit 4 using a pinion rack mechanism as shown in Japanese Patent Publication No. Hei 4-30302, for example, or Japanese Patent Publication No. 3-7851.
As shown in Japanese Patent Application Publication No. 5 (1993) -5, the operation wire 44
May be a general traction operation means which slides the slider member connected to the front and rear along the guide rod. Further, it may be a means for winding and pulling the operation wire around a winding support shaft or the like as described in the appendix.

When assembling the calculus crushing apparatus 1 constructed as described above, first, as shown in FIG. 4 (b), the tube sheath 3 is inserted from the base end of the coil sheath 2 from the distal end thereof, and A screw 35 is fitted into the groove 24 of the connection member 25 provided at the base end of the portion 2, and the main body 32 of the tube sheath portion 3 abuts against the base end of the connection member 25. After that, the joint knob 28 is rotated and screwed into the screw portion 34 of the main body 32 to integrally fix the coil sheath portion 2 and the tube sheath portion 3 together. Thereafter, the basket wire portion 4 is inserted from the distal end of the tube sheath portion 3,
The basket 39 is connected to the tube sheath 3 from the operation rod 45 side.
1, and then a calculus breaking operation unit (not shown) is attached. By the above operation, the assembly of the calculus crushing device 1 is completed.

Next, a case of crushing bile duct calculi using the calculus crushing apparatus 1 assembled as described above will be described. First, the knob 23 of the coil sheath portion 2 is brought close to the hand side, and the slide member 14 is brought into contact with the tip of the connection member 25. The distal end of the tube sheath 31 projects from the distal end of the distal coil sheath 5. In this state, the coil sheath 2 is inserted into the body cavity through the channel of the endoscope. Then, the tube sheath 31 of the tube sheath portion 3 is protruded from the distal end of the endoscope and inserted into the common bile duct from the duodenal papilla.

Next, the operating rod 45 of the basket wire section 4
Is advanced with respect to the tube sheath portion 3 so that the basket portion 39 protrudes from the distal end of the tube sheath 31 and each elastic wire 40 is expanded. After the calculus is taken into the basket portion 39 by moving the basket portion 39 forward or backward, the operation rod 45 is pulled to pull a part of the basket portion 39 into the tube sheath 31 and the basket portion 39 is contracted. Let the stones hold.

Thereafter, the knob 23 of the coil sheath portion 2
Is slid forward along the guide groove 15 of the slide seat 16 so that the distal end of the coil sheath portion 2 is
Introduce into the common bile duct along 1. Then, when the metal tip 8 of the coil sheath portion 2 abuts on the basket portion 39, the knob portion 23 is divided into the four notched grooves 17a to 17a.
17d is engaged with the closest one, and the knob 23 is rotated and fastened and fixed to the slide seat 16. Thereafter, the operation rod 45 is strongly drawn down by the operation unit for calculus crushing, so that the basket unit 39 contracts with a strong force to crush the calculus. Thereafter, together with the endoscope, the calculus crushing device 1 is removed from the body, and the calculus is extracted.

On the other hand, since the tube sheath portion 3 is less durable than the coil sheath portion 2, the tube sheath portion 3 must be replaced frequently by using it.
Is provided on the coil sheath portion 2 side, so even if the tube sheath portion 3 is replaced, only the tube sheath portion 3 itself is used, which is economical when replacing the tube sheath portion 3.

[Second Embodiment] A second embodiment of the present invention will be described with reference to FIGS. The second embodiment differs from the first embodiment in the following points. The connection member 25 of the coil sheath portion 2 is provided with a luer lock base 36 integrally and a storage portion 46. The main body 32 of the tube sheath portion 3 has two O-rings 4 located between the distal end fixing portion 33 and the screw 35 and spaced apart from each other.
7a and 47b are mounted. Further, the main body 32 of the tube sheath portion 3 is provided with a small diameter portion 48 located between the O-rings 47a and 47b, and the small diameter portion 48 is provided with an opening 49 communicating with the inside of the tube sheath 31. ing.
The luer lock base 36 communicates with the tube sheath 31 to form a liquid sending unit that sends the liquid into the tube sheath 31.

The calculus crushing apparatus having such a configuration is assembled as shown in FIG. 6 similarly to the first embodiment. Then, in the assembled device, the storage section 46
The main body 32 of the tube sheath portion 3 inserted into the O-ring 47 is disposed before and after the luer lock base 36 of the coil sheath portion 2.
a and 47b are located to form a watertight state with the inner surface of the storage section 46. As a result, the luer lock base 36 and the tube sheath 31 communicate with each other through the small diameter portion 48 and the opening 49.

The method of using the calculus breaking device 1 is the same as that of the first embodiment. Further, since the luer lock base 36 is also provided in the coil sheath portion 2 as compared with the first embodiment, it is more economical to replace the tube sheath portion 3.

[Third Embodiment] A third embodiment of the present invention will be described with reference to FIGS. The third embodiment differs from the above-described second embodiment only in the configuration of the O-rings 47a and 47b in the following points. That is, the O-rings 47a and 47b are arranged before and after the luer lock base 36 in the connection member 25 of the coil sheath portion 2. In addition, the main body 32 of the tube sheath portion 3 has a small diameter portion 4.
8 and an opening 49, and O-rings 47a, 4
Recesses 50a and 50b fitted to 7b are provided.

The calculus crushing apparatus having such a configuration is assembled as shown in FIG. 8, and in this assembled state, the main body 32 of the tube sheath 3 is inserted into the storage section 46 of the coil sheath 2 and O The rings 47a and 47b are fitted into the recesses 50a and 50b to form a watertight state, and the luer lock base 36 and the tube sheath 31 are communicated.

In this embodiment, the O-ring 47
Since a and 47b are also built in the coil sheath part 2,
It is more economical to replace the tube sheath 3. <Supplementary Note> (1) A flexible sheath, an operation wire inserted through the flexible sheath so as to be able to advance and retreat, and a basket composed of a plurality of elastic wires connected to the distal end of the operation wire,
A first operation unit connected to the proximal end of the flexible sheath for operating the operation wire forward and backward, and a second operation connected to the proximal end of the first operation unit for winding and retracting the operation wire A calculus crushing device, comprising: an operation unit comprising:

(2) The calculus according to claim 1, wherein said flexible sheath, an operation wire having a basket, a first operation portion and a second operation portion are integrally incorporated. Crushing equipment.

(3) The first operating portion comprises a main body having a hollow portion and a slit communicating with the hollow portion, and a slider slidable in the hollow portion and having a small-diameter tubular portion and a fixing screw. The operation wire extends through the small-diameter tubular portion and the slider, and the small-diameter tubular portion, the slider, and the operation wire are detachably fixed by the fixing screw. The calculus crushing device according to claim 1.

(4) The second operating section includes a main body having a storage chamber, a winding support shaft provided on the main body in a direction perpendicular to the axial direction of the flexible sheath, and the support shaft. 2. The calculus crushing device according to claim 1, further comprising an operation wire locking means provided on the worm, and a handle for rotating the support shaft.

(5) The calculus crushing device according to claim 4, wherein the support shaft has ratchet teeth for preventing reverse rotation, and the main body has a releasable ratchet claw that meshes with the ratchet teeth. apparatus.

(6) The handle is fixed to the support shaft, and has a knob having a through hole orthogonal to the support shaft, and is slidably provided in the through hole, and determines the rotational radius by sliding. 5. The calculus breaking device according to claim 4, comprising a grip bar.

(7) The operation wire locking means is provided at a through hole provided in the support shaft, and at an end of an operation wire extending through the through hole and extending rearward of the second operation portion. A stopper that cannot pass through the through hole.
A calculus crushing device according to the item.

(8) The operation wire locking means according to the item (4), wherein the operation wire locking means comprises a pin provided on the support shaft and a hook provided at the end of the operation wire and hooking on the pin. Calculus crushing equipment.

(9) The calculus crushing device according to claim 4, wherein the operation wire locking means is a through hole provided on the support shaft, and into which an end of the operation wire is inserted. (10) In a state in which the basket is housed in the flexible sheath, the operation wire forms a slack between the front end of the storage chamber of the second operation unit and the locking position on the spindle. 10. The calculus breaking device according to item 4, 8 or 9 characterized by the above-mentioned.

(11) The calculus breaking device according to claim 10, wherein the slack is equal to or longer than a sliding distance of the slider in the first operation section.

(12) The calculus crushing device according to item 1, wherein the flexible sheath is a double sheath in which a resin sheath is internally provided on a metal coil sheath. (13) The flexible sheath is a resin sheath, a metal coil sheath, a first position where the tip of the resin sheath and the tip of the metal coil sheath are substantially aligned, and the tip of the resin sheath is made of the metal. A sliding mechanism for sliding the metal coil sheath between the coil sheath and a second position protruding sufficiently long from the distal end of the coil sheath.
A calculus crushing device according to the item.

[Supplementary Notes] (1) A first sheath having a predetermined strength, a second sheath which is inserted into the first sheath, has a lower strength than the first sheath and is flexible, and a second sheath An operation wire having a basket made of a plurality of elastic wires provided at a tip thereof so as to be slidably inserted into the sheath of the first sheath, an operation portion connected to the operation wire for sliding the operation wire, and the first sheath. In contrast, the position where the second sheath is retracted and the first sheath
A calculus crushing device comprising: a sliding operation means for sliding the first sheath to a position where the second sheath protrudes from the distal end of the first sheath longer than that position.
A member of reinforcing means for protecting the second sheath on which the sheath slides, and a member of liquid sending means for sending fluid into the second sheath, and at least one of the member of reinforcing means and the member of liquid sending means is provided. A calculus breaking device characterized by being separated from a second sheath and attached to the first sheath.

(2) In the calculus crushing apparatus, the first sheath is provided with both the member of the reinforcing means and the member of the liquid sending means, and when the first sheath and the second sheath are combined, the first sheath is provided. A seal means for sealing between the first sheath and the second sheath before and after the member of the liquid sending means of the sheath, wherein the first sheath is provided at the base of the second sheath located between the seal means. 2. The calculus breaking device according to claim 1, further comprising an opening communicating the member of the sheath liquid sending means and the inside of the second sheath. (3) The calculus breaking device according to claim 2, wherein the sealing means is provided in the second sheath. (4) The calculus breaking device according to claim 2, wherein the sealing means is provided in the first sheath.

(Additional Purposes and Effects for Each Item) (1), (2), (3), (4) Purpose: A tube sheath (second sheath) that is inferior in durability and needs to be replaced is inexpensive. Make structure. Effect: Achievement of the above purpose. (1), (2), (3),
The effect increases in the order of (4).

[0040]

According to the present invention, the coil sheath is provided with a reinforcing means for reinforcing the tube sheath in a range in which the strong coil sheath advances and retreats on the flexible tube sheath, and / or a liquid feeding means for feeding liquid into the tube sheath. Therefore, a tube sheath having low durability can be formed at low cost, and it is economical at the time of replacement.

[Brief description of the drawings]

FIG. 1A is a sectional view of a distal end portion of a calculus breaking device according to a first embodiment, and FIG. 1B is a side view of a rear end portion of the calculus breaking device.

FIG. 2 is a cross-sectional view of a rear end portion of the sliding operation section of the calculus breaking device according to the first embodiment.

FIG. 3A is a plan view of a sliding operation unit of the calculus breaking device according to the first embodiment, and FIG. 3B is a side view of the sliding operation unit.

FIG. 4A is a cross-sectional view of a tube sheath portion of the calculus breaking device according to the first embodiment, and FIG. 4B is a cross-sectional view of a state in which the tube sheath portion is incorporated in the sliding operation portion.

FIG. 5A is a sectional view of a sliding operation unit of a calculus breaking device according to a second embodiment, and FIG. 5A is a cross-sectional view of a tube sheath of the calculus breaking device.

FIG. 6 is a cross-sectional view of the calculus breaking device according to the second embodiment in which a tube sheath portion is incorporated in a sliding operation portion.

FIG. 7A is a cross-sectional view of a sliding operation unit of a calculus crushing apparatus according to a third embodiment, and FIG. 7A is a cross-sectional view of a tube sheath of the calculus crushing apparatus.

FIG. 8 is a cross-sectional view of the calculus breaking device according to the third embodiment in a state where a tube sheath portion is incorporated in a sliding operation portion.

[Description of Signs] 1 ... calculus crushing device, 2 ... coil sheath portion, 3 ... tube sheath portion, 4 ... basket wire portion, 9 ... sliding operation portion, 12 ... root coil sheath, 14 ... slide member,
15: guide groove, 16: slide seat, 23: knob, 2
9: guide pipe, 31: tube sheath, 36: luer lock base, 39: basket part, 40: elastic wire,
44 ... Operation wire.

Claims (1)

[Claims] 1. A first sheath having a predetermined strength, a second sheath which is inserted through the first sheath and has a lower strength than the first sheath and is flexible, and a second sheath which is softer than the first sheath. An operation wire that is slidably inserted and provided with a basket made of a plurality of elastic wires at the tip, and an operation unit that is connected to the operation wire and slides the operation wire;
Sliding operation means for sliding the first sheath to a position where the second sheath is retracted with respect to the first sheath and a position where the second sheath protrudes from the tip of the first sheath longer than that position. In the calculus crushing device provided, a member of reinforcing means for protecting the second sheath and the second
Wherein a member of a liquid sending means for sending a fluid is provided in the sheath, and at least one of a member of the reinforcing means and a member of the liquid sending means is separated from the second sheath and attached to the first sheath. Calculus crushing equipment.