JP3991545B2 - Medical grinding catheter device and wire drive device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a medical pulverizing catheter device and a wire drive device, and more particularly, for example, a medical pulverizing catheter that is used together with an endoscope and can very easily crush foreign substances such as gallstones and stones. The present invention relates to a device and a wire driving device.
[0002]
[Prior art]
As a medical instrument that is used together with an endoscope and removes gallstones and the like in a bile duct, for example, an instrument disclosed in Japanese Patent Laid-Open No. 10-286259 is known. This instrument is called an endoscopic wire loop type treatment instrument or an endoscopic basket type treatment instrument, and it can be used to hold a gallstone in a bile duct with a basket portion made of an elastic wire to destroy or remove the gallstone. It is possible.
[0003]
Such a treatment instrument is used with a catheter tube, and the distal end of the catheter tube is inserted into the bile duct from the duodenal papilla of the duodenum through the endoscope channel, and then the basket portion from the distal end of the catheter tube. To protrude. Since only the basket-type treatment instrument for endoscope cannot pass through the duodenal papilla, the treatment instrument passes through the duodenal papilla while being inserted into the catheter tube.
[0004]
The basket portion is ejected from the distal end opening of the catheter tube that has passed through the duodenal papilla, and the gallstone in the bile duct is grasped by the basket portion. Then, the gallstone is destroyed by operating the proximal end portion of the operation wire to strongly attract the basket portion toward the distal end opening of the catheter tube.
[0005]
In order to destroy gallstones, it is necessary to pull the proximal end of the operation wire strongly, so conventionally, for example, racks and pinion gears disclosed in Japanese Patent Application Laid-Open Nos. 63-154171 and 10-286259 are disclosed. A type of wire take-up device is used.
[0006]
[Problems to be solved by the invention]
However, in such a conventional wire take-up device, it is difficult to operate with one hand, and operability is difficult.
[0007]
The present invention has been made in view of such a situation, and can be easily operated with one hand, has excellent operability, and extremely easily crushes foreign bodies such as gallstones and stones with a relatively small force. An object of the present invention is to provide a medical pulverization catheter device and a wire drive device that can be used.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, a medical pulverization catheter device according to the present invention comprises:
A catheter tube that can be inserted into a body cavity;
An operation wire inserted into the lumen of the catheter tube so as to be axially movable;
A basket portion connected to a distal end of the manipulation wire, gripping foreign matter in the body, and moving in a first direction in which the manipulation wire is drawn into the catheter tube, thereby pulverizing the foreign matter; ,
A connector hub connected to the proximal end of the catheter tube;
A wire driving device body that is detachably attached to the connector hub, and a driving tube having a through hole through which a proximal end portion of the operation wire is inserted is movably attached in an axial direction;
A fixture attached to the proximal end of the drive tube and capable of detachably fixing the proximal end of the operating wire at a predetermined position;
A drive plate that is mounted on the outer periphery of the drive tube so as to be axially movable, and is engaged with the outer periphery of the drive tube by being inclined with respect to the axis of the drive tube;
A drive lever that is pivotably mounted with a pivot shaft located at a predetermined distance from the axis of the wire drive device main body as a fulcrum, and the drive plate is tilted by the pivot movement of the drive lever. A drive lever that is engaged with the outer periphery of the drive tube and moves the inclined plate in the first direction together with the drive tube and the operation wire;
Have
[0009]
Moreover, the wire drive device according to the present invention is
A wire driving device main body on which a driving tube having a through hole through which a proximal end portion of an operation wire used in a medical instrument is inserted is movably mounted in an axial direction;
A fixture attached to the proximal end of the drive tube and capable of detachably fixing the proximal end of the operating wire at a predetermined position;
A drive plate that is mounted on the outer periphery of the drive tube so as to be axially movable, and is engaged with the outer periphery of the drive tube by being inclined with respect to the axis of the drive tube;
A drive lever that is pivotably mounted with a pivot shaft located at a predetermined distance from the axis of the wire drive device main body as a fulcrum, and the drive plate is tilted by the pivot movement of the drive lever. A drive lever that is engaged with the outer periphery of the drive tube and moves the inclined plate together with the drive tube and the operation wire in a first direction;
Have
[0010]
It is preferable to further include a release mechanism that is movable to a position that restricts the drive tube from returning in a direction opposite to the first direction and a position that allows the drive tube to return.
[0011]
A stopper member is preferably fixed to the outer periphery of the distal end portion of the drive tube. This is for restricting unlimited axial movement of the drive tube 66. Further, it is preferable that the distal end of the spring is fixed to the stopper member, and the proximal end of the spring is a free end so that it can come into contact with a part of the release mechanism. Is preferred.
[0012]
The fixing device is not particularly limited, and is fixed to a fixing ring formed with a wire fixing through-hole through which a proximal end portion of the operation wire passes, and an outer periphery of the fixing ring. It is preferable to have a wire fixing knob for fixing the operation wire by narrowing the inner diameter of the fixing through hole by the screwing amount.
[0013]
By using the fixture configured as described above, a predetermined position of the proximal end portion of the operation wire can be very easily fixed to the proximal end portion of the drive tube. In addition, the fixing device configured as described above does not crush the end portion of the wire, and when an excessive force is applied to the drive lever, the wire and the fixing device slip and an excessive tensile force is applied to the wire. It can prevent acting. When used as a crushing force catheter, an excessive tensile force (for example, 40 kg / cm) is applied to the wire.²If the above is applied, the basket and the wire may be damaged. In the present invention, the normal tensile force acting on the wire is 20 kg / cm.²Can be controlled to a degree.
[0014]
[Action]
In the medical pulverization catheter device and the wire drive device used therefor according to the present invention, the wire drive device is grasped with one hand, and the drive lever is operated with the finger of the one hand, whereby the operation wire is distant within the catheter tube. It can be moved from the proximal end toward the proximal end (first direction). At this time, since the rotational movement of the drive lever is converted into the linear movement of the drive wire, the lever can be pulled with a relatively small force by the lever principle. In addition, since the rotation shaft, which is the rotation fulcrum, is located at a predetermined distance from the axis of the wire drive device main body, the rotation movement distance of the drive lever can be made relatively short, and operability is improved. Will improve.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described based on embodiments shown in the drawings.
1A is a cross-sectional view of a wire drive device according to an embodiment of the present invention, FIG. 1B is a cross-sectional view taken along line IB-IB shown in FIG. 1A, and FIG. FIG. 2 is a cross-sectional view showing a state after the drive lever of the wire drive device shown in FIG. 1A is rotated, FIG. 3 is a cross-sectional view of the main part of the medical pulverization catheter device, and FIG. The perspective view which shows the state which inserted the medical pulverization catheter apparatus in the endoscope, FIG. 5 is the schematic which shows the use condition of the medical pulverization catheter apparatus, FIG. 6 (A) is the wire which concerns on other embodiment of this invention. It is sectional drawing of a drive device, FIG.6 (B) is sectional drawing which follows the VIB-VIB line | wire shown to FIG. 6 (A).
[0016]
First embodiment
A wire driving device 60 according to an embodiment of the present invention shown in FIGS. 1 and 2 is detachably attached to the proximal end portion of the medical pulverizing catheter device 2 shown in FIG. The medical pulverizing catheter device 2 is inserted into the channel of the endoscope 40 so as to be axially movable as shown in FIG. 4, and is inserted into the bile duct 52 from the duodenal papilla 51 of the duodenum 50 as shown in FIG. Used.
[0017]
First, the medical pulverization catheter device 2 will be described.
As shown in FIG. 3, the medical pulverization catheter device 2 of this embodiment includes a catheter tube 4 having a lumen 5 continuous from a distal end 4a to a proximal end 4b, and the proximal end 4b of the tube 4 being a connector. A connector hub 7 connected via a tube 6 and a basket type treatment instrument 20 penetrating the lumen 5 of the catheter tube 4 are provided.
[0018]
In the connector hub 7, two connection ports 8 and 10 are formed. However, in the present invention, the specific shape of the connector hub 7 is not particularly limited, and a connector having only a single connection port is used. A connector having a connection port may be used. In general, the rigidity (hardness) of the connector hub 7 is higher than the rigidity (hardness) of the catheter tube 4. It is made of a thermoplastic resin or a metal such as stainless steel. The connector hub 7 is located on the outside of the patient, and is shaped and shaped to be easily grasped by an operator with one hand.
[0019]
The inner diameter of the catheter tube 4 is preferably 0.2 mm to 5.5 mm, and the wall thickness of the catheter tube 4 is preferably 0.05 to 0.5 mm. A short metal tube 3 such as a stainless steel tube is connected to the distal end 4 a of the catheter tube 4. The axial length of the catheter tube 4 is not particularly limited, but is generally 800 mm to 3500 mm.
[0020]
In this embodiment, the catheter tube 4 is configured by a coil tube in which a metal coil is coated with a resin. By constituting the catheter tube 4 with a coil tube, the catheter tube 4 has a certain degree of flexibility that can be inserted along a torsional body cavity, and has an axial strength that can withstand the destructive force of stones and gallstones described later. . In order to improve the insertion characteristics of the catheter tube 4, only a predetermined length range of the distal end portion of the catheter tube 4 may be configured to be particularly flexible. The means for flexibly configuring only the predetermined length range of the distal end portion of the catheter tube 4 is not particularly limited. For example, the coil winding pitch in the coil tube may be sparse on the distal end side. .
[0021]
As shown in FIG. 3, a basket-type treatment instrument 20 is inserted into the lumen 5 of the catheter tube 4 so as to be movable along the axial direction thereof. The basket-type treatment instrument 20 includes an operation wire 24 and a basket portion 22 connected to a distal end portion thereof via a coupling pipe 28.
[0022]
The basket portion 22 is composed of, for example, four crushing wires, and the tip ends of the four crushing wires are joined by a tip tip 26, and the rear end portion is a distal end of the operation wire 24 by a coupling pipe 28. It is joined to the end. As shown in FIG. 3, these crushing wires bulge out outwardly in the radial direction in a state of protruding from the end opening formed in the distal end 4a of the catheter tube 4, and are squeezed between the crushing wires. It is possible to hold a foreign object 30 such as a gallstone or a calculus in the gap. When the basket portion 22 is pulled into the catheter tube 4, the basket portion 22 is folded and elastically deformable so that the outer diameter thereof is reduced.
[0023]
The operation wire 24 may be configured by extending one pulverization wire constituting the basket portion 22 in the longitudinal direction, but may be configured by a wire completely different from these pulverization wires. The operation wire 24 transmits an operation force acting on the proximal end side thereof to the basket portion 22, and the basket portion 22 folded inside the catheter tube 4 is transferred from the opening at the distal end 4 a of the catheter tube 4 to the outside. It has a rigidity that can be sent to Further, the operation wire 24 has a tensile strength that can transmit a force for destroying the foreign matter 30 such as a gallstone or a calculus by using a force that shrinks the outer diameter of the basket portion 22.
[0024]
The crushing wire and the operation wire 24 constituting the basket portion 22 are made of a metal wire having a wire diameter of about 0.1 mm to 1.5 mm, for example. Examples of the material of the wire include nickel titanium alloy, stainless steel, gold, silver, platinum, nickel, iron, titanium, aluminum, tin, zinc, tungsten and the like, and nickel titanium alloy is preferable. This is because nickel titanium alloy is a kind of shape memory alloy, has superelastic characteristics, can prevent kink of wire when gripping gallstones, etc., and easily maintain the shape of wire open. .
[0025]
Next, the wire driving device 60 shown in FIGS. 1 and 2 will be described.
As shown in FIGS. 1 and 2, the wire drive device 60 according to the present embodiment includes a wire drive device main body 62, a fixture 64, a drive lever 74, and a connector portion 76. The apparatus main body 62 includes a main body pipe 84, a front cap 82 connected and fixed to a distal end portion of the main body pipe 84, and a rear cap 86 connected and fixed to a proximal end portion of the main body pipe 84. .
[0026]
A drive tube 66 is mounted in the main body pipe 84 so as to be movable in the axial direction. A wire through hole 68 is formed inside the drive tube 66 so that the operation wire 24 can be inserted therethrough. The drive tube 66 is held by bearings 88 and 90 fixed inside the rear cap 86, and is movable in the axial direction with respect to the bearings 88 and 90. The bearing 90 is fixed to the rear cap 86 via a spacer 92.
[0027]
On the outer periphery of the drive tube 66 located between the bearings 88 and 90, a drive plate 70 having a shape shown in FIG. A through hole 70 a having an inner diameter slightly larger than the outer diameter of the drive tube 66 is formed in the center of the drive plate 70. Further, one end of the pressing spring 94 is in contact with the driving plate 70, and the other end of the pressing spring 94 is in contact with one bearing 90, so that the driving plate 70 is always on the other bearing 88 side. It is pressed. A driving protrusion 73 of the driving lever 74 can be engaged with the wide side end portion 70 b of the driving plate 70.
[0028]
FIG. 1 shows a state in which no external force is applied to the drive lever 74. In this state, the drive plate 70 is pressed against the bearing 88 side by the action of the pressing spring 94, and the shaft of the drive tube 66 is shown. It is stationary at a position substantially perpendicular to the core. In this state, there is a slight gap on the outer periphery of the drive tube 66 with respect to the through hole of the drive plate 70, and if the release lever 110 described later is ignored, the drive tube 66 is axial with respect to the drive plate 70. It can be moved freely.
[0029]
A fixture 64 is fixed to the proximal end of the drive tube 66. The fixing member 64 includes a fixing ring hub 96 that is directly fixed to the proximal end portion of the drive tube 66, an adapter 97 that is attached to the outer periphery of the hub 96, and a fixing ring 98 that is formed at the rear end portion of the fixing ring hub 96. And a wire fixing knob 100 screwed to the outer periphery of the fixing ring 98.
[0030]
As shown in FIG. 1B, the fixing ring 98 has a wire fixing through hole 102 through which the proximal end portion of the operation wire 24 passes, and a radial direction so as to be continuous with the through hole 102. Four slits 104 are formed. By screwing the wire fixing knob 100 into the outer periphery of the fixing ring 98 by a predetermined amount, the taper surface formed on the inner peripheral surface of the knob 100 presses the outer periphery of the fixing ring 98 and narrows the inner diameter of the through hole 102. . As a result, the fixing ring 98 fixes the proximal end portion of the operation wire 24 in place, and the proximal end portion of the drive wire 24 is fixed to the fixture 64.
[0031]
A connector portion 76 attached to the distal end portion of the apparatus main body 62 is attached to a luer taper portion 78 that is connected and fixed to the front cap 82, and is rotatably attached to the outer periphery of the luer taper portion 78 in the circumferential direction. And a luer lock portion 80. As shown in FIG. 3, the tip tapered portion of the luer tapered portion 78 is inserted into the connection port 8 of the connector hub 7, and the luer lock portion 80 is detachably attached to the outer peripheral portion of the connection port 8. The proximal end portion of the operation wire 24 extending through the inside of the catheter tube 4 and the inside of the connector hub 7 passes through the inside of the luer taper portion 78 via the connection port 8, and the drive tube 66 shown in FIGS. 1 and 2. It is guided inside and fixed by the fixing tool 64 described above.
[0032]
The drive lever 74 shown in FIG. 1 and FIG. 2 has a pivot shaft 72 spanned between a pair of projecting pieces 87 formed on the outer peripheral portion of the rear cap 86 as a fulcrum in the direction of arrow A shown in FIG. It is freely rotatable. On the base end side of the drive lever 74, a drive protrusion 73 that abuts a part of the outer peripheral portion of the drive plate 70 is integrally formed. The position of the rotation shaft 72 is preferably a position away from the axis of the apparatus main body 62 (which is also the axis of the drive tube 66) by a predetermined distance L. Although it does not specifically limit as the predetermined distance L, For example, it is 10-45 mm, Preferably it is about 20-30 mm.
[0033]
As the drive lever 74 rotates in the direction of arrow A, as shown in FIG. 2, the drive protrusion 73 pushes the drive plate 70, and the drive plate 70 is inclined with respect to the axis of the drive tube 66. The inner edge of the through hole is locked to the outer periphery of the drive tube 66. When the drive lever 74 is further rotated in the arrow A direction, the drive plate 70 is moved in the arrow B direction (first direction) against the elastic force of the pressing spring 94, and at the same time, the drive tube 66 is moved in the arrow B direction. Move to.
[0034]
Since the fixture 64 attached to the proximal end portion of the drive tube 66 is fixed to the proximal end portion of the operation wire 24, the drive pipe 66 extends in the direction of arrow B with respect to the apparatus main body 62. When moved, the operation wire 24 is pulled in the arrow B direction. As a result, as shown in FIG. 3, the basket portion 22 moves in the direction B that is drawn into the catheter tube 4.
[0035]
When the force to grip the operation lever 74 is released, the drive plate 70 is pushed back to the original position by the action of the spring 94 abutting on the drive plate 70, and at the same time, the drive lever 74 is also rotated to return to the original position. At that time, the drive plate 70 is positioned substantially perpendicular to the axis of the drive tube 66 by the action of the spring 94, and the drive plate 70 is relatively movable on the outer periphery of the drive tube 66. Only returns to the original position, and the drive tube 66 does not return to the original position.
[0036]
Further, once again grasping the drive lever 74 and rotating the drive lever 74 in the direction of arrow A from the state shown in FIG. 1 to the state shown in FIG. 2, the fixture 64 is operated for the same operation as described above. The wire 24 is pulled toward the proximal end side, and the basket portion 22 shown in FIG. 3 moves in the direction B that is further drawn into the catheter tube 4.
[0037]
By repeating the above-described operation, the basket portion 22 that holds the foreign substance 30 shown in FIG. 3 moves in the direction B further drawn into the catheter tube 4, and the outer diameter of the basket portion 22 is narrowed. The foreign material 30 will be crushed.
[0038]
Note that a release lever (release mechanism) 110 is rotatably attached to the proximal end of the main body pipe 84. A through hole through which the drive tube 66 passes is formed at the base end portion of the release lever 110. The inner diameter of the through hole is slightly larger than the outer diameter of the drive tube 66, and when the base end portion is in a position substantially perpendicular to the axis of the drive tube 66, the drive tube 66 is connected to the base of the release lever 110. It will be in the state which can move to an axial direction, without being disturbed by an edge part.
[0039]
One end of the pressing spring 112 abuts on the base end portion of the release lever 110 and the other end of the spring 112 abuts on the bearing 88, so that the rotational force in the direction of arrow C always acts on the release lever 110. As a result, in a state where the release lever 110 is not operated, the base end portion of the release lever 110 is inclined with respect to the axis of the drive tube 66, that is, the axis of the apparatus main body 62, and the through hole of the base end portion of the lever 110 Is locked to the outer periphery of the drive tube 66. Therefore, as shown in FIG. 1, when the release lever 110 is not operated, the drive tube 66 is prevented from moving in the axial direction with respect to the apparatus main body 62 by the proximal end portion of the release lever 110.
[0040]
If the release lever 110 is rotated in the direction opposite to the arrow C, the base end portion of the lever 110 is substantially perpendicular to the axis of the drive tube 66, and the drive tube 66 is in the lever base end portion through-hole. Is free and can move in the axial direction. As a result, the drive tube 66 can be moved in the axial direction by pushing the fixture 64 back in the direction of the apparatus main body 62 to return to the state shown in FIG.
[0041]
As shown in FIGS. 1 and 2, a stopper member 120 is fixed to the outer periphery of the distal end portion of the drive tube 66 to restrict unlimited axial movement of the drive tube 66.
[0042]
Each member constituting the wire drive device 60 shown in FIGS. 1 and 2 is preferably made of a metal such as stainless steel, except for the bearings 88 and 90 which may be made of a synthetic resin. Since these members are subjected to a reaction force of a tensile force for pulling back the operation wire 24 and crushing the foreign matter 30 held in the basket portion 22, these members can be made of a highly rigid material. preferable.
[0043]
Next, the usage method of the medical crushing catheter apparatus 2 which concerns on this embodiment is demonstrated.
As shown in FIG. 4, the medical pulverization catheter device 2 according to this embodiment is used together with an endoscope 40. As shown in FIG. 5, the distal end of the tube body 42 of the endoscope 40 is guided from the proximal end of the endoscope to the vicinity of the duodenal papilla 51 inside the duodenum 50 according to a conventional method. The pulverized catheter device 2 is inserted into the channel of the tube body 42. The distal end portion of the medical crushing catheter device 2 is protruded laterally from the distal end opening of the tube main body 42 of the endoscope 40, passed through the nipple 51, and inserted into the bile duct 52. Since the metal short tube 3 (see FIG. 3) is attached to the distal end portion of the medical pulverization catheter device 2, the insertion position of the distal end portion of the medical pulverization catheter device 2 is determined by X-rays. Can be observed.
[0044]
Thereafter, if necessary, the contrast medium is flowed into the bile duct 52 through the catheter tube 4 from the connection port 10 shown in FIG. 3, and the inside of the bile duct 52 is observed with X-rays. Next, the basket portion 22 of the basket-type treatment instrument 20 is ejected from the distal end opening of the catheter tube 4, and a foreign object 30 such as a gallstone or calculus is grasped by the basket portion 22 and destroyed by the above-described operation.
[0045]
In the medically pulverized catheter device 2 according to this embodiment, the wire driving device 60 is grasped with one hand, and the driving lever 74 is operated with the finger of the one hand, so that the operating wire 24 is moved into the distal end within the catheter tube 4. It is possible to move from the portion toward the proximal end portion (first direction B). At this time, since the rotational movement of the drive lever 74 is converted into the linear movement of the drive wire 24, the operation wire 24 can be pulled with a relatively small force by the lever principle. Further, since the rotation shaft 72 that is the rotation fulcrum is located at a position that is a predetermined distance L away from the axis of the wire drive device main body 62, the rotation movement distance of the drive lever 74 is made relatively short. Operability is improved.
[0046]
Second embodiment
As shown in FIG. 6, the wire drive device 60 f according to the present embodiment is a modification of the wire drive device 60 shown in FIG. 1, and is a stopper member 120 fixed to the outer periphery of the distal end portion of the drive tube 66. The distal end of the spring 121 is attached to the outer periphery of the spring. Moreover, the form of the fixture 64f directly fixed to the proximal end portion of the drive tube 66 is different from the fixture 64 of the wire drive device 60 shown in FIG. Since it has the same configuration as the wire drive device 60 shown in FIG.
[0047]
In the present embodiment, the length in the longitudinal direction of the spring 121 attached to the outer periphery of the stopper member 120 is at least larger than the length in the longitudinal direction of the stopper member 120, and is usually 15 to 40 mm. The distal end of the spring 121 is fixed to the outer periphery of the stopper member 120, and the proximal end of the spring 121 is a free end on the outer periphery of the drive tube 66. Therefore, the spring 121 can be compressed by an axial external force acting on the proximal end of the spring 121.
[0048]
The method of attaching the spring 121 to the outer periphery of the stopper member 120 is not particularly limited, but usually includes the use of an adhesive, soldering, welding, and the like. The elastic modulus of the spring 121 is not particularly limited, but is usually in the range of 70 to 500 g / mm.
[0049]
In this embodiment, when the operation of gripping the drive lever 74 is repeated and the drive tube 66 is continuously moved in the direction of the arrow B from the distal end to the proximal end in the main body pipe 84, the outer circumference of the stopper member 120 at a certain point in time. The proximal end portion of the spring 121 attached to the abutment portion abuts on the proximal end portion of the release lever 110. At that time, the base end portion of the release lever is substantially perpendicular to the axis of the apparatus main body 62 and the engagement with the outer periphery of the drive tube 66 is released.
[0050]
Thereafter, when the force for grasping the operation lever 74 is released, the drive plate 70 is positioned substantially perpendicular to the axis of the drive tube 66 by the action of the spring 94. Therefore, the drive tube 66 can move in the axial direction not only with respect to the release lever 110 but also with respect to the through hole of the drive plate 70, and there is nothing that prevents the axial movement. As a result, the force of pushing the drive tube 66 back in the direction opposite to the arrow B direction is exerted by the action of the spring 121 that is compressed and deformed, and it is possible to prevent an excessive force from acting on the drive wire 24 beyond that. .
[0051]
When the drive tube 66 moves slightly in the direction opposite to the arrow B direction, the proximal end portion of the release lever 110 is inclined with respect to the axis of the drive tube 66 by the action of the spring 112, and the proximal end portion of the release lever 110 is The inner edge portion of the through hole is locked to the outer peripheral portion of the drive tube 66, and the axial movement of the drive tube 66 is suppressed.
[0052]
In the present embodiment, the fixing tool 64f fixed to the proximal end portion of the drive tube 66 includes a fixing ring hub 96f, an adapter 97f attached to the outer periphery thereof, and a fixing formed at the rear end portion of the fixing ring hub 96f. The ring 98f has a wire fixing knob 100f that is screwed to the outer peripheral portion 99 of the intermediate portion of the fixing ring hub 96f and presses the outer periphery of the fixing ring 98f.
[0053]
As shown in FIG. 6B, the fixing ring 98f is formed with a wire fixing through hole 102 through which the proximal end portion of the operation wire 24 passes. In the present embodiment, the fixing ring 98f includes the fixing ring 98f. A curved surface 105 is formed on the inner peripheral surface. By sandwiching the inner diameter of the through hole 102, the contact area between the surface of the operation wire 24 and the inner surface of the fixing ring 98f increases, and the operation wire 24 can be easily fixed.
[0054]
As shown in FIG. 6A, the adapter 97f and the wire fixing knob 100f are each provided with a flat operation portion. This is to improve the workability of screwing the wire fixing knob 100f to the fixing ring hub 96f.
[0055]
The present invention is not limited to the above-described embodiment, and can be variously modified within the scope of the present invention.
[0056]
For example, in the above embodiment, the basket-type treatment instrument to be inserted into the medical crushing catheter device 2 has a basket portion 22 composed of four crushing wires. A basket-type treatment instrument having a basket portion formed of a book or a plurality of four or more crushing wires may be used. The shape of the basket portion 22 is not limited to the illustrated example, and is not limited to a linear arrangement of wires, and may be a spiral arrangement.
[0057]
【The invention's effect】
As described above, according to the present invention, it is possible to easily operate with one hand, excellent operability, and extremely easily crush foreign bodies such as gallstones and stones with a relatively small force. It is possible to provide a medical pulverizing catheter device and a wire driving device.
[Brief description of the drawings]
1A is a cross-sectional view of a wire drive device according to an embodiment of the present invention, FIG. 1B is a cross-sectional view taken along line IB-IB shown in FIG. 1A, and FIG. FIG. 2C is a perspective view of the drive plate shown in FIG.
FIG. 2 is a cross-sectional view showing a state after a drive lever of the wire drive device shown in FIG.
FIG. 3 is a cross-sectional view of a principal part of a medical pulverization catheter device.
FIG. 4 is a perspective view showing a state where the medical pulverization catheter device is inserted into an endoscope.
FIG. 5 is a schematic view showing a use state of the medical pulverization catheter device.
6A is a cross-sectional view of a wire driving device according to another embodiment of the present invention, and FIG. 6B is a cross-sectional view taken along line VIB-VIB shown in FIG. 6A.
[Explanation of symbols]
2 ... Medical pulverization catheter device
4. Catheter tube
4a ... Distal end
4b ... Proximal end
5 ... Lumen
6 ... Connector tube
7 ... Connector hub
20 ... Basket-type treatment instrument
22 ... Basket
30 ... Foreign matter such as gallstones and stones
40 ... Endoscope
50 ... duodenum
51 ... Nipple
52 ... Bile duct
60 ... Wire drive device
62 ... Wire drive device main body
64, 64f ... Fixing tool
66 ... Drive tube
68 ... Hole for wire
70 ... Driving plate
72 ... Rotating shaft
74 ... Driving lever
76 ... Connector part
98, 98f ... fixing ring
100, 100f ... Wire fixing knob
120 ... Fixing tool
121 ... Spring

Claims (4)

A catheter tube that can be inserted into a body cavity;
An operation wire inserted into the lumen of the catheter tube so as to be axially movable;
A basket portion connected to a distal end of the manipulation wire, gripping foreign matter in the body, and moving in a first direction in which the manipulation wire is drawn into the catheter tube, thereby pulverizing the foreign matter; ,
A connector hub connected to the proximal end of the catheter tube;
A wire driving device body that is detachably attached to the connector hub, and a driving tube having a through hole through which a proximal end portion of the operation wire is inserted is movably attached in an axial direction;
A fixture attached to the proximal end of the drive tube and capable of detachably fixing the proximal end of the operating wire at a predetermined position;
A drive plate that is mounted on the outer periphery of the drive tube so as to be axially movable, and is engaged with the outer periphery of the drive tube by being inclined with respect to the axis of the drive tube;
A drive lever that is pivotably mounted with a pivot shaft located at a predetermined distance from the axis of the wire drive device main body as a fulcrum, and the drive plate is tilted by the pivot movement of the drive lever. A drive lever that is engaged with the outer periphery of the drive tube and moves the inclined plate in the first direction together with the drive tube and the operation wire;
A medical pulverizing catheter device. A wire driving device main body on which a driving tube having a through hole through which a proximal end portion of an operation wire used in a medical instrument is inserted is movably mounted in an axial direction;
A fixture attached to the proximal end of the drive tube and capable of detachably fixing the proximal end of the operating wire at a predetermined position;
A drive plate that is mounted on the outer periphery of the drive tube so as to be axially movable, and is engaged with the outer periphery of the drive tube by being inclined with respect to the axis of the drive tube;
A drive lever that is pivotably mounted with a pivot shaft located at a predetermined distance from the axis of the wire drive device main body as a fulcrum, and the drive plate is tilted by the pivot movement of the drive lever. A drive lever that is engaged with the outer periphery of the drive tube and moves the inclined plate together with the drive tube and the operation wire in a first direction;
Wire drive device having The fixture is
A fixing ring in which a wire fixing through-hole through which a proximal end portion of the operation wire passes is formed;
The wire according to claim 2, further comprising a wire fixing knob that is screw-coupled to an outer periphery of the fixing ring, narrows an inner diameter of the fixing through-hole, and fixes the operation wire with a predetermined screwing amount. Drive device. 4. The wire drive device according to claim 2, further comprising a release mechanism movable to a position that restricts the drive tube from returning in a direction opposite to the first direction and a position that allows the drive tube to return. 5.

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