JPH0767459B2 - Endovascular catheter - Google Patents

Description

TECHNICAL FIELD The present invention relates to a catheter having a fiberscope for observing the inside of a blood vessel, and relates to an endoscopic catheter capable of medically removing atheroma in a stenosis. .

“Prior Art” Conventionally, an endoscope catheter of this type is known, for example, as shown in FIG. In FIG. 3, reference numeral 1 is an endoscope catheter. This endoscope catheter 1 includes an image fiber 2 for observing the inside of a blood vessel, a light guide 3 for irradiating light into the blood vessel, and a flash for injecting a flash liquid into the blood vessel to secure a visual field. Channel 4 and an optical fiber 5 for guiding laser light.

A flush liquid injector 6 for introducing a flush liquid into the flush channel 4 is connected to the rear end side of the endoscope catheter 1. Further, a TV camera 7 and a monitor 8 that optically connect to the image fiber 2 and project an image transmitted from the image fiber 2 are connected to one of the branched ends of the endoscope catheter 1, and the other end is branched. A light source 9 for transmitting light to the light guide 3 and a laser device 10 for making laser light incident on the optical fiber 5 are connected. As the laser device 10, a device that irradiates a CO ₂ laser, a CO laser, an Er-YAG laser, an excimer laser, or the like is used, and a waveguide matching this is used as the optical fiber 5.

In order to remove the atheroma deposited on the intima of the artery using the endoscope catheter 1 having such a configuration, first, as shown in FIG. 4, the distal end side of the endoscope catheter 1 is inserted into the blood vessel A. Further, the inside of the blood vessel A is illuminated by the light guide 3 and observed by the image fiber 2, and the optical fiber 5 is positioned near the atheroma B. Next, while appropriately injecting a flash liquid, laser light is emitted from the laser device 10 and laser light is emitted from the optical fiber 5, and the atheroma B is irradiated to remove the atheroma B by evaporation.

As an endoscopic catheter capable of removing atheroma, another image fiber 11 as shown in FIG.
Is also known. In this image fiber 11, a drill 12 is provided as a means for removing atheroma in place of laser light, and thereby atheroma is crushed.

[Problems to be Solved by the Invention] By the way, in the endoscopic catheter shown in FIG. 3, when the atheroma is removed by evaporation with laser light,
It is difficult to irradiate atheroma accurately, and it may damage normal cells.

Further, even with the endoscopic catheter shown in FIG. 5, when the atheroma is crushed by a drill, the inner wall surface of the blood vessel may be damaged.

[Means for Solving the Problem] Therefore, the endovascular catheter of the present invention includes an image fiber, a light guide, a flash channel, and a crushing absorber that crushes and absorbs an object to be treated such as atheroma in the blood vessel. The pulverized / absorbed body is an ultrasonic wave oscillating unit for pulverizing an object to be treated such as atheroma in the blood vessel by vibration of ultrasonic waves, and the pulverized object to be treated is suction-filtered together with blood. The above problem is solved by having a suction filtration unit that recirculates into the blood vessel.

[Operation] According to the endovascular catheter of the present invention, it is possible to remove the atheroma from the inner wall of the blood vessel by oscillating ultrasonic waves from the ultrasonic wave oscillating section to vibrate the atheroma.

"Embodiment" FIGS. 1 and 2 are views showing an embodiment of the present invention, in which reference numeral 20 is an endovascular catheter (hereinafter abbreviated as catheter). In these figures, the same components as those shown in FIG. 3 are designated by the same reference numerals and the description thereof will be omitted.

As shown in FIG. 1, the catheter 20 is a catheter body.
A plurality of holes are formed in the catheter body 21 along the lengthwise direction of the catheter body 21 and open at the distal end surface 21a of the catheter body 21, and the image fiber 2, the light guide 3, and the flash channel 4 are inserted through the holes. Yes, and tip surface 21a
The crushing suction body 22 is provided in a state of protruding from the balloon body 23, and the balloon 23 is provided on the side peripheral surface near the distal end surface 21a of the catheter body 21.

The crushing suction body 22 has an ultrasonic wave oscillating section 24 and a suction filtering section 25 therein, as shown in FIG. The ultrasonic oscillating unit 24 includes an ultrasonic oscillating element 26 and an oscillating line connected to the ultrasonic oscillating element 26.
The ultrasonic wave oscillating element 26 is connected to a power source (not shown) disposed behind the catheter 20. The oscillation pipe 27 is arranged such that its tip is flush with the tip surface of the crushing suction body 22, and is for transmitting the ultrasonic waves oscillated from the ultrasonic oscillation element 26 to atheroma or the like. With such a configuration, the ultrasonic oscillator 24 can transmit the ultrasonic waves oscillated from the ultrasonic oscillating element 26 to the atheroma or the like via the oscillating pipe 27, thereby crushing the atheroma or the like by vibration. It has become a thing. The suction filter unit 25 is composed of a pump 28 connected to a power source (not shown) behind the catheter 20 and a double pipe 29 connected to communicate with the pump 28. Double tube
It has 29 openings. Double tube 29 is the inner tube
A suction path 31 is provided inside 30, and a return path 33 is provided between the inner tube 30 and the outer tube 32.
The filter 34 is provided in the inner tube 30 with the suction passage 31 closed. Based on such a configuration, the suction filtering unit 25 drives the pump 28 to suck the object to be treated together with the blood from the suction passage 31, and after filtering with the filter 34, after filtering through the pump 28. Blood return route
It is designed to flow back into the blood vessel from 33.

The balloon 23 is configured so that air can be introduced / exhausted from the rear of the catheter 20, and is used to position the catheter body 21 in the center of the blood vessel by introducing and expanding air.

In order to remove the atheroma deposited on the intima of the artery using the catheter 20 having such a structure, first, as shown in FIG. Center 21 in vessel A. Further, the inside of the blood vessel A is irradiated with the light guide 3 and observed with the image fiber 2 to position the crushing suction body 22 near the atheroma B. Then, while flush liquid is appropriately injected, the ultrasonic oscillating element 26 is driven to oscillate ultrasonic waves to vibrate the atheroma B. At the same time, the pump 28 is also driven to perform suction filtration and reflux. Then, the atheroma B is pulverized by being irradiated with ultrasonic waves and vibrated, and is further sucked together with blood by the pump 28 and filtered by the filter 34, whereby only clean blood is circulated in the blood vessel A.

In such a catheter 20, by oscillating ultrasonic waves and irradiating the atheroma B, the atheroma is vibrated and removed from the inner wall of the blood vessel A without damaging the inner wall surface of the blood vessel A and its normal cells. can do. Further, since the suction filtration unit 25 is provided, the crushed atheroma B can be filtered and removed from the blood vessel A. Therefore, the accident that the atheroma piece after crushing occludes the blood vessel A is prevented. can do.

"Effects of the Invention" As described above, the endovascular catheter of the present invention is provided with an ultrasonic wave oscillating section so that ultrasonic waves can be oscillated from the ultrasonic wave oscillating section. It is possible to cleanly pulverize and remove from the inner wall of the blood vessel without damaging the inner wall surface of the blood vessel and its normal cells by vibrating. Further, since the vibration force of ultrasonic waves is used, atheroma can be easily removed without depending on the characteristics such as hardness and softness of atheroma.

Further, in particular, according to the present invention, the crushing absorber for crushing and absorbing the object to be treated such as atheroma in the blood vessel crushes the object to be treated such as atheroma in the blood vessel by the vibration of the ultrasonic waves of the ultrasonic oscillator. The suction filtration unit suction-filters the crushed object to be treated together with blood, and returns the filtered blood to the blood vessel, so that the object to be crushed such as atheroma can be filtered and removed from the blood vessel. Therefore, it is possible to prevent an accident that the inside of the blood vessel is blocked by the atheroma piece after the crushing.

[Brief description of drawings]

FIGS. 1 and 2 are views showing an embodiment of the endovascular catheter of the present invention, and FIG. 1 is a schematic configuration diagram in which a main part (tip part) of the catheter is enlarged, FIG. Is a schematic configuration diagram of a crushing suction body, FIGS. 3 and 4 are diagrams showing an example of a conventional endoscope catheter, FIG. 3 is a schematic configuration diagram of an endoscope catheter, and FIG. Sectional drawing for demonstrating the usage method of an endoscope catheter, FIG. 5 is a schematic block diagram which shows the other example of the conventional endoscope catheter. 2 ... Image fiber, 3 ... Light guide, 4 ... Flash channel, 20 ... Endoscopic catheter, 22 ... Grinding suction body, 24 ... Ultrasonic oscillator, 26 ... Ultrasonic oscillator .

 ─────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-1-288249 (JP, A) JP-A 64-17637 (JP, A) Actually-opened Shou 61-203010 (JP, U)

Claims (1)

[Claims] 1. An image fiber, a light guide, a flash channel, and a crushing absorber for crushing and absorbing an object to be treated such as atheroma in a blood vessel, the crushing and absorbing body being treated to treat atheroma in the blood vessel. It is characterized by having an ultrasonic wave oscillating unit for crushing an object by vibration of ultrasonic waves, and a suction filter unit for suction-filtering the crushed object to be treated together with blood and returning the filtered blood into the blood vessel. Endoscopic catheter.