JPH02232068A - Catheter - Google Patents

Abstract

PURPOSE:To selectively insert an inserting object to each lumen easily without fail by providing a multi-lumen tube which is equipped with the plural lumens, an inserting tool, which is equipped with plural entrances and one exit, and a connecting means to connect one end of the multi-lumen tube with the exit of the inserting tool freely attachably and detachably with being liquid tight. CONSTITUTION:A guide wire 27, a laser guide 26 and an endoscope 25 are respectively inserted from first-third entrances 19a-19c of an inserting tool 12 into the inserting tool 12 and led out from an exit 20 of the inserting tool 12 to an external part. Afterwards, these endoscope 25, laser guide 26 and guide wire 27 are selectively inserted to respective lumens 14 of a multi-lumen tube 11 and then, a first connector 13a of the multi-lumen tube 11 is connected with a second connector 13b of the inserting tool 12.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a catheter used when inserting an endoscope, various treatment instruments, etc. into a lumen.

[Prior art] In recent years, it has become possible to manufacture tubes with multiple holes (hereinafter referred to as multi-lumen tubes), and the multi-lumen tubes can be inserted into narrow lumens such as blood vessels to remove blood clots, etc. formed within blood vessels. It is being considered that it can be applied to the observation and treatment of

As a catheter for this sustenance, JP-A-59-155231
In the publication, each lumen of the multi-lumen tube is formed as a light guide passage, an image guide passage, a liquid supply passage, a fluid passage for balloon inflation, etc., and a light guide fiber and an image guide fiber are installed in the light guide passage and the image guide passage, respectively. The inserted version has been published.

However, in a catheter with such a configuration, the entrances of each lumen of the multi-lumen channel are crowded together.
It has been difficult to selectively and reliably insert a light guide fiber or an image guide fiber into one of them.

Therefore, Japanese Patent Laid-Open No. 63-11169 discloses a multi-lumen tube in which the entrance of each lumen is divided to improve the insertion property of objects such as light guide fibers and image guide fibers. In this case, for example, as shown in FIGS. 13 and 14, tubes 3 are connected to each lumen 2 of the multi-lumen tube 1, and the inlets 4 of each lumen 2 are・is divided. In addition, as another general method, as shown in FIG. 15, a tube 3 is connected to a midway portion of the multi-lumen tube 1 so as to communicate with the lumen 2.

[Problems to be Solved by the Invention] However, in the conventional catheter shown in FIGS. 13 and 14 above, when connecting the tubes 3 to each lumen 2 of the multi-lumen tube 1, Bonding or the like is required for the connection, which not only increases the number of processing steps, but also raises concerns about the mechanical strength of the young and young parts. Further, the same can be said of the one shown in FIG.

The present invention has been made in view of the above-mentioned circumstances, and its purpose is to provide a simple and inexpensive structure that allows an insert to be selectively inserted into each lumen of a manoretic lumen tube reliably and easily. The object of the present invention is to provide a catheter that is also easy to use.

[Means and effects for solving the problem] In order to achieve the above object, the catheter of the present invention includes a multi-lumen tube having a plurality of lumens, an insertion tool having a plurality of inlets and one outlet, and the above-mentioned catheter. A connecting means is provided for liquid-tightly and detachably connecting one end of the multi-lumen tube and the outlet of the insertion tool. Then, after inserting an insert such as an endoscope, a laser guide, and a guide wire through each entrance of the insertion tool and leading them out from the exit of the insertion tool, the endoscope is inserted into each lumen of the multi-lumen tube. A mirror, a laser guide, and a guide wire are inserted, and then one end of the multilumen tube and the exit of the insertion tool are connected via a connecting member. This results in
An endoscope, a laser guide, and a guide ear can be selectively inserted into each lumen of the multi-lumen tube with certainty.

[Example] Hereinafter, a first example of the present invention will be described with reference to FIGS. 1 to 4.

FIG. 1 shows the entire catheter according to the present invention, which includes a multi-lumen tube 11, an insertion tool 12 provided at the rear end side of the multi-lumen tube 11, and a connection between the multi-lumen tube 11 and the insertion tool 12. It consists of a connecting tool 13.

A plurality of (four in this case) lumens 14 are formed within the multi-lumen tube 11 over its entire length.

In addition, the insertion tool 12 includes a plurality of (three in this case) split tube portions 1.
5... and a collecting pipe part 16 which is gathered into one at the distal end side of these divided pipe parts 15.... O-rings 1 are provided at the rear ends of the first to third split tube portions 15a to 15c, respectively.
7 is inserted into the O-ring 17, and a pushing tool 18 is screwed onto the rear side of the O-ring 17 to connect the first to third inlets 1.
9a to 19c are formed. Furthermore, a fourth inlet 19d is formed in the middle of the first split tube section 15a.

On the other hand, the collecting pipe portion 16 forms an outlet 20.

Furthermore, the connecting tool 13 includes a first connecting tool 13a attached to the outer periphery of the rear end of the multi-lumen tube 11, and an insertion tool 1
and a second connector 13b attached to the outer periphery of the second outlet 20. The first connector 13g is attached to the multi-lumen tube 11 with an adhesive 21, and a first screw 22a is threaded on the outer periphery of the first connector 13g. On the other hand, a stopper 23 is screwed onto the outer periphery of the outlet 20 of the insertion tool 12, and the stopper 23 is engaged with the second connecting tool 1.
3b is fitted. The inner periphery of this second connector 13b has the first thread groove 2 2 a of the first connector 13a.
A second thread groove 22b is threaded to be screwed into the O-ring, and the second screw groove 22b is screwed into the O-ring. 24 is installed.

Next, how to use the catheter configured in this way will be explained.

FIG. 3 shows a case in which an endoscope 25, a laser guide 26, and a guide wire 27 are passed through the catheter, and a transparent fluid such as physiological saline 29 is passed through a syringe 28. First, the guide ear 27, laser guide 26, and endoscope 25 are inserted into the insertion tool 12 from the first to third entrances 19a to 19c of the insertion tool 12, respectively, and then led out from the exit 20 of the insertion tool 12. let Thereafter, the endoscope m25, laser guide 26 and guide wire 27 are selectively inserted into each lumen 14 of the multi-lumen tube 1l, and then the first connector 13a of the multi-lumen tube 11 and the insertion tool 12 are inserted. The second connector 13b is connected. That is, by rotating the second connector 13b, the first thread groove 22a of the first connector 13a and the second thread groove 22b of the second connector 13b are screwed together, and these first connections 13g of ingredients and the second
The stopper 23 is sandwiched between the connector 13b and the connector 13b to fix the two in a fluid-tight manner. At this time, from the beginning, the first connector 13
a and the second connector 13b, the endoscope 25, laser guide 26 and guide wire 27 can be selectively connected to each lumen 14 of the multi-lumen tube 11.
It is difficult to insert it without fail.

Furthermore, when connecting the first connector 13a and the second connector 13b, the reason why only the second connector 13b is rotated is that when the first connector 13a is rotated, the second connector 13b is connected. , each lumen 14 of the multi-lumen tube 11.
This is because the endoscope 25, laser guide 26, and guide wire 27 that have been pushed through become tangled at the connection between the insertion tool 12 and the multi-lumen tube 11.

Then, the endoscope [2 5, laser guide 26 and guide wire 27 are inserted deeper, and the multi-lumen
Once the tube 11 has been led out from the distal end surface (the state shown in FIG. 4), each pusher 18 of the insertion tool 12 is screwed in, and each O-ring 17 is moved in the axial direction when the appropriate amount of protrusion is reached. It is compressed and deformed, and radially expanded and deformed. As a result, each O-ring 17 comes into close contact with the outer peripheral surfaces of the inner IM 25, the laser guide 26, and the guide wire 27, respectively, and fixes them while maintaining sealing properties. Furthermore, by connecting the syringe 28 to the fourth inlet 19d of the insertion tool 12 and pushing in the piston 28a of the syringe 28, the remaining lumen, that is, the liquid can be delivered, without leaking the two internal saline solutions to the outside of the catheter. lumen 14a
It flows out from the distal end surface of the multi-lumen tube 11 through the tube.

In this state, the multi-lumen tube 11 is inserted into a lumen, for example, a blood vessel (not shown), and while observing the inside of the blood vessel using the internal tube 25, the tip of the laser guide 26 is brought close to a thrombus or the like formed within the blood vessel.

By introducing a laser beam into this laser guide 26 from a laser generator (not shown), the laser guide 26
A laser beam is emitted from the tip toward the thrombus to cauterize and remove the thrombus.

In this way, the endoscope 25, laser guide 26 and guide wire 2 are guided out from the outlet 20 of the insertion tool 12.
7 to each lumen 14 of the multi-lumen tube 11
When selectively inserting the device into the device, it can be directly inserted, making the insertion operation reliable and easy. In addition, the insertion tool 12 is an integral component and can be easily attached to and detached from the multi-lumen tube 11 via the connecting tool 13. Compared to the case where the tubes are connected, the structure is simple and easy to use, and the processing steps for gluing the tubes can be omitted, and the cost is low. Furthermore, the laser guide 26 can be guided to the target site under observation with the endoscope 25, and the laser beam can be irradiated without confirming the state of the thrombus, making the laser treatment safe and reliable.

FIG. 5 shows a second embodiment of the invention.

In this embodiment, in the first embodiment, instead of the O-ring 17 and the pushing tool 18 in the first to third sections 19a to 19c of the insertion tool 12, the inside of the split tube section 15 is normally closed. Endoscopy 1t25, laser guide 26, guide wire 2
7, a hemostatic valve 31 is attached to the outer circumferential surface of the hemostatic valve 31 to allow the blood to pass therethrough. The other basic configuration is the same as that of the first embodiment, but the pushing tool 1 is different from this.
Since it is not necessary to screw in the O-ring 17 to bring the O-ring 17 into close contact with the outer peripheral surfaces of the endoscope 25, the laser guide 26, and the guide wire 27, it is even easier to use.

FIG. 6 shows a T43 embodiment of the present invention.

In this embodiment, a forceps 32 is inserted instead of the laser guide 26 in the first embodiment. Note that the other basic configurations are the same as those of the first embodiment.

According to the catheter configured as described above, the forceps 32 inserted into the lumen 14 of the multi-lumen tube 11 can perform procedures such as collection, incision, and resection of the lesion under observation with the endoscope 25. The treatment and treatment will be certain.

7 and 8 show a fourth embodiment of the invention.

This embodiment has a contact member 33 made of metal or ceramics at the tip of the laser guide 26 in the first embodiment.
It has been installed. This contact member 33 has an insertion hole 34 through which the guide ear 27 passes. Note that the other basic configurations are the same as those of the first embodiment.

In a catheter having such a configuration, the guide wire 27 is first inserted deep into the lumen, and then the contact member 33 and the laser guide 26 are inserted using the guide wire 27 as a guide.
push forward. Then, guide the contact member 33 to the lesion,
Once the contact member 33 is pressed, laser light is introduced through the laser guide 26 and irradiated onto the contact member 33.
3 and cauterize the lesion with the heat. Remove. In this way, the contact member 33 and the laser guide 26 are guided in the advancing direction by the guide wire 27, thereby ensuring reliable insertion into the target site.

FIG. 9 shows a fifth embodiment of the invention.

This embodiment is different from the contact member 33 in the fourth embodiment.
and the multi-lumen tube 11 are connected by a connecting wire 35. That is, a connecting hole 36 is bored at the rear end of the contact member 33, and after the connecting wire 35 is inserted through the connecting hole 36, it is folded back and wrapped around the outer periphery of the distal end of the multi-lumen tube 11. , further glued. The other basic configurations are as described in Section 4 above.
This is similar to the embodiment.

According to the catheter having such a configuration, if the contact member 33 falls off from the laser guide 26 during treatment, the contact member 33 is connected to the multi-lumen tube 11 via the connecting wire 35, so that the multi-lumen By pulling out the tube 11, the contact member 33 can be recovered.

FIG. 10 shows a sixth embodiment of the invention.

In this embodiment, a connecting wire 35 is spirally wound around the outer periphery of the laser guide 26 in the fifth embodiment, and together with the laser guide 26, the multi-lumen tube 1 is
It is inserted into the lumen 14 of No. 1. Note that the other basic configurations are the same as those of the fifth embodiment.

In the fifth embodiment, the connecting wire 35 is wound around the outer periphery of the multi-lumen tube 11, so the tip of the manoretic lumen tube 11 becomes thicker. Laser guide 26
Since the multi-lumen tube 11 is wound around the outer periphery and inserted into the lumen 14 of the multi-lumen tube 11 together with the laser guide 26, the multi-lumen tube 11 does not become thick.

FIG. 11 shows a seventh embodiment of the invention.

In this embodiment, a balloon 37 is provided at the tip of the multi-lumen tube 11 in the first embodiment. The rear end of the balloon 37 is fixed to the multi-lumen tube 11 with a thread 38, and the endoscope 25 and laser guide 26 are placed inside the balloon 37. Note that the other basic configurations are the same as those of the first embodiment.

In the catheter configured as described above, physiological saline 29 is injected into the balloon 37 from the syringe 28 connected to the fourth inlet 19d of the insertion tool 12 through the liquid feeding lumen 14a of the multi-lumen tube 11. to swell.

By bringing the balloon 37 into contact with the inner wall of the blood vessel, the endoscope 2 can be used even inside a blood vessel filled with opaque blood.
It can be observed by In addition, the laser guide 26
Laser irradiation of the lesion can be performed through the balloon 37.

FIG. 12 shows an eighth embodiment of the invention.

This embodiment is similar to the seventh embodiment, but the outlet of the liquid feeding lumen 14a that opens at the distal end of the multi-lumen tube 11 is closed with a stopper 39, and the liquid is sent to the side of the distal end of the multi-lumen tube 11. A horizontal hole 40 communicating with the liquid lumen 14a is bored, and a balloon 37 is provided around the outer periphery of the multi-lumen tube 11 so as to surround this horizontal hole 40. Note that the other basic configurations are the same as those of the seventh embodiment.

Also in the catheter having such a configuration, the physiological saline 29 is injected into the balloon 37 from the syringe 28 connected to the fourth inlet 19d of the insertion tool 12 through the liquid feeding lumen 14a of the multi-lumen tube 11, and the balloon 37 is filled with saline. 37 swells.

Then, the outer circumference of the balloon 37 presses against the inner wall of the lumen,
The distal end of the multi-lumen tube 11 is held at the axial center of the lumen.

Note that the present invention is not limited to the first to eighth embodiments described above. For example, in the first embodiment, the connector 13 for connecting the multi-lumen tube 11 and the insertion tool 12 is composed of a first connector 13a and a second connector 13b. and second connector 1
3b is connected by a screw type, but it may be connected by a luer lock type instead.

[Effects of the Invention] As explained above, according to the present invention, a catheter with a simple configuration, low cost, and ease of use, which can selectively insert an insert into each lumen of a multi-lumen tube reliably and easily, is provided. This is something we can share.

[Brief explanation of the drawing]

1 to 4 show a first embodiment of the present invention, in which FIG. 1 is an exploded side sectional view of the catheter, and FIG.
3 is an exploded partial side sectional view of the catheter showing the assembled state, FIG. 4 is a perspective view of the distal end portion of the catheter, and FIG. 5 shows the second embodiment of the present invention. FIG. 6 is a side sectional view of the inlet portion of the catheter shown in FIG.
FIGS. 7 and 8 are perspective views of the distal end of a catheter showing a fourth embodiment of the present invention, and FIG. 9 is a perspective view of a distal end of a catheter showing a fourth embodiment of the present invention. FIG. 10 is a perspective view of the distal end portion of a catheter showing a sixth embodiment of the present invention, and FIG. 11 is a perspective view of a catheter distal end portion showing a seventh embodiment of the present invention. FIG. 12 is a perspective view of the distal end portion of a catheter showing an eighth embodiment of the present invention, FIGS. 13 and 14 show a conventional example, and FIG. 13 is an exploded perspective view of the catheter. 14 is a perspective view of the distal end portion of the catheter, and FIG. 15 is a side sectional view of another conventional catheter. DESCRIPTION OF SYMBOLS 11...Multi-lumen tube, 12...Insertion tool, 13...Connection tool, 14...Lumen, 19a-1
9d...first to fourth entrances, 20...exits. Applicant's agent Patent attorney Junichi Tsuboi 492 Funeral map Figure 15

Claims (1)

[Claims] A multi-lumen tube having a plurality of lumens, an insertion tool having a plurality of inlets and one outlet, and a connecting means for fluid-tightly and detachably connecting one end of the multi-lumen tube and the outlet of the insertion tool. A catheter characterized by: