JP2016101315A - Medical device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a medical device capable of preventing itself from being unusable due to a leg part of a basket plastically deformed and stretched.SOLUTION: A medical device 10A includes a handle 12, a sheath 14 extending from the handle 12, a basket 16 having a plurality of leg parts 17, a shaft 18 connecting the basket 16 and the handle 12, and a basket protection mechanism 30. The basket protection mechanism 30 prevents the relative displacement between the sheath 14 and the basket 16 from occurring accompanied by the movement of the operation part 36, by having an elastic member 44 elastically deformed when an operation part 36 is operated from a state in which the basket 16 grips pieces of a calculus 50 to a state in which the basket 16 is shrunk.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a medical device used for treatment in a living body lumen.

  Treatment such as transurethral ureteric lithotripsy is performed for urinary calculi generated in the ureter, renal pelvis, renal cup, etc. (biological lumen). In this transurethral ureteric lithotripsy, multiple stones (for example, several tens) are obtained by crushing treatment with forceps, shock waves, lasers, etc. while confirming the stone with an endoscope (ureteroscope) inserted into the urinary tract The calculus is crushed into small calculi, and a plurality of crushed calculi (calculus pieces) are collected by a medical device.

  As a medical device for collecting a calculus, for example, as disclosed in Patent Document 1, there is a device provided with a basket that can be exposed from the distal end of a sheath. This basket is composed of a plurality of wires (leg portions). The medical device is inserted into the ureter under the operation of a user such as a doctor, the basket is expanded and opened at a place where a calculus is present, and the calculus piece is taken into the inside in an expanded state. Thereafter, the user contracts the basket to grasp the calculus piece, and further retracts the basket to collect the calculus piece.

JP 2008-68102 A

  A conventional medical device applied to the above-described use includes a gripping unit, an operation unit that is movably provided on the gripping unit, a sheath that moves forward and backward in response to an operation on the operation unit, and a basket connected to the gripping unit. Is provided. When the medical device configured in this manner grips the grip portion and pushes the operation portion with the fingers (for example, thumb) in the distal direction, the sheath advances, the basket closes, and when the operation portion is pulled toward the front side, The sheath is retracted to open the basket.

  By the way, since the movement of the operation unit is based on the sense of the user (operator), when the operation unit is strongly pressed with the basket holding the calculus piece, the wire forming the basket is plastically deformed and stretched. There is a case. In this case, the basket is not closed thereafter, and the medical device cannot be used.

  The present invention has been made in view of such problems, and it is intended to provide a medical device that can prevent a situation in which the leg portion of the basket becomes unusable due to plastic deformation and extension. Objective.

  To achieve the above object, the present invention provides a handle having an operation portion, a long sheath having a portion extending from the handle and inserted into a living body lumen, and a plurality of juxtaposed in the circumferential direction. A basket that contracts within the sheath and expands with exposure from the sheath, and connects the basket and the handle, along the sheath. The elastic member is elastically deformed when the operation unit is operated in a direction in which the basket is contracted from a state in which the basket grips an object, and the elastic member is elastically deformed. And a basket protection mechanism that prevents relative displacement between the sheath and the basket accompanying movement of a portion.

  According to the medical device configured as described above, excessive stress is applied to the legs of the basket even when the operation unit is operated with a strong force in a direction in which the basket is contracted in a state where the basket is holding the target object. And the basket legs do not stretch due to plastic deformation. Therefore, it is possible to prevent a situation in which the leg portion of the basket becomes unusable due to plastic deformation and elongation. In addition, this medical device can be used without depending on the user's experience and technique regarding the operation when the object is held by the basket.

  In the above medical device, the sheath may be configured to move forward and backward with respect to the basket as the operation unit is operated, and the shaft may be coupled to the handle via the elastic member. Good.

  According to this configuration, when the operation unit is operated with a strong force in the direction in which the basket is contracted while the basket is holding the object, the elastic member of the basket protection mechanism is elastically deformed by an amount corresponding to the movement distance of the operation unit. To do. Thereby, since the basket is pushed by the sheath and moves together with the sheath, the leg portion of the basket is not plastically deformed and stretched.

  In the above-described medical device, the handle includes a hollow cylindrical gripping portion, and a slide body that is slidable with respect to the gripping portion and is connected to the sheath and provided with the operation portion, and the basket The protection mechanism may be disposed on the inner side of the grip portion on the proximal end side with respect to the slide body.

  According to this configuration, since the basket protection mechanism is efficiently arranged using the space in the handle, an increase in the size of the handle accompanying the installation of the basket protection mechanism can be suppressed.

  In the medical device described above, the handle includes a switching member that has a locking portion that can lock the basket protection mechanism, and can be switched between a first position and a second position, and the switching member includes The basket protection mechanism is allowed to operate in the state set to the first position, and the basket protection mechanism is locked by the locking portion in the state set to the second position. The activation of the protection mechanism may be prevented.

  According to this configuration, in the use of the medical device, it is possible to prevent the basket protection mechanism from being operated depending on the situation. Therefore, a flexible response according to the situation is possible.

  In the above medical device, the sheath is configured to move forward and backward with respect to the basket in accordance with an operation on the operation unit, and the elastic member forms at least a part of an extension region of the shaft. A coil spring may be used.

  According to this configuration, at least a part of the shaft extending from the basket to the handle is a coil spring. Therefore, when the operation unit is operated with a strong force in the direction in which the basket is contracted while the basket is gripping the object, the coil spring is elastically deformed and extended by an amount corresponding to the movement distance of the operation unit. Thereby, since the basket is pushed by the sheath and moves together with the sheath, the leg portion of the basket is not plastically deformed and stretched.

  In the above medical device, the sheath is configured to move forward and backward with respect to the basket in accordance with an operation on the operation unit, and the handle is slidable with respect to the holding unit and the holding unit. A slide body coupled to the sheath, and the slide body supports the operation portion so as to be slidable in the axial direction, and the operation portion is coupled to the slide body via the elastic member. Also good.

  According to this configuration, when the operation unit is operated with a strong force in a direction in which the basket is contracted while the basket is gripping the object, the coil spring is elastically deformed by an amount corresponding to the movement distance of the operation unit, and the operation unit Slides relative to the gripper. Therefore, the slide body does not move relative to the grip portion. Thereby, since the sheath connected to the slide body does not move with respect to the basket, the legs of the basket do not plastically deform and extend.

  In the medical device described above, the slide body may be formed in a hollow cylindrical shape, and the elastic member may be a coil spring disposed inside the slide body.

  According to this structure, the enlargement of the handle accompanying installation of the basket protection mechanism can be suppressed.

  According to the medical device of the present invention, it is possible to prevent a situation in which the leg portion of the basket becomes unusable due to plastic deformation and extension.

1 is a partially omitted perspective view of a medical device according to a first embodiment of the present invention. FIG. 3 is a partially omitted cross-sectional side view of the medical device shown in FIG. 1 when the basket is expanded. FIG. 2 is a partially omitted cross-sectional side view of the medical device shown in FIG. 1 when stored in a basket. FIG. 2 is a partially omitted cross-sectional side view of the medical device shown in FIG. 1 when holding a calculus piece. FIG. 2 is a partially omitted cross-sectional side view when the basket protection mechanism of the medical device shown in FIG. 1 is activated. It is a partially-omission perspective view of the medical device which concerns on 2nd Embodiment of this invention. 7A is a cross-sectional view of the medical device taken along the line VII-VII in FIG. 6, and FIG. 7B is a cross-sectional view of the medical device in a state where the switching member is set to the second position. It is a partial omission cross-sectional side view of the front-end | tip part of the medical device which concerns on 3rd Embodiment of this invention. It is a partial cross section side view of the state which the basket protection mechanism of the medical device shown in FIG. 8 act | operated. It is a partially omitted side sectional view of a medical device according to a fourth embodiment of the present invention. It is a partially omitted cross-sectional side view of the medical device shown in FIG. It is a partially omitted cross-sectional side view when the basket protection mechanism of the medical device shown in FIG. 10 is operated.

  DESCRIPTION OF EMBODIMENTS Hereinafter, a medical device according to the present invention will be described with reference to the accompanying drawings by giving some preferred embodiments.

[First Embodiment]
FIG. 1 is a partially omitted perspective view of a medical device 10A according to the first embodiment of the present invention. FIG. 2 is a partially omitted cross-sectional side view of the medical device 10A when the basket 16 is expanded. In FIGS. 1 and 2, for easy understanding, the distal end portion of the medical device 10 </ b> A is shown in an enlarged manner, and the same applies to FIGS. 3 to 5 referred later.

  The medical device 10A is configured as a medical device that collects a calculus (target object) present in the urinary system such as a ureter, renal pelvis, or renal cup that is a biological lumen. The medical device 10A can be applied not only to collect stones but also to treatment of various biological lumens. For example, the living body lumen to which the medical device 10A is applied includes a lumen of the cardiovascular system, endocrine system, lymph system, respiratory system, digestive system, or other organs in addition to the urinary system. It is done. The applicable target is the same for other embodiments described later.

  The medical device 10 </ b> A includes, as basic components, a handle 12, a long sheath 14 extending from the handle 12, an expandable basket 16 exposed from the distal end of the sheath 14, and the basket 16 and the handle 12. And a shaft 18 connecting the two.

  The handle 12 is a mechanism that is operated by the surgeon when operating the medical device 10 </ b> A and operates the basket 16. Details of the configuration of the handle 12 will be described later.

  The sheath 14 has an axial length that can reach the treatment site (location of the calculus in the ureter) from the outside of the patient, and moderate flexibility. Since the sheath 14 is inserted into the ureter through the inside of the ureteroscope (endoscope), the sheath 14 is formed with a diameter sufficiently smaller than the outer diameter of the portion inserted into the ureter of the ureteroscope.

  The basket 16 can be stored in the sheath 14, can be exposed from the distal end portion of the sheath 14, contracts in the sheath 14, and expands as the sheath 14 is exposed.

  The basket 16 has linear leg portions 17 that are arranged in a plurality (four in this embodiment) in the circumferential direction. Each leg 17 is made of an elastically deformable material. Therefore, when the basket 16 is housed in the sheath 14, the basket 16 is in a contracted state, and when exposed from the distal end of the sheath 14, each leg portion 17 is radially expanded by its own elastic restoring force to exhibit an expanded state. In the case of the present embodiment, in a state where the basket 16 is expanded, the four legs 17 spread radially at an angular interval of 90 ° in the circumferential direction when viewed from the front.

  In the case of this embodiment, four leg portions 17 are originally formed from two wires. That is, the two leg portions 17 positioned on opposite sides with respect to the axis of the sheath 14 are originally formed by bending one wire at an intermediate portion into a ring-shaped body. The basket 16 is configured by disposing the ring-shaped body by shifting the angle by 90 ° in a front view. Accordingly, the basket 16 has a cross shape when viewed from the front.

  At the tip of the basket 16, two small rings 16a and 16b are provided. One of the rings 16a is fixed to one wire and the other wire is inserted, and the other ring 16b is fixed to the other wire. One wire is inserted. Thereby, the shift | offset | difference of the coupling position of wires is prevented.

  The number of leg portions 17 constituting the basket 16 is not limited to an even number, and may be an odd number. Further, the number of the leg portions 17 constituting the basket 16 may be other than four, and therefore may be five or more, but is preferably at least three or more.

  The basket 16 needs to be capable of self-expanding by an elastic restoring force as it shifts from the state housed in the sheath 14 to the state exposed outside the sheath 14. Therefore, examples of the constituent material of the leg portion 17 (wire) include a pseudoelastic alloy (including a superelastic alloy) such as a Ni—Ti alloy, a shape memory alloy, and the like.

  As shown in FIG. 2, the shaft 18 is inserted into the sheath 14 and extends from the basket 16 to the handle 12 along the sheath 14.

  In the case of the present embodiment, the shaft 18 includes a plurality of extending wires 20 extending from the base end portions of the plurality of leg portions 17 constituting the basket 16 by a predetermined length in the base end direction, and a plurality of extending wires 20. A bundling wire 22 to be bundled and a cover tube 24 covering the plurality of drawing wires 20 and the bundling wires 22 and extending into the handle 12 are provided. The shaft 18 is connected to the handle 12 via a basket protection mechanism 30 described later.

  The binding wire 22 is spirally wound around the plurality of drawing wires 20, thereby bundling the plurality of drawing wires 20 together. The pushability of the basket 16 is ensured by the shaft 18 configured as described above.

  In addition, about the some extending | stretching wire 20 and the binding wire 22 in the handle | steering-wheel 12 shown in the lower side of FIG. 2, for convenience of illustration, it draws simply as one linear member (FIGS. The same).

  Next, the configuration of the handle 12 will be described.

  The handle 12 includes a grasping portion 32 for an operator to grasp, a slide body 34 that can slide in the axial direction with respect to the grasping portion 32, and an operation portion 36 (operator) provided on the slide body 34.

  The grip portion 32 is formed in a hollow cylindrical shape having a lumen 32 b penetrating in the axial direction, and a base end portion thereof is closed by a lid member 33. A long hole 32a extending in the axial direction is formed in the side peripheral wall of the grip portion 32 (in the illustrated example, the upper portion of the side peripheral wall). The long hole 32 a penetrates the inside and outside of the grip portion 32, receives the operation portion 36, and allows the operation portion 36 to move in the axial direction.

  The slide body 34 is slidably supported by the grip portion 32, a first kink tube 40 fixed to the tip of the slide tube 38, and fixed to the tip of the first kink tube 40. Second kink-resistant tube 42 formed. The slide cylinder 38 is formed in a hollow cylinder shape having a lumen 38a penetrating in the axial direction.

  The first kink-resistant tube 40 and the second kink-resistant tube 42 are interposed between the sheath 14 and the slide cylinder 38 to suppress bending of the sheath 14 when the sheath 14 is pushed in using the medical device 10A. It is a member. The second kink-resistant tube 42 is formed with a smaller diameter than the first kink-resistant tube 40, and the proximal end portion of the sheath 14 is fixed to the inside thereof.

  The operation portion 36 in the illustrated example is integrally formed on the upper portion of the slide cylinder 38 and protrudes upward from the grip portion 32 through the long hole 32 a of the grip portion 32. The operation unit 36 may be manufactured as a separate component from the slide cylinder 38 and joined to the slide cylinder 38 by an appropriate joining means.

  As shown in FIG. 2, in the medical device 10 </ b> A, in a state where the operation unit 36 is located on the proximal end side of the long hole 32 a of the grasping unit 32, the sheath 14 is in a position retracted from the basket 16. Presents an expanded state (open state).

  On the other hand, when the operation unit 36 is pushed from the state of FIG. 2 and the operation unit 36 is moved in the distal direction with respect to the gripping unit 32, the sheath connected to the operation unit 36 via the slide body 34 as shown in FIG. 14 also moves forward. At this time, as the sheath 14 advances with respect to the basket 16, the basket 16 is elastically deformed and contracts (closes), and is stored in the sheath 14.

  The medical device 10 </ b> A includes a basket protection mechanism 30 having an elastic member 44 on the proximal end side of the slide body 34 and inside the grip portion 32. The basket protection mechanism 30 is configured so that the elastic member 44 moves when the operation unit 36 is operated in a direction in which the basket 16 is contracted from the state in which the basket 16 grips the calculus piece 50 (see FIG. 4) (the distal direction in this embodiment). This is a mechanism that prevents the relative displacement between the sheath 14 and the basket 16 due to the movement of the operation portion 36 by elastic deformation.

  In the present embodiment, the basket protection mechanism 30 includes an elastic member 44, a distal end side fixing member 46 fixed to the distal end portion of the elastic member 44, and a proximal end side fixing member 48 fixed to the proximal end portion of the elastic member 44. And have. The illustrated elastic member 44 is a coil spring 45. The distal end side fixing member 46 is fixed to the proximal end portion of the shaft 18. The proximal side fixing member 48 is fixed to the lid member 33.

  The tensile load necessary for the coil spring 45 to be elastically deformed and extended substantially by being pulled by the shaft 18 is such that the basket 16 grips the calculus piece 50 after the basket 16 starts to contract as the sheath 14 advances. The tensile load acting on the coil spring 45 via the shaft 18 is larger than the tensile load acting on the coil spring 45 via the shaft 18 when the basket 14 further advances the sheath 14 while holding the calculus piece 50. Less than the load.

  Accordingly, in the basket protection mechanism 30, the coil spring 45 hardly extends even when pulled by the shaft 18 until the sheath 14 is advanced and the calculus piece 50 is gripped by the basket 16. On the other hand, when the operation part 36 is pushed further from the state where the basket 16 grips the calculus piece 50, the coil spring 45 is elastically deformed and stretched by being pulled by the shaft 18 through the basket 16.

Here, the maximum gripping force for gripping the calculus piece 50 is F [N], the maximum stress at which the superelasticity of the leg 17 (wire) of the basket 16 is A [MPa], and the wire diameter of the leg 17 is 2 r [μm]. ], The number of legs 17 is N [numbers] (units in parentheses). However, r is the cross-sectional radius of the wire which comprises the leg part 17. FIG. In this case, in order for the basket protection mechanism 30 to exhibit the above-described function, the following condition may be satisfied.
F> 0.999 × 10 ⁻⁶ ANπr ²

For example, when a tension spring is used as the elastic member 44, the spring constant K is 0.999 × 10 ⁻⁶ ANπr, where L [mm] is the maximum moving distance of the operation portion 36 (substantially the same as the length of the basket 16). ^It may be less than ² / L [N / mm ² ]. Usable spring constant K is, for example, 1 × 10 ⁻³ to 10, preferably 0.1 to 2. In addition, the maximum moving distance L of the operation part 36 is about 10-20 mm, for example.

  The medical device 10A according to the present embodiment is basically configured as described above, and the operation thereof will be described below.

  The medical device 10A is used, for example, for transurethral ureteric lithotripsy. In transurethral ureteric lithotripsy, the operator anesthetizes the patient and then inserts the ureteral access sheath into the ureter. Next, a ureteroscope (endoscope) is inserted into the ureter access sheath, and the stone to be collected is confirmed. Next, a laser fiber is inserted from the working channel (insertion lumen) of the ureteroscope to crush the stone. At this time, the calculus is crushed into several to several tens of calculus pieces 50, for example. In place of the laser fiber, the calculus may be crushed by another calculus crushing device (forceps, electric hydraulic shock wave lithotripter, etc.).

  Next, the laser fiber is removed from the ureteroscope, and instead, the medical device 10A is inserted into the working channel of the ureteroscope. Upon insertion into the ureteroscope, as shown in FIG. 3, the medical device 10 </ b> A previously positions the operation unit 36 on the distal end side of the long hole 32 a of the grasping unit 32 and keeps the sheath 14 in the advanced position. As a result, the basket 16 is contracted in the sheath 14. Then, the medical device 10 </ b> A enters the ureter, and the distal end portion of the medical device 10 </ b> A reaches the vicinity of the calculus piece 50.

  When the operation unit 36 is operated with a finger and moved backward in the proximal direction, the sheath 14 moves backward with respect to the basket 16 and the basket 16 expands (opens) as it is exposed from the sheath 14.

  Next, when the medical device 10A is operated and the calculus piece 50 is taken into the basket 16 through the gap between the leg portions 17 as shown in FIG. 4, the operation portion 36 is pushed in the distal direction, and the sheath 14 is moved. Advance relative to basket 16. Then, the basket 16 is forcibly contracted by the sheath 14 as the sheath 14 advances, and the basket 16 grips the calculus piece 50. In this case, depending on the size of the calculus piece 50, a plurality of calculus pieces 50 may be taken into the basket 16.

  When the basket 16 is contracted by the advancement of the sheath 14, the coil spring 45 is pulled by the shaft 18 connected to the basket 16. However, as described above, the tensile load necessary for the coil spring 45 to be elastically deformed and substantially extended is greater than the tensile load acting on the coil spring 45 through the shaft 18 until the basket 16 grips the calculus piece 50. Is also big. Therefore, the coil spring 45 does not extend until the basket 16 grips the calculus piece 50 while pushing the operating portion 36 to advance the sheath 14.

  By the way, if the basket 16 grips the calculus piece 50, it is not necessary to push the operation part 36 further. However, whether or not the basket 16 has gripped the calculus piece 50 is determined by the user operating the operation unit 36 based on his / her finger feeling. For this reason, a user who is unskilled in experience or technique may push the operation unit 36 with a stronger force while the basket 16 holds the calculus piece 50. Even in such a case, according to the medical device 10A provided with the basket protection mechanism 30, it is possible to prevent the basket 16 from being damaged.

  That is, in the case of the medical device 10A, when the operation unit 36 is further pushed in the distal direction from the state where the basket 16 holds the calculus piece 50, the coil spring 45 is pulled by the shaft 18 connected to the basket 16 as shown in FIG. As a result, the coil spring 45 is elastically deformed and extended. Therefore, the basket 16 is pushed by the sheath 14 and advances together with the sheath 14. Therefore, excessive stress exceeding the elastic limit is not applied to the leg portion 17 of the basket 16, and the leg portion 17 of the basket 16 can be prevented from extending due to plastic deformation.

  After the calculus piece 50 is gripped by the basket 16 in this manner, the medical device 10A is then pulled out from the ureter access sheath together with the ureteroscope while the calculus piece 50 is gripped by the basket 16.

  As described above, according to the medical device 10A according to the present embodiment, when the operation unit 36 is operated with a strong force in the direction in which the basket 16 contracts while the basket 16 grips the target object (calculus piece 50). However, excessive stress is not applied to the leg portion 17 of the basket 16, and the leg portion 17 of the basket 16 does not stretch due to plastic deformation. Therefore, it is possible to prevent a situation in which the leg portion 17 of the basket 16 becomes unusable due to plastic deformation and elongation.

  Further, the medical device 10A can be used without depending on the user's experience and technique regarding the operation when the calculus piece 50 is gripped by the basket 16.

  In the present embodiment, the shaft 18 is connected to the handle 12 via an elastic member 44. According to this configuration, when the operation unit 36 is operated with a strong force in the direction in which the basket 16 is contracted while the basket 16 is holding the calculus piece 50, the basket protection mechanism 30 corresponds to the movement distance of the operation unit 36. The elastic member 44 is elastically deformed. Thereby, since the basket 16 is pushed by the sheath 14 and moves together with the sheath 14, the leg portion 17 of the basket 16 is not plastically deformed and stretched.

  In the case of the present embodiment, the basket protection mechanism 30 is disposed on the inner side of the grip portion 32 on the proximal end side with respect to the slide body 34. According to this configuration, since the basket protection mechanism 30 is efficiently arranged using the space in the handle 12, an increase in the size of the handle 12 associated with the installation of the basket protection mechanism 30 can be suppressed.

  In the present embodiment, the coil spring 45 is arranged so that a tensile load is applied to the coil spring 45 when the operation unit 36 is operated in a direction in which the basket 16 is contracted. The coil spring 45 may be arranged so that a compressive load is applied to the coil spring 45 when the operation unit 36 is operated in a direction in which 16 is contracted. In the case of such a modification, the coil spring 45 is configured as a compression spring and is elastic when the operation unit 36 is operated with a strong force in a direction in which the basket 16 contracts while the basket 16 grips the calculus piece 50. By deforming and contracting in the axial direction, the legs 17 of the basket 16 can be prevented from being plastically deformed and extended. Further, the basket 16 may be contracted by sliding the operation portion 36 toward the base end side. Also in the case of this modification, the coil spring 45 is configured as a compression spring, and when the operation unit 36 is operated with a strong force in the direction in which the basket 16 contracts while the basket 16 grips the calculus piece 50, the above-described case. The same actions and effects as in the example can be obtained.

[Second Embodiment]
FIG. 6 is a partially omitted perspective view of a medical device 10B according to the second embodiment of the present invention. In FIG. 6, for easy understanding, the distal end portion of the medical device 10B is shown enlarged. In this medical device 10B, the same or similar elements as those of the medical device 10A described above are denoted by the same reference numerals, and redundant description is omitted.

  This medical device 10B is different from the above-described medical device 10A mainly in that it includes a switching member 52 that switches whether the operation of the basket protection mechanism 30 is permitted.

  The switching member 52 includes a finger contact portion 54 that is exposed to the outside of the grip portion 32 and touches a finger, and a locking portion 56 that extends from the finger contact portion 54 into the grip portion 32.

  The switching member 52 has a first position where the operation of the basket protection mechanism 30 is allowed (FIG. 7A) and a second position where the operation of the basket protection mechanism 30 is blocked by locking the basket protection mechanism 30 by the locking portion 56. (FIG. 7B).

  In the case of the present embodiment, since the operation direction of the switching member 52 is the left-right direction of the medical device 10B, a bidirectional arrow 55 is provided on the upper surface of the finger holder 54 along the left-right direction.

  FIG. 7A is a cross-sectional view taken along the line VII-VII in FIG. 6, and particularly shows a state in which the switching member 52 is set to the first position that allows the operation of the basket protection mechanism 30. FIG. 7B is a diagram showing a state where the switching member 52 is set to the second position where the operation of the basket protection mechanism 30 is prevented.

  The switching member 52 is inserted into a slit 32 c formed in the grip portion 32. The slit 32 c in the illustrated example is a hole that penetrates the inside and outside of the grip portion 32, and is formed longer in the left-right direction than the width of the locking portion 56. Thereby, the switching member 52 can be displaced in the left-right direction of the holding part 32 within the range regulated by the slit 32c.

  The engaging portion 56 is formed with an insertion hole 57 penetrating in the axial direction so that the distal end side fixing member 46 and the elastic member 44 (coil spring 45) can be inserted. The insertion hole 57 in the illustrated example is a notch-shaped hole, but may instead be a hole whose entire circumference is surrounded by a wall. The locking portion 56 is disposed in front of the basket protection mechanism 30 (the distal end side fixing member 46) that has not been actuated.

  As shown in FIG. 7A, when the switching member 52 is set to the first position, the locking portion 56 and the distal end side fixing member 46 do not overlap each other when viewed from the axial direction. Accordingly, when the operation unit 36 is operated with a strong force in the direction in which the basket 16 is contracted while the basket 16 holds the calculus piece 50, the distal end side fixing member 46 and the elastic member 44 that are pulled in the distal direction by the shaft 18 are: It can pass through the insertion hole 57. Thereby, like FIG. 5, the elastic member 44 can be elastically deformed and extended. That is, the operation of the basket protection mechanism 30 is allowed.

  On the other hand, as shown in FIG. 7B, when the switching member 52 is set to the second position, a part of the locking portion 56 and the distal end side fixing member 46 overlap each other when viewed from the axial direction. Therefore, even when the operation unit 36 is operated with a strong force in the direction in which the basket 16 is contracted while the basket 16 is holding the calculus piece 50, even if the distal end side fixing member 46 is pulled in the distal direction by the shaft 18, The fixing member 46 is caught by the engaging portion 56 and cannot move in the distal direction. That is, the operation of the basket protection mechanism 30 is blocked.

  Thus, since the switching member 52 is provided in the medical device 10B, it is possible to prevent the basket protection mechanism 30 from being operated depending on the situation when the medical device 10B is used. Therefore, a flexible response according to the situation is possible.

  Specifically, as an example in which it is effective not to operate the basket protection mechanism 30, there is a case where it is desired to approach a complicated kidney cup in preparation to permanently set the basket 16. Further, when the calculus piece 50 grasped by the basket 16 is too large to be taken out of the body and cannot be released inside the body, the basket protection mechanism 30 is not operated under the action of the switching member 52. Thus, the leg piece 17 of the basket 16 can be intentionally cut by firmly holding the calculus piece 50.

  Note that the moving direction at the time of switching of the switching member 52 is not limited to the left-right direction, and may be the front-rear direction or the vertical direction. Alternatively, the moving direction at the time of switching of the switching member 52 may be the rotation direction. In this case, the switching member 52 may be rotatable around an axis line along the axial direction of the grip portion 32.

[Third Embodiment]
FIG. 8 is a partially omitted cross-sectional side view of the distal end portion of the medical device 10C according to the third embodiment of the present invention. In this medical device 10C, the same or similar elements as those of the medical device 10A described above are denoted by the same reference numerals, and redundant description is omitted.

  This medical device 10C is different from the above-described medical device 10A mainly in that a basket protection mechanism 60 is provided as at least a part of the shaft 18a. Although not shown, the medical device 10C includes a handle 12 having a grip portion 32, a slide body 34, and an operation portion 36 on the proximal end side, like the medical device 10A described above. However, in the medical device 10C, the basket protection mechanism 30 is not provided in the handle 12, and the shaft 18a is fixed to the grip portion 32 (lid member 33) at the base end portion.

  In the medical device 10 </ b> C, the shaft 18 a has a plurality of extending wires 66 extending in the proximal direction from the proximal end portion of the basket 16 and extending along the sheath 14 in the sheath 14. The plurality of drawing wires 66 have elastic members 62 (coil springs 63 in the illustrated example) over a predetermined length along the sheath 14. In addition, the coil spring 63 may comprise the full length of the shaft 18a, and may comprise a part of extension area | region of the shaft 18a.

  The pulling load necessary for the coil spring 63 to elastically deform and extend substantially by being pulled by the basket 16 is such that the basket 16 grips the calculus piece 50 after the basket 16 starts to contract as the sheath 14 advances. The tension load acting on the coil spring 63 is larger than the tension load acting on the coil spring 63 and the basket 16 is smaller than the tension load acting on the coil spring 63 when the sheath 14 is further advanced with the calculus piece 50 held.

  Therefore, in the basket protection mechanism 60, the coil spring 63 hardly extends even when pulled by the basket 16 until the sheath 14 is advanced and the calculus piece 50 is gripped by the basket 16, but the basket 16 pulls the calculus piece 50. When the operation unit 36 is further pushed in from the gripped state, it is elastically deformed and stretched by being pulled by the basket 16.

  Next, the operation of the medical device 10C configured as described above will be described.

  In order to collect the calculus piece 50 by the medical device 10 </ b> C, the calculus piece 50 is taken into the basket 16 in a living body, and then the operation unit 36 is pushed in the distal direction with a finger to advance the sheath 14 relative to the basket 16. Then, the basket 16 is contracted as the sheath 14 advances, and the basket 16 grips the calculus piece 50.

  When the basket 16 is contracted by the advancement of the sheath 14, the coil spring 63 is pulled by a tensile load applied to the shaft 18 a connected to the basket 16. However, the tensile load necessary for the coil spring 63 to be substantially elastically deformed and extended is that the shaft 18a from when the basket 16 starts to contract as the sheath 14 advances until the basket 16 grips the calculus piece 50. It is larger than the tensile load acting on (coil spring 63). Therefore, the coil spring 63 does not extend until the basket 16 grips the calculus piece 50 while pushing the operating portion 36 to advance the sheath 14.

  In the case of the medical device 10C, when the operation unit 36 is further pushed in the distal direction from the state where the basket 16 holds the calculus piece 50, the coil spring 63 is pulled by the basket 16 as shown in FIG. Deforms and stretches. Therefore, the basket 16 is pushed by the sheath 14 and advances together with the sheath 14. Therefore, excessive stress exceeding the elastic limit is not applied to the leg portion 17 of the basket 16, and the leg portion 17 of the basket 16 can be prevented from extending due to plastic deformation.

[Fourth Embodiment]
FIG. 10 is a partially omitted cross-sectional side view of a medical device 10D according to a fourth embodiment of the present invention. In this medical device 10D, the same or similar elements as those in the medical device 10A described above are denoted by the same reference numerals, and redundant description is omitted.

  This medical device 10D is different from the above-described medical device 10A mainly in that the basket protection mechanism 70 is disposed inside the slide body 34. Specifically, in the medical device 10D, the slide cylinder 72 supports the operation unit 74 so as to be slidable in the axial direction, and the operation unit 74 is slid through an elastic member 76 (coil spring 77 in the illustrated example). It is connected to the cylinder 72.

  A long hole 72 a that communicates with the long hole 32 a of the grip portion 32 and penetrates the inside and outside of the slide cylinder 72 is formed in the side peripheral wall (upper part in the illustrated example) of the slide cylinder 72. The operating portion 74 is exposed to the outside of the grip portion 32 through the long hole 32 a of the grip portion 32 and the long hole 32 a of the slide cylinder 72.

  The operation unit 74 includes a slider unit 80 disposed in the inner cavity of the slide cylinder 72, and an operation unit 82 that extends outward from the slider unit 80 and is exposed to the outside of the grip unit 32. A through hole 81 is formed in the slider portion 80 in the axial direction.

  The coil spring 77 is disposed inside the slide cylinder 72. The distal end portion of the coil spring 77 is fixed to the proximal end portion of the slider portion 80. The base end portion of the coil spring 77 is fixed to a spring fixing member 86 fixed to the base end portion of the slide cylinder 72. An axial through hole 89 is formed in the spring fixing member 86.

  The tensile load necessary for the coil spring 77 to be elastically deformed and stretched substantially by being pulled by the operating portion 74 is such that the basket 16 starts to contract as the sheath 14 advances, and the basket 16 causes the calculus piece 50 to move. It is larger than the tensile load that acts on the coil spring 77 before gripping, and smaller than the tensile load that acts on the coil spring 77 when the basket 16 grips the calculus piece 50 and further pushes the operating portion 74 in the distal direction.

  Accordingly, in the basket protection mechanism 70, the coil spring 77 hardly extends even when pulled by the operation portion 74 until the sheath 14 is advanced and the calculus piece 50 is gripped by the basket 16, but the basket 16 is not extended. When the operation unit 74 is further pushed in from the state of gripping, the elastic member is elastically deformed and stretched by being pulled by the operation unit 74.

  The shaft 18 is inserted into the slide cylinder 72, the slider portion 80, the coil spring 77, and the spring fixing member 86 in the handle 12a. A base end portion of the shaft 18 is fixed to a shaft fixing member 88 fixed to the lid member 33. Accordingly, the shaft 18 is fixed to the grip portion 32 via the lid member 33 and the shaft fixing member 88.

  Next, the operation of the medical device 10D configured as described above will be described.

  In order to collect the calculus piece 50 by the medical device 10D, as shown in FIG. 11, after the calculus piece 50 is taken into the basket 16 in a living body, the operation portion 74 is pushed in the distal direction with a finger to move the sheath 14 to the basket 16 Move forward against. At this time, since the operating portion 74 and the slide body 34 are connected via the coil spring 77 and the slide body 34 and the sheath 14 are connected, the sheath 14 is moved along with the movement of the operating portion 74 in the distal direction. Advance. Then, the basket 16 is contracted as the sheath 14 advances, and the basket 16 grips the calculus piece 50.

  When the operation unit 74 is pushed in the distal direction, the coil spring 77 connected to the operation unit 74 is pulled. However, the tensile load necessary for the coil spring 77 to be substantially elastically deformed and extended is that the coil spring 77 from when the basket 16 starts to contract as the sheath 14 advances until the basket 16 grips the calculus piece 50. It is larger than the tensile load acting on the. Therefore, while pushing the operation portion 74 to advance the sheath 14, the coil spring 77 does not extend until the basket 16 grasps the calculus piece 50, and the slide body 34 including the slide cylinder 72 moves together with the operation portion 74 with respect to the grasping portion 32. And move forward.

  In the case of the medical device 10D, when the operation portion 74 is further pushed in the distal direction from the state where the basket 16 holds the calculus piece 50, the operation portion 74 is pulled by the coil spring 77 by the operation portion 74 as shown in FIG. The coil spring 77 is elastically deformed and extended by an amount corresponding to the moving distance of. At this time, the slide body 34 including the slide cylinder 72 does not advance relative to the grip portion 32, and the sheath 14 coupled to the slide body 34 does not advance relative to the basket 16. Therefore, excessive stress exceeding the elastic limit is not applied to the leg portion 17 of the basket 16, and the leg portion 17 of the basket 16 can be prevented from extending due to plastic deformation.

  In the case of the present embodiment, the elastic member 76 is a coil spring 77 disposed on the inner side of the slide body 34, so that the handle 12 a can be prevented from being enlarged due to the installation of the basket protection mechanism 70.

  In the present embodiment, the coil spring 77 is arranged so that a tensile load is applied to the coil spring 77 when the operation unit 74 is operated in the direction in which the basket 16 is contracted. The coil spring 77 may be arranged so that a compressive load is applied to the coil spring 77 when the operation unit 74 is operated in a direction in which 16 is contracted. In the case of such a modification, the coil spring 77 is configured as a compression spring and is elastic when the operation unit 74 is operated with a strong force in a direction in which the basket 16 contracts while the basket 16 grips the calculus piece 50. By deforming and contracting in the axial direction, the legs 17 of the basket 16 can be prevented from being plastically deformed and extended. Moreover, you may comprise so that the basket 16 may be shrunk by operating the operation part 74 to a base end side. Also in the case of this modified example, the coil spring 77 is configured as a compression spring, and when the operation unit 74 is operated with a strong force in the direction in which the basket 16 contracts while the basket 16 grips the calculus piece 50, the above described. The same actions and effects as in the example can be obtained.

  In the above description, the present invention has been described with reference to preferred embodiments. However, the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the scope of the present invention. Yes.

10A to 10D ... Medical device 12, 12a ... Handle 14 ... Sheath 16 ... Basket 30, 60, 70 ... Basket protection mechanism 32 ... Gripping part 34 ... Slide body 36, 74 ... Operation part 44, 62, 76 ... Elastic member 45 63, 77 ... Coil spring 52 ... Switching member

Claims (7)

A handle having an operation part;
An elongate sheath having a portion extending from the handle and inserted into a biological lumen;
A basket having a plurality of legs arranged side by side in the circumferential direction, contracting within the sheath in response to an operation on the operation unit, and expanding with exposure from the sheath;
A shaft connecting the basket and the handle and extending along the sheath;
The sheath has an elastic member, and the elastic member is elastically deformed when the operation unit is operated in a direction in which the basket is contracted from a state where the basket grips an object, whereby the sheath accompanying the movement of the operation unit And a basket protection mechanism for preventing relative displacement between the basket and the basket,
A medical device characterized by that. The medical device according to claim 1.
The sheath is configured to move forward and backward with respect to the basket in accordance with an operation on the operation portion.
The shaft is connected to the handle via the elastic member,
A medical device characterized by that. The medical device according to claim 2, wherein
The handle has a hollow cylindrical gripping portion, and a slide body that is slidable with respect to the gripping portion and is connected to the sheath and provided with the operation portion,
The basket protection mechanism is disposed on the inner side of the grip portion on the proximal end side than the slide body,
A medical device characterized by that. The medical device according to claim 2 or 3,
The handle has a switching member that has a locking portion that can lock the basket protection mechanism and can be switched between a first position and a second position;
The switching member permits the operation of the basket protection mechanism in the state set to the first position, and engages the basket protection mechanism by the locking portion in the state set to the second position. Stopping the operation of the basket protection mechanism by stopping,
A medical device characterized by that. The medical device according to claim 1.
The sheath is configured to move forward and backward with respect to the basket in accordance with an operation on the operation portion.
The elastic member is a coil spring that constitutes at least a part of the extending region of the shaft.
A medical device characterized by that. The medical device according to claim 1.
The sheath is configured to move forward and backward with respect to the basket in accordance with an operation on the operation portion.
The handle has a grip portion and a slide body that is slidable with respect to the grip portion and is connected to the sheath,
The slide body supports the operation unit to be slidable in the axial direction,
The operation unit is connected to the slide body via the elastic member.
A medical device characterized by that. The medical device according to claim 6, wherein
The slide body is formed in a hollow cylindrical shape,
The elastic member is a coil spring disposed inside the slide body.
A medical device characterized by that.

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