JP2019130084A - catheter - Google Patents

Abstract

To provide a catheter capable of bending a local region on a tip of a catheter in a steep manner.SOLUTION: A catheter 300 comprises: a long catheter body 310; a first operation wire 341 and a second operation wire 342 inserted into the catheter body 310 along an axial direction of the catheter body 310. The first and second operation wires 341, 342 are arranged on positions facing each other in a circumferential direction of the catheter body 310, a tip 341a of the first operation wire 341 is fixed to a tip 311 of the catheter body 310 on a first fixing part 3711, a tip 342a of the second operation wire 342 is fixed to the tip 311 of the catheter body 310 on a second fixing part 3721 closer to the base end side than to the first fixing part 3711 on an axial direction of the catheter body 310.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a catheter.

  As a catheter capable of bending the distal end, a catheter having an operation line is known (for example, Patent Document 1).

  In the catheter of Patent Document 1, a plurality of hollow tubes are arranged around a central lumen, and operation lines are respectively inserted into two hollow tubes facing each other through the central lumen. . In the catheter of this document, the distal end of the operation line is fixed to the distal end portion of the catheter. The catheter of the same document is configured to be capable of pulling the rear end of the operation line. Thereby, the distal end portion of the catheter can be bent by selecting and pulling the operation line.

JP 2013-48711 A

  However, the catheter of Patent Document 1 still has room for improvement from the viewpoint of sharply bending the local region of the tip.

  The present invention has been made in view of the above problems, and provides a catheter having a structure capable of sharply bending a local region of the distal end portion of the catheter.

The present invention includes an elongated catheter body,
A first operation line and a second operation line respectively inserted through the catheter body along the axial direction of the catheter body;
With
The first operation line and the second operation line are arranged at positions facing each other in the circumferential direction of the catheter body,
The distal end portion of the first operation line is fixed to the distal end portion of the catheter body at the first fixing portion,
A catheter in which a distal end portion of the second operation line is fixed to the distal end portion of the catheter main body at a second fixing portion that is located on a proximal end side with respect to the first fixing portion in the axial direction of the catheter main body. Is to provide.

  According to the present invention, it is possible to sharply bend a local region of the distal end portion of the catheter body.

It is a longitudinal cross-sectional view which shows the part by the side of the front end in the catheter main body of the catheter which concerns on 1st Embodiment. It is a cross-sectional view of the catheter main body along the AA line of FIG. It is a cross-sectional view of the catheter main body along the BB line of FIG. It is a cross-sectional view of the catheter main body along the CC line of FIG. It is a side view which shows the bending operation part of the catheter which concerns on 1st Embodiment, and the part of the vicinity. It is a top view which shows the bending operation part of the catheter which concerns on 1st Embodiment, and the part of the vicinity. 7 (a), 7 (b), 7 (c) and 7 (d) are schematic views for explaining the bending operation of the distal end portion of the catheter body of the catheter according to the first embodiment. is there. FIGS. 8A, 8B, 8C, and 8D are schematic diagrams for explaining the bending operation of the distal end portion of the catheter body of the catheter according to the first embodiment. is there. It is a cross-sectional view of the catheter body of the catheter according to the second embodiment. It is a longitudinal cross-sectional view which shows the part by the side of the front end in the catheter main body of the catheter which concerns on 3rd Embodiment. It is a cross-sectional view of the catheter main body along the AA line of FIG. It is a cross-sectional view of the catheter main body along the BB line of FIG. It is a cross-sectional view of the catheter main body along the CC line of FIG. It is a top view which shows the bending operation part of the catheter which concerns on 3rd Embodiment, and the part of the vicinity. It is a side view which shows the bending operation part of the catheter which concerns on 3rd Embodiment, and the part of the vicinity. Each of FIG. 16A, FIG. 16B, and FIG. 16C is a cross-sectional view of the catheter body of the catheter according to the fourth embodiment.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In all the drawings, the same components are denoted by the same reference numerals, and description thereof will be omitted as appropriate.
The various components of the catheter according to the present embodiment do not have to be independent of each other, a plurality of components are formed as one member, and one component is formed of a plurality of members. That a certain component is a part of another component, a part of a certain component overlaps a part of another component, and the like.

The terms used in describing the embodiments of the present invention are defined as follows unless otherwise specified.
In the description of the embodiments, the terms distal end and proximal end may be used. The tip portion refers to a predetermined length region including an end (distal end) on the insertion tip side of the catheter in each portion of the catheter. Further, the proximal end portion refers to a predetermined length region including the proximal end (proximal end) of the catheter in each portion of the catheter.
Moreover, an axial center means the central axis along the longitudinal direction of a catheter main body.
The longitudinal section of the catheter refers to a section obtained by cutting the catheter along the axis.
The cross section of a catheter means the cross section which cut | disconnected the catheter by the plane orthogonal to an axial center.

[First Embodiment]
First, the first embodiment will be described with reference to FIGS. 1 to 8D.
1 is a cross-sectional view taken along the line AA in FIG.
In FIG. 5, the housing 386 of the bending operation portion 380 is partially broken to show the internal structure of the housing 386.

As shown in FIG. 1, a catheter 300 according to this embodiment includes a long catheter main body 310 and first operation lines 341 and second penetrating through the catheter main body 310 along the axial direction of the catheter main body 310, respectively. An operation line 342.
The first operation line 341 and the second operation line 342 are arranged at positions facing each other in the circumferential direction of the catheter body 310. The distal end portion 341 a of the first operation line 341 is fixed to the distal end portion 311 of the catheter body 310 at the first fixing portion 3711. The distal end portion 342 a of the second operation line 342 is fixed to the distal end portion 311 of the catheter main body 310 at a second fixing portion 3721 located on the proximal side of the first fixing portion 3711 in the axial direction of the catheter main body 310. Yes.

  According to the present embodiment, by pulling both the first operation line 341 and the second operation line 342, the local region of the distal end portion 311 of the catheter main body 310 can be sharply bent. That is, the portion of the catheter body 310 between the first fixing portion 3711 and the second fixing portion 3721 can be bent locally and steeply.

In the case of this embodiment, the catheter 300 includes a third operation line 343 and a fourth operation line 344 that are inserted through the catheter body 310 along the axial direction of the catheter body 310. In the circumferential direction of the catheter body 310, the third operation line 343, the first operation line 341, and the fourth operation line 344 are arranged at positions facing each other. Further, in the circumferential direction of the catheter main body 310, the fourth operation line 344 and the second operation line 342 are disposed at positions facing each other. The distal end portion 343 a of the third operation line 343 is fixed to the distal end portion 311 of the catheter main body 310 at the third fixing portion 3712. The distal end portion 344 a of the fourth operation line 344 is fixed to the distal end portion 311 of the catheter main body 310 at a fourth fixing portion 3722 that is located on the proximal side of the third fixing portion 3712 in the axial direction of the catheter main body 310. Yes.
Thus, by pulling both the third operation line 343 and the fourth operation line 344, the local region of the distal end portion 311 of the catheter body 310 can be sharply bent. That is, the portion of the catheter body 310 between the third fixing portion 3712 and the fourth fixing portion 3722 can be bent locally and steeply.
The direction in which the distal end portion 311 of the catheter body 310 is bent by pulling both the third operation line 343 and the fourth operation line 344 pulls both the first operation line 341 and the second operation line 342. By doing so, the direction in which the distal end portion 311 of the catheter body 310 is bent is different.

In the case of this embodiment, for example, as shown in FIG. 2, the first operation line 341 and the second operation line 342 are 180 degrees with respect to each other in the circumferential direction of the catheter body 310 with respect to the axial center of the catheter body 310. Opposite. Further, the third operation line 343 and the fourth operation line 344 are opposed to each other by 180 degrees in the circumferential direction of the catheter body 310 with respect to the axial center of the catheter body 310. Further, the third operation line 343 and the first operation line 341 are opposed to each other by 180 degrees in the circumferential direction of the catheter body 310 with respect to the axial center of the catheter body 310. Further, the fourth operation line 344 and the second operation line 342 are opposed to each other by 180 degrees in the circumferential direction of the catheter body 310 with reference to the axial center of the catheter body 310.
In the case of the present embodiment, the direction in which the distal end portion 311 of the catheter body 310 is bent by pulling both the third operation line 343 and the fourth operation line 344 is the first operation line 341, the second operation line 342, and the like. The directions in which the distal end portion 311 of the catheter main body 310 is bent by pulling both are opposite to each other.

However, the fact that the first operation line 341 and the second operation line 342 are arranged at positions facing each other in the circumferential direction of the catheter body 310 is not limited to this example, and the first operation line 341 and the second operation line are not limited to this example. 342 are separated from each other by 120 degrees or more in the circumferential direction of the catheter body 310.
Similarly, the third operation line 343, the first operation line 341, and the fourth operation line 344 are arranged at positions facing each other in the circumferential direction of the catheter body 310, not limited to this example. This means that the operation line 343, the first operation line 341, and the fourth operation line 344 are separated from each other by 120 degrees or more in the circumferential direction of the catheter body 310.
Similarly, the fact that the fourth operation line 344 and the second operation line 342 are arranged at positions facing each other in the circumferential direction of the catheter body 310 is not limited to this example, and the fourth operation line 344 and the second operation line are arranged. It means that the line 342 is separated by 120 degrees or more from each other in the circumferential direction of the catheter body 310.

As shown in FIGS. 1 to 4, the catheter body 310 includes a resin tube 320 having a lumen 321 as a lumen.
In the case of this embodiment, the resin tube 320 includes a hollow tube-shaped inner layer 322 having a lumen 321 as a lumen, and a hollow tube-shaped outer layer formed coaxially with the inner layer 322 on the outer periphery of the inner layer 322. 323 is included. The inner layer 322 and the outer layer 323 are each made of a resin material. The inner peripheral surface of the outer layer 323 is bonded to the outer peripheral surface of the inner layer 322.
The resin material constituting the inner layer 322 and the resin material constituting the outer layer 323 may be different from each other or may be equal to each other.
A hydrophilic coat may be formed on the outer surface layer of the catheter body 310 as necessary.
The lumen 321 is continuously formed from the distal end to the proximal end of the catheter body 310, and opens at the distal end and the proximal end of the catheter body 310, respectively.

The catheter body 310 further includes a first hollow tube 331, a second hollow tube 332, a third hollow tube 333, and a fourth hollow tube 334 that are embedded in the resin tube 320, respectively.
A first operation line 341 is inserted through the first hollow tube 331, a second operation line 342 is inserted through the second hollow tube 332, and a third operation line is inserted through the third hollow tube 333. 343 is inserted, and the fourth operation line 344 is inserted in the fourth hollow tube 334.
Each of the first hollow tube 331, the second hollow tube 332, the third hollow tube 333, and the fourth hollow tube 334 is a sublumen tube, and the lumens of these sublumen tubes are sublumen. That is, each operation line (the first operation line 341, the second operation line 342, the third operation line 343, and the fourth operation line 344) is inserted into the sub-lumen.
The inner diameters of the first hollow tube 331, the second hollow tube 332, the third hollow tube 333 and the fourth hollow tube 334 are smaller than the inner diameter of the lumen 321.
The first operation line 341, the second operation line 342, the third operation line 343, and the fourth operation line 344 are each configured by a thin line such as metal or resin.

  The distal end portion 341 a of the first operation line 341 protrudes from the distal end of the first hollow tube 331. Similarly, the tip end portion 342 a of the second operation line 342 protrudes from the tip end of the second hollow tube 332. Similarly, the tip 343 a of the third operation line 343 protrudes from the tip of the third hollow tube 333. Similarly, the tip end portion 344 a of the fourth operation line 344 protrudes from the tip end of the fourth hollow tube 334.

In the case of the present embodiment, the first operation line 341 and the first hollow tube 331 are radially outward of the catheter body 310 (distant from the axis of the catheter body 310) than the fourth operation line 344 and the fourth hollow tube 334. Position). The fourth operation line 344 and the fourth hollow tube 334, and the first operation line 341 and the first hollow tube 331 are arranged side by side in the radial direction of the catheter body 310.
Further, the third operation line 343 and the third hollow tube 333 are disposed radially outward of the catheter body 310 with respect to the second operation line 342 and the second hollow tube 332. The second operation line 342 and the second hollow tube 332, and the third operation line 343 and the third hollow tube 333 are arranged side by side in the radial direction of the catheter main body 310.

The catheter main body 310 includes, for example, a blade layer 351 embedded in the resin tube 320. As a result, the catheter body 310 is reinforced by the blade layer 351. The blade layer 351 is configured by braiding a plurality of wires. The blade layer 351 is disposed, for example, around the inner layer 322.
Note that the first hollow tube 331, the second hollow tube 332, the third hollow tube 333, and the fourth hollow tube 334 are, for example, radially outward of the catheter body 310 from the blade layer 351 (the catheter body 310). (Position far from the axis of

  The catheter body 310 further includes a winding wire 352 embedded in the resin tube 320. The winding wire 352 is wound more radially outward of the catheter body 310 than the blade layer 351, the first hollow tube 331, the second hollow tube 332, the third hollow tube 333, and the fourth hollow tube 334. Has been.

A ring-shaped first marker member 371 (first embedded member) made of a radiopaque metal material is embedded in the distal end portion 311 of the catheter main body 310.
The first marker member 371 is disposed coaxially with the lumen 321 and around the lumen 321.
For example, the first marker member 371 is disposed around the blade layer 351.

Furthermore, in the catheter main body 310, a ring-shaped second marker member 372 (first shape) made of a radiopaque metallic material is provided at a position proximal to the portion where the first marker member 371 is embedded. 2 embedded members) are embedded.
The second marker member 372 is disposed coaxially with the lumen 321 and around the lumen 321.
For example, the second marker member 372 is disposed around the blade layer 351.

  For example, the first marker member 371 and the second marker member 372 have the same inner diameter. For example, the outer diameter of the first marker member 371 is larger than the outer diameter of the second marker member 372.

The distal end portion 341a of the first operation line 341 is fixed to the first marker member 371 by a first fixing portion 3711 that is, for example, spot-like solder.
The distal end portion 342a of the second operation line 342 is fixed to the second marker member 372 by, for example, a second fixing portion 3721 that is spot-like solder.
The distal end portion 343a of the third operation line 343 is fixed to the first marker member 371 by a third fixing portion 3712 that is, for example, spot-like solder.
The tip end portion 344a of the fourth operation line 344 is fixed to the second marker member 372 by, for example, a fourth fixing portion 3722 that is spot-like solder.

  As described above, the catheter 300 includes the first embedded member (first marker member 371) and the second embedded member (second marker member 372) embedded in the catheter main body 310, and the second embedded member is a catheter. In the axial direction of the main body 310, it is disposed on the proximal end side with respect to the first embedded member, and the distal end portion 341 a of the first operation line 341 is indirectly fixed by being fixed to the first embedded member at the first fixing portion 3711. Furthermore, the distal end portion 342a of the second operation line 342 is fixed to the second embedded member at the second fixing portion 3721 so that the catheter body 310 is indirectly fixed. The tip 311 is fixed.

  Further, the distal end portion 343a of the third operation line 343 is indirectly fixed to the distal end portion 311 of the catheter main body 310 by being fixed to the first embedded member (first marker member 371) at the third fixing portion 3712. The distal end portion 344a of the fourth operation line 344 is indirectly fixed to the distal end portion 311 of the catheter main body 310 by being fixed to the second embedded member (second marker member 372) at the fourth fixing portion 3722. Has been.

The first fixing portion 3711 and the third fixing portion 3712 are disposed at the same position (substantially the same position) in the axial direction of the catheter body 310.
Similarly, the second fixing portion 3721 and the fourth fixing portion 3722 are disposed at the same position (substantially the same position) in the axial direction of the catheter body 310.

  Each of the first embedded member (first marker member 371) and the second embedded member (second marker member 372) is a marker member made of a radiopaque material.

As shown in FIGS. 1 and 3, the first operation line 341 passes from the second embedded member through a portion radially outside the arrangement region of the second embedded member (second marker member 372) in the catheter body 310. Is also routed from the proximal end region to the distal end region relative to the second embedded member.
More specifically, the first hollow tube 331 through which the first operation line 341 is inserted also passes through a portion radially outside the region where the second embedded member is disposed in the catheter main body 310 and is more than the second embedded member. It is drawn from the region on the proximal end side to the region on the distal end side with respect to the second embedded member.

Similarly, the third operation line 343 passes from the region on the proximal end side with respect to the second embedded member through the portion radially outside the arrangement region of the second embedded member (second marker member 372) in the catheter body 310. It is routed to a region closer to the tip than the second embedded member.
More specifically, the third hollow tube 333 through which the third operation line 343 is inserted also passes through a portion radially outside the region where the second embedded member is disposed in the catheter main body 310 and is more than the second embedded member. It is drawn from the region on the proximal end side to the region on the distal end side with respect to the second embedded member.

Next, the hub 390 provided at the proximal end portion of the catheter body 310 will be described with reference to FIGS. 5 and 6.
The hub 390 has a connecting portion 393 for inserting an unillustrated injector (syringe) from the proximal end of the hub 390. A thread groove is formed on the outer periphery of the connecting portion 393 so that the syringe can be detachably fixed.
The hub 390 has two wings 392 facing each other through the axis of the hub 390 on the outer periphery of the hub 390.
The proximal end portion of the catheter body 310 is inserted and fixed to the distal end portion of the hub 390. Thereby, the lumen 321 inside the catheter body 310 and the internal space of the hub 390 communicate with each other.
By rotating the wing 392 about the axis of the hub 390, a torque operation for rotating the entire catheter body 310 is possible.
A housing 386 of a bending operation unit 380 described below is connected and fixed to the distal end side of the hub 390.

  Next, the bending operation unit 380 included in the catheter 300 will be described with reference to FIGS. 5 and 6.

  The catheter 300 includes a bending operation unit 380 for performing the bending operation of the distal end portion 311 of the catheter main body 310. An operation of pulling both the first operation line 341 and the second operation line 342 and an operation of pulling both the third operation line 343 and the fourth operation line 344 are possible with respect to the bending operation unit 380. It has become.

The bending operation unit 380 includes, for example, a housing 386, and a rotating member 381 and a second rotating member 391 that are rotatably supported by the housing 386, respectively.
Each of the rotating member 381 and the second rotating member 391 is, for example, a pulley.
Here, in this specification, the fact that a certain member can rotate includes not only an aspect capable of rotating 360 degrees or more but also an aspect capable of only swinging in a predetermined angle range of less than 360 degrees.

More specifically, a dial operating portion 384 having a disk shape or the like is fixed to the rotating member 381 coaxially with the rotating member 381. Since the dial operation portion 384 is pivotally supported with respect to the housing 386, the rotating member 381 is indirectly pivotally supported with respect to the housing 386.
A second dial operation unit 394 having a disk shape or the like is fixed to the second rotating member 391 coaxially with the second rotating member 391. Since the second dial operation unit 394 is pivotally supported with respect to the housing 386, the second rotating member 391 is indirectly pivotally supported with respect to the housing 386.

The proximal end portion 313 of the catheter body 310 is guided to the proximal end side of the housing 386 through the inside of the housing 386, and is inserted and fixed to the distal end portion of the hub 390.
The rotation axes of the dial operation unit 384 and the second dial operation unit 394 extend in a direction perpendicular to the axial direction of the catheter body 310 in the housing 386.

In the example of FIG. 5, the dial operation unit 384 and the second dial operation unit 394 are arranged so as to overlap each other in the direction orthogonal to the plate surfaces, and the rotation axis of the dial operation unit 384 and the second dial operation The rotating shafts of the portions 394 are arranged coaxially with each other.
However, the rotation axis of the dial operation unit 384 and the rotation axis of the second dial operation unit 394 may not be arranged coaxially with each other. For example, the dial operation unit 384 and the second dial operation unit 394 may be arranged at different positions in the axial direction of the catheter body 310.

  At least a part of each of the dial operation unit 384 and the second dial operation unit 394 is exposed to the outside of the housing 386, and an operator who operates the catheter 300 rotates the dial operation unit 384 and the second dial operation unit 394. This operation can be performed from the outside of the housing 386.

  Each of the first operation line 341, the second operation line 342, the third operation line 343, and the fourth operation line 344 is led out from the catheter body 310 in the housing 386.

For example, the base end portion of the first operation line 341 is wound around the rotation member 381 by one and a half turns, and the base end of the first operation line 341 is fixed to the rotation member 381.
In addition, for example, the base end portion of the third operation line 343 is wound around the rotation member 381 by one and a half turns, and the base end of the third operation line 343 is fixed to the rotation member 381.
The winding direction of the first operation line 341 around the rotating member 381 and the winding direction of the third operation line 343 are opposite to each other.
When the rotation member 381 integrated with the dial operation unit 384 is rotated in one direction by the rotation operation on the dial operation unit 384, the first operation line 341 is selectively based on the first operation line 341 and the third operation line 343. It is towed to the end side.
Further, when the rotation member 381 rotates in the opposite direction to the one direction by the rotation operation on the dial operation unit 384, the third operation line 343 of the first operation line 341 and the third operation line 343 is selectively based on the base end. It is designed to be pulled to the side.

For example, the base end portion of the second operation line 342 is wound around the second rotation member 391 by one and a half turns, and the base end of the second operation line 342 is fixed to the second rotation member 391.
In addition, the base end portion of the fourth operation line 344 is, for example, wound once and a half around the second rotating member 391, and the base end of the fourth operation line 344 is fixed to the second rotating member 391. Yes.
The winding direction of the second operation line 342 around the second rotating member 391 and the winding direction of the fourth operation line 344 are opposite to each other.
When the second rotation member 391 integrated with the second dial operation unit 394 is rotated in one direction by the rotation operation on the second dial operation unit 394, the second operation line out of the second operation line 342 and the fourth operation line 344 is performed. 342 is selectively pulled to the proximal side.
Further, when the second rotating member 391 is rotated in the opposite direction to the one direction by the rotation operation on the second dial operation unit 394, the fourth operation line 344 is selected from the second operation line 342 and the fourth operation line 344. It is pulled to the base end side.

For this reason, by performing an operation on the dial operation unit 384 and an operation on the second dial operation unit 394 in parallel, an operation of pulling both the first operation line 341 and the second operation line 342, or a third operation An operation of pulling both the line 343 and the fourth operation line 344 is possible.
Here, the fact that both the first operation line 341 and the second operation line 342 are pulled means that there is a timing at which both the first operation line 341 and the second operation line 342 are pulled together. The first operation line 341 and the second operation line 342 are not limited to the start timing of being pulled, and the first operation line 341 and the second operation line 342 are pulled to the same end timing. It is not limited to becoming.
Similarly, towing both the third operation line 343 and the fourth operation line 344 means that there is a timing at which both the third operation line 343 and the fourth operation line 344 are towed together. The timing at which the third operation line 343 and the fourth operation line 344 start towing is not limited to the same, and the third operation line 343 and the fourth operation line 344 are towed at the same end timing. It is not limited to becoming.

  Further, the first operation line 341 is adjusted to the second operation line by adjusting the strength of the force for performing the operation for rotating the dial operation unit 384 and the strength of the force for performing the operation for rotating the second dial operation unit 394. The third operation line 343 can be pulled to the base end side stronger than the 342, or the third operation line 343 can be pulled to the base end side stronger than the fourth operation line 344.

As described above, an operation of pulling the first operation line 341 stronger than the second operation line 342 with respect to the bending operation unit 380 is possible.
More specifically, an operation of pulling the first operation line 341 stronger than the second operation line 342 with respect to the bending operation unit 380, an operation of pulling the third operation line 343 stronger than the fourth operation line 344, Is possible.

Next, examples of materials for each part of the catheter 300 will be described.
As a material of the inner layer 322, for example, a resin material such as polytetrafluoroethylene (PTFE), polyvinylidene fluoride (PVDF), perfluoroalkoxy fluororesin (PFA) can be used.
Materials for the outer layer 323 include polyimide (PI), polyamideimide (PAI), polyethylene terephthalate (PET), polyethylene (PE), polyamide (PA), nylon elastomer, polyurethane (PU), ethylene-vinyl acetate resin ( Resin materials such as EVA), polyvinyl chloride (PVC) or polypropylene (PP) can be used.
Examples of the material of the first hollow tube 331, the second hollow tube 332, the third hollow tube 333, and the fourth hollow tube 334 include polytetrafluoroethylene (PTFE), polyvinylidene fluoride (PVDF), A resin material such as perfluoroalkoxy fluororesin (PFA) can be used.
The material of the wire constituting the blade layer 351 is preferably a metal material such as stainless steel or tungsten, but may be a resin material.
The material of the wire constituting the winding wire 352 is preferably a metal material such as stainless steel or tungsten, but may be a resin material.

  Next, the operation will be described.

First, when an operation of selectively pulling the first operation line 341 to the proximal end side is performed, the distal end portion 311 is bent as shown in FIG.
When an operation of selectively pulling the second operation line 342 to the proximal end side is performed, as shown in FIG. 8B, the catheter main body 310 has an intermediate portion between the distal end portion 311 and the proximal end portion 313. The positioned intermediate portion 312 is gently bent. The direction of bending here is opposite to the direction of bending in FIG.
When an operation of pulling both the first operation line 341 and the second operation line 342 is performed, as shown in FIG. 8C, the local region of the tip portion 311 is sharply bent. The direction of bending here is the same as the direction of bending in FIG. Note that by bending the first operation line 341 more strongly than the second operation line 342, bending as shown in FIG. 8C can be realized more easily.
Further, when the strength of pulling the second operation line 342 toward the base end side is increased as compared with the case of FIG. 8C, as shown in FIG. It bends similarly and the local area | region of the front-end | tip part 311 bends similarly to FIG.8 (c).

Further, when an operation of selectively pulling the third operation line 343 to the proximal end side is performed, the distal end portion 311 is bent as shown in FIG. The direction of bending here is opposite to the direction of bending in FIG.
When an operation of selectively pulling the fourth operation line 344 to the proximal end side is performed, as shown in FIG. 7B, the catheter main body 310 is intermediate between the distal end portion 311 and the proximal end portion 313. The positioned intermediate portion 312 is gently bent. The direction of bending here is opposite to the direction of bending in FIG.
When an operation of pulling both the third operation line 343 and the fourth operation line 344 is performed, as shown in FIG. 7C, the local region of the tip 311 is sharply bent. The direction of bending here is the same as the direction of bending in FIG. Note that by bending the third operation line 343 more strongly than the fourth operation line 344, bending as shown in FIG. 7C can be realized more easily.
Further, when the strength of pulling the fourth operation line 344 toward the base end side is increased as compared with the case of FIG. 7C, as shown in FIG. It bends similarly, and the local area | region of the front-end | tip part 311 bends similarly to FIG.7 (c).

As described above, one of the first operation line 341 and the second operation line 342 is selectively pulled, both the first operation line 341 and the second operation line 342 are pulled, or the first operation line 341 is pulled. It is possible to bend the catheter body 310 with a higher degree of freedom by making the pulling strength of the second operation line 342 different from that of the second operation line 342.
Similarly, one of the third operation line 343 and the fourth operation line 344 is selectively pulled, both the third operation line 343 and the fourth operation line 344 are pulled, and the third operation line 343 and By making the pulling strength different from that of the fourth operation line 344, the catheter body 310 can be bent with a higher degree of freedom.

For example, as shown in FIG. 8C or FIG. 7C, the branching selectivity at the branching portion of the body cavity (blood vessel or the like) is improved by bending the distal end portion 311 locally.
Further, for example, as shown in FIG. 8D or FIG. 7D, a body cavity (blood vessel or the like) in which the catheter main body 310 is curved by sharply bending a local region of the distal end portion 311 of the catheter main body 310. ) When the distal end portion 311 is bent after passing through the blood vessel, it can be bent not only in the inner direction of the curve but also in the outer direction of the curve. That is, by pulling both the first operation line 341 and the second operation line 342, the load of pulling the distal end portion 311 of the catheter body 310 by the first operation line 341 and the load pulling by the second operation line 342 are reduced. Since the balance is achieved, it is possible to suppress the occurrence of a phenomenon in which the catheter main body 310 rotates around the axis when the first operation line 341 or the second operation line 342 tries to take a shortcut. Similarly, by pulling both the third operation line 343 and the fourth operation line 344, a load that pulls the distal end portion 311 of the catheter body 310 by the third operation line 343 and a load that pulls by the fourth operation line 344. Therefore, it is possible to suppress the occurrence of a phenomenon in which the catheter main body 310 rotates around the axis when the third operation line 343 or the fourth operation line 344 tries to take a shortcut. Therefore, even when the distal end portion 311 is further bent after the catheter body 310 passes through a body cavity such as a curved blood vessel, the distal end portion 311 can be bent more reliably in a desired direction.
Further, even if the catheter 300 is of a type in which the change in rigidity of the catheter body 310 can be set only slightly, such as for stenosis penetration or snare guidance, FIG. 8 (c) and FIG. 7 (c) 8 (d) or 7 (d), the local (short) region of the tip 311 can be bent sharply and with a large curvature.
It should be noted that the length of the locally bent region in the distal end portion 311 can be set such that the distance between the distal end portion 341a and the distal end portion 342a and the distance between the distal end portion 343a and the distal end portion 344a are desired in the axial direction of the catheter body 310. It can be adjusted by setting the distance.

[Second Embodiment]
Next, a second embodiment will be described with reference to FIG. FIG. 9 shows a cross-section at a position corresponding to the line BB in FIG.
The catheter 300 according to the present embodiment is different from the catheter 300 according to the first embodiment in the points described below, and is configured in the same manner as the catheter 300 according to the first embodiment in other points. Has been.

  As shown in FIG. 9, in the case of the present embodiment, a recess 3723 is formed in a portion facing the first operation line 341 in the second embedded member (second marker member 372). Thereby, interference with the 1st operation line 341 or the 1st hollow tube 331, and the 2nd marker member 372 can be controlled.

  Similarly, in the second embedded member (second marker member 372), a concave portion 3723 is also formed at a portion facing the third operation line 343. Thereby, interference with the 3rd operation line 343 or the 3rd hollow tube 333, and the 2nd marker member 372 can be controlled.

For example, the recess 3723 extends continuously from the proximal end to the distal end of the second marker member 372 in the axial direction of the catheter body 310.
For example, the fourth fixing portion 3722 is fixed to a recess 3723 that faces the first operation line 341, and the second fixing portion 3721 is fixed to the recess 3723 that faces the third operation line 343.

[Third Embodiment]
Next, a third embodiment will be described with reference to FIGS.
The catheter 300 according to the present embodiment is different from the catheter 300 according to the first embodiment in the points described below, and is configured in the same manner as the catheter 300 according to the first embodiment in other points. Has been.

  As shown in FIGS. 10 to 13, in the case of this embodiment, the catheter 300 includes a third operation line 343, a fourth operation line 344, and a third hollow tube among the configurations described in the first embodiment. 333, the fourth hollow tube 334, the third fixing portion 3712, and the fourth fixing portion 3722 are not provided.

Further, as shown in FIGS. 14 and 15, the bending operation unit 380 is also different from the first embodiment.
As shown in FIG. 15, in the present embodiment, the bending operation unit 380 includes a shaft support member 395 that rotatably supports the rotation member 381 and the dial operation unit 384, and the shaft support member 395 as a catheter body 310. And an advancing / retreating guide portion 397 for guiding the reciprocating movement in the axial direction.
The shaft support member 395 includes, for example, a gate portion 396 that allows the proximal end portion 313 of the catheter main body 310 to be inserted in the proximal end direction, and the gate portion 396 is guided by the advance / retreat guide portion 397.
The advance / retreat guide 397 is fixed to the inner surface of the housing 386, for example.

In the case of the present embodiment, the base end portion of the first operation line 341 is, for example, wound around the rotation member 381 by one and a half turns, and the base end of the first operation line 341 is fixed to the rotation member 381. Yes.
In addition, for example, the base end portion of the second operation line 342 is wound around the rotation member 381 by one and a half turns, and the base end of the second operation line 342 is fixed to the rotation member 381.
The winding direction of the first operation line 341 around the rotating member 381 and the winding direction of the second operation line 342 are opposite to each other.

By pulling the dial operation portion 384 to the proximal end side, the dial operation portion 384, the rotating member 381, and the shaft support member 395 are integrally moved relative to the advance / retreat guide portion 397. . Thereby, both the 1st operation line 341 and the 2nd operation line 342 are pulled to the base end side.
When the rotation member 381 integrated with the dial operation unit 384 is rotated in one direction by the rotation operation on the dial operation unit 384, the first operation line 341 is selectively based on the first operation line 341 and the second operation line 342. It is pulled to the end side.
Further, when the rotation member 381 is rotated in a direction opposite to the one direction by a rotation operation on the dial operation unit 384, the second operation line 342 of the first operation line 341 and the second operation line 342 is selectively based on the base end. Pulled to the side.
Further, the first operation line 341 and the second operation line 342 are pulled by rotating the dial operation unit 384 and the dial operation unit 384 in the one direction while pulling the dial operation unit 384 to the proximal end side. In addition, the first operation line 341 can be pulled more strongly than the second operation line 342.
By pulling the dial operation part 384 toward the base end side and rotating the dial operation part 384 and the dial operation part 384 in the opposite direction to the one direction, both the first operation line 341 and the second operation line 342 are pulled. In addition, the second operation line 342 can be pulled more strongly than the first operation line 341.
For this reason, also in this embodiment, among the methods of bending the distal end portion 311 of the catheter body 310 described in the first embodiment, the methods of bending shown in FIGS. 8A to 8D are possible. It is.

In the case of the present embodiment, a void portion may be formed in a portion facing the first operation line 341 in the second embedded member (second marker member 372). That is, for example, the second marker member 372 may be a C ring having a gap.
Also in this case, interference between the first operation line 341 and the first hollow tube 331 and the second marker member 372 can be suppressed.

[Fourth Embodiment]
Next, the fourth embodiment will be described with reference to FIGS. 16A, 16B, and 16C.
The catheter 300 according to the present embodiment is different from the catheter 300 according to the first embodiment in the points described below, and is configured in the same manner as the catheter 300 according to the first embodiment in other points. Has been.

In the first embodiment, the fourth operation line 344 and the fourth hollow tube 334, the first operation line 341 and the first hollow tube 331 are arranged side by side in the radial direction of the catheter body 310, and The example in which the second operation line 342 and the second hollow tube 332 and the third operation line 343 and the third hollow tube 333 are arranged side by side in the radial direction of the catheter main body 310 has been described.
On the other hand, in the present embodiment, the first operation line 341 and the first hollow tube 331, the fourth operation line 344 and the fourth hollow tube 334 are arranged side by side in the circumferential direction of the catheter body 310. The distance from the axis of the catheter body 310 to the first operation line 341 and the first hollow tube 331 and the distance to the fourth operation line 344 and the fourth hollow tube 334 are set to be equal to each other. .
In the case of this embodiment, the second operation line 342 and the second hollow tube 332 and the third operation line 343 and the third hollow tube 333 are arranged side by side in the circumferential direction of the catheter body 310,
The distance from the axial center of the catheter body 310 to the second operation line 342 and the second hollow tube 332 and the distance to the third operation line 343 and the third hollow tube 333 are set to be equal to each other.

As mentioned above, although each embodiment was described with reference to drawings, these are illustrations of the present invention, and various configurations other than the above can also be adopted.
Moreover, each said embodiment can be combined suitably in the range which does not deviate from the main point of this invention.

This embodiment includes the following technical ideas.
(1) a long catheter body;
A first operation line and a second operation line respectively inserted through the catheter body along the axial direction of the catheter body;
With
The first operation line and the second operation line are arranged at positions facing each other in the circumferential direction of the catheter body,
The distal end portion of the first operation line is fixed to the distal end portion of the catheter body at the first fixing portion,
A catheter in which a distal end portion of the second operation line is fixed to the distal end portion of the catheter main body at a second fixing portion that is located on a proximal end side with respect to the first fixing portion in the axial direction of the catheter main body. .
(2) a first embedded member and a second embedded member respectively embedded in the catheter body,
The second embedded member is disposed on the proximal end side of the first embedded member in the axial direction of the catheter body,
The distal end portion of the first operation line is fixed to the first embedded member at the first fixing portion, and is indirectly fixed to the distal end portion of the catheter body,
(2) The distal end portion of the second operation line is fixed to the distal end portion of the catheter body indirectly by being fixed to the second embedded member in the second fixing portion. catheter.
(3) The catheter according to (2), wherein each of the first embedded member and the second embedded member is a marker member made of a radiopaque material.
(4) The first operation line passes through a portion of the catheter body that is radially outward from the region where the second embedded member is disposed, and from the region proximal to the second embedded member, the second embedded member. The catheter according to (2) or (3), wherein the catheter is led to a region closer to the distal end side.
(5) The catheter according to (4), wherein a concave portion or a void portion is formed in a portion of the second embedded member that faces the first operation line.
(6) provided with a third operation line and a fourth operation line respectively inserted through the catheter body along the axial direction of the catheter body;
In the circumferential direction of the catheter body, the third operation line, the first operation line and the fourth operation line are arranged at positions facing each other,
In the circumferential direction of the catheter body, the fourth operation line and the second operation line are arranged at positions facing each other,
The distal end portion of the third operation line is fixed to the distal end portion of the catheter body at a third fixing portion,
The distal end portion of the fourth operation line is fixed to the distal end portion of the catheter main body at a fourth fixing portion that is located on the proximal end side with respect to the third fixing portion in the axial direction of the catheter main body. The catheter according to any one of (1) to (5).
(7) The first fixing portion and the third fixing portion are arranged at the same position in the axial direction of the catheter body,
The catheter according to (6), wherein the second fixing portion and the fourth fixing portion are disposed at the same position in the axial direction of the catheter body.
(8) provided with a third operation line and a fourth operation line respectively inserted through the catheter body along the axial direction of the catheter body;
In the circumferential direction of the catheter body, the third operation line, the first operation line and the fourth operation line are arranged at positions facing each other,
In the circumferential direction of the catheter body, the fourth operation line and the second operation line are arranged at positions facing each other,
The distal end portion of the third operation line is fixed to the first embedded member at a third fixing portion, and is indirectly fixed to the distal end portion of the catheter body.
The distal end portion of the fourth operation line is indirectly fixed to the distal end portion of the catheter body by being fixed to the second embedded member at a fourth fixing portion (2) to (5) The catheter according to any one of the above.
(9) A bending operation part for performing a bending operation of the distal end portion of the catheter body,
The catheter according to any one of (1) to (8), wherein an operation of pulling both the first operation line and the second operation line can be performed on the bending operation unit.
(10) The catheter according to (9), wherein an operation of pulling the first operation line stronger than the second operation line with respect to the bending operation unit is possible.
(11) A bending operation part for performing a bending operation of the distal end portion of the catheter body,
An operation of pulling both the first operation line and the second operation line and an operation of pulling both the third operation line and the fourth operation line are possible with respect to the bending operation unit. The catheter according to any one of (6) to (8).
(12) An operation of pulling the first operation line stronger than the second operation line and an operation of pulling the third operation line stronger than the fourth operation line with respect to the bending operation unit are possible. The catheter according to (11).

300 Catheter 310 Catheter body 311 Tip portion 312 Intermediate portion 313 Base end portion 320 Resin tube 321 Lumen 322 Inner layer 323 Outer layer 331 First hollow tube 332 Second hollow tube 333 Third hollow tube 334 Fourth hollow tube 341 First 1 operation line 341a tip portion 342 second operation line 342a tip portion 343 third operation line 343a tip portion 344 fourth operation line 344a tip portion 351 blade layer 352 winding wire 371 first marker member (first embedded member)
372 Second marker member (second embedded member)
3711 First fixing portion 3712 Third fixing portion 3721 Second fixing portion 3722 Fourth fixing portion 3723 Recessed portion 380 Bending operation portion 381 Rotating member 384 Dial operating portion 386 Housing 390 Hub 391 Second rotating member 392 Wing portion 393 Connection portion 394 First 2 dial operation part 395 Axial support member 396 Gate part 397 Advance / Retreat guide part

Claims (12)

A long catheter body;
A first operation line and a second operation line respectively inserted through the catheter body along the axial direction of the catheter body;
With
The first operation line and the second operation line are arranged at positions facing each other in the circumferential direction of the catheter body,
The distal end portion of the first operation line is fixed to the distal end portion of the catheter body at the first fixing portion,
A catheter in which a distal end portion of the second operation line is fixed to the distal end portion of the catheter main body at a second fixing portion that is located on a proximal end side with respect to the first fixing portion in the axial direction of the catheter main body. . A first embedded member and a second embedded member respectively embedded in the catheter body,
The second embedded member is disposed on the proximal end side of the first embedded member in the axial direction of the catheter body,
The distal end portion of the first operation line is fixed to the first embedded member at the first fixing portion, and is indirectly fixed to the distal end portion of the catheter body,
The distal end portion of the second operation line is fixed to the distal end portion of the catheter body indirectly by being fixed to the second embedded member at the second fixing portion. catheter.   The catheter according to claim 2, wherein each of the first embedded member and the second embedded member is a marker member made of a radiopaque material.   The first operation line passes through a portion of the catheter body that is radially outer than the region where the second embedded member is disposed, and is distal to the second embedded member from a region proximal to the second embedded member. The catheter according to claim 2 or 3, wherein the catheter is routed to a side region.   The catheter according to claim 4, wherein a concave portion or a void portion is formed in a portion of the second embedded member that faces the first operation line. A third operation line and a fourth operation line respectively inserted through the catheter body along the axial direction of the catheter body;
In the circumferential direction of the catheter body, the third operation line, the first operation line and the fourth operation line are arranged at positions facing each other,
In the circumferential direction of the catheter body, the fourth operation line and the second operation line are arranged at positions facing each other,
The distal end portion of the third operation line is fixed to the distal end portion of the catheter body at a third fixing portion,
The distal end portion of the fourth operation line is fixed to the distal end portion of the catheter main body at a fourth fixing portion that is located on the proximal end side with respect to the third fixing portion in the axial direction of the catheter main body. The catheter according to any one of claims 1 to 5. The first fixing part and the third fixing part are arranged at the same position in the axial direction of the catheter body,
The catheter according to claim 6, wherein the second fixing portion and the fourth fixing portion are arranged at the same position in the axial direction of the catheter body. A third operation line and a fourth operation line respectively inserted through the catheter body along the axial direction of the catheter body;
In the circumferential direction of the catheter body, the third operation line, the first operation line and the fourth operation line are arranged at positions facing each other,
In the circumferential direction of the catheter body, the fourth operation line and the second operation line are arranged at positions facing each other,
The distal end portion of the third operation line is fixed to the first embedded member at a third fixing portion, and is indirectly fixed to the distal end portion of the catheter body.
6. The device according to claim 2, wherein the distal end portion of the fourth operation line is fixed to the distal end portion of the catheter body indirectly by being fixed to the second embedded member at a fourth fixing portion. The catheter according to claim 1. A bending operation part for performing bending operation of the distal end portion of the catheter body,
The catheter according to any one of claims 1 to 8, wherein an operation of pulling both the first operation line and the second operation line with respect to the bending operation unit is possible.   The catheter according to claim 9, wherein an operation of pulling the first operation line stronger than the second operation line is possible with respect to the bending operation unit. A bending operation part for performing bending operation of the distal end portion of the catheter body,
An operation of pulling both the first operation line and the second operation line and an operation of pulling both the third operation line and the fourth operation line are possible with respect to the bending operation unit. The catheter according to any one of claims 6 to 8.   An operation of pulling the first operation line stronger than the second operation line and an operation of pulling the third operation line stronger than the fourth operation line with respect to the bending operation unit are possible. Item 12. The catheter according to Item 11.

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