JPH0464272B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) The present invention relates to an improvement in a dilation balloon catheter used in the treatment of atherosclerotic lesions in coronary arteries (percutaneous coronary angioplasty).

(Prior Art) Angina pectoris and myocardial infarction are often caused by stenosis due to atherosclerotic lesions deposited on the inner wall of coronary arteries. Until now, the cause of atherosclerotic lesions in areas where atheroma has adhered and accumulated has generally been removed by dilating the lumen stenosis of the coronary artery using a dilation balloon catheter. Percutaneous coronary artery dilatation (hereinafter referred to as "percutaneous coronary artery dilatation") involves removing the cause of coronary artery lumen stenosis using such a balloon catheter.
It is called PTCA (simply abbreviated as PTCA) and is widely used in clinical practice.

As shown in Fig. 5, the balloon catheter system conventionally used exclusively in this PTCA is composed of a guide catheter 21, a guide wire 22, and a balloon 23. In particular, the balloon 23 is made of a single stretchable material. It is formed so that it can be expanded to a predetermined size. Then, such a balloon catheter is guided over time from the groin or upper arm to a lesion site in the coronary artery of the heart, and the balloon is expanded at the lesion site.
The atheroma at the lesion site is pressed against the inner wall of the coronary artery, and the atheroma is spread and thinned against the inner wall.
As a result, the cause of myocardial infarction and angina pectoris was eliminated by expanding the inner diameter of the coronary artery at the lesion site and eliminating the stenosis.

(Problem to be Solved by the Invention) However, according to the above-mentioned balloon catheter, even if the balloon catheter is guided to the diseased site of the coronary artery of the heart and expanded with the balloon, the expansion is insufficient. There are many cases where this is the case. In such cases, it is necessary to reinsert a balloon catheter with a larger balloon diameter into the affected area of the coronary artery from the groin or upper arm for treatment. As described above, repeated insertion of the balloon catheter into the lesion site significantly prolongs the surgical time, which not only has a negative impact on the patient's physical strength, but also leads to fatigue of the surgeon and operating staff, and induces other factors. This could determine the success or failure of the surgery.

The present invention was invented in view of the above-mentioned problems, and provides an expansion balloon catheter that can expand a balloon to match the inner diameter of a lesion site without having to pull the catheter out of the body once it has been guided to the lesion site. The purpose is to

(Means for Solving the Problems) In order to achieve the above object, the present invention provides an expansion balloon catheter comprising a guide catheter section, a guide wire section, a balloon section, and an air bleed tube for expanding the balloon section. In,
The balloon part is constructed by layering a plurality of balloons with different expansion dimensions in ascending order of expansion dimension, and the inner layer balloon is formed to be more fragile than the outer layer balloon.

(Function) According to the present invention, when air is blown from the air bleed pipe hole, the inner layer balloon first expands.
If the expansion dimension of this inner layer balloon is small and the coronary stenosis cannot be expanded sufficiently, if air is continued to be blown into the balloon, the balloon will burst because it is fragile, and at the same time the pressure will drop rapidly and the outer layer balloon side By continuing to blow air through the same air bleed duct to reach a predetermined air pressure, the outer layer balloon can be expanded and the coronary stenosis can be sufficiently dilated.

As described above, according to the balloon catheter according to the present invention, once the catheter is guided to the lesion site, even if the initial balloon cannot sufficiently dilate the coronary stenosis at the lesion site, the balloon catheter can instantly expand the coronary stenosis at the lesion site. By expanding the balloon, the coronary stenosis can be further enlarged, the coronary stenosis at the lesion site can be sufficiently relieved, and one of the causes of myocardial infarction and angina pectoris can be eliminated. Additionally, since the balloon can be expanded to a larger size without having to pull the balloon catheter out of the body after it has been inserted into the lesion, there is no negative impact on the patient's physical strength, and the fatigue of the surgeon and operating staff is reduced. .

(Example) Next, an example of the present invention will be described based on FIG.

In the figure, a balloon catheter main body 1 basically consists of a guide catheter section 2, a guide wire section 3, and a balloon section 4. As shown in FIG.

The balloon section 4 has a plurality of balloons 8a and 8b with different expansion dimensions stacked one on top of the other in order from the smallest expansion dimension to the largest one (the illustrated one has two layers, but three or more layers can also be used). possible). Is the inner layer balloon 8a, which has a smaller expansion size, made of a more fragile material than the outer layer balloon 8b, which has a larger expansion size?
Or it has a more fragile portion 12. The example shows a balloon with two layers, but even in the case of three or more layers, the inner layer side is characterized by having a weaker material or a weaker portion 12.

Note that both 7a and 7b are gold-plated parts provided at predetermined locations at the balloon formation site of the guide catheter part 2, and are used to guide and insert the balloon catheter from the groin or upper arm to the coronary artery of the heart. This monitor detects the movement and position of the balloon catheter within the coronary artery. Further, the guide wire section 3 includes a fixed type and a movable type. The balloon catheter main body 1 described above is configured such that the balloon ruptures when air above a certain pressure is supplied into the balloon. However, only one air bleed tube 5c common to each balloon is disposed inside the guide catheter section 2.
The distal end of the air bleed tube 5c is connected to a hole 6c provided at a predetermined position in the guide catheter section 2, so that air is blown only into the balloon 8a until the balloon 8a is expanded and ruptured. .

In the above-mentioned embodiment, before expansion, each balloon has 1 to 2 of the inner and outer layer balloons 8a and 8b in the circumferential direction of the guide catheter section 2.
The portions are folded to reduce the bulk, and the material is preferably a material that can be made into a thin film and has good transparency and pressure resistance, such as polyester film or polyethylene film.

(Effects of the Invention) According to the dilation balloon catheter according to the present invention, the balloon is brought into pressure contact with the atheroma deposited on the diseased site of the coronary artery, and the atheroma is spread thinly, thereby eliminating the stenotic state of the diseased site. At this time, the balloon can be expanded to an appropriate state without having to pull out the catheter, which has been guided to the lesion site, out of the body. Therefore, not only can the time required for surgery be relatively shortened and the physical burden on the patient reduced, but also the fatigue of the surgeon and other operating staff is reduced, and the success rate of this type of surgery is greatly improved. This has the effect of improving performance.

[Brief explanation of the drawing]

FIG. 1 is a perspective view schematically showing an embodiment of the present invention, and FIG. 2 is a perspective view of a conventional balloon catheter. 1...Balloon catheter main body, 2...Guide catheter section, 3...Guide wire section, 5c...
...Air bleed pipe, 7a/7b...Gold plated part,
8a/8b...Balloon, 12...Weak part.

Claims (1)

[Claims] 1. In an expansion balloon catheter consisting of a guide catheter section, a guide wire section, a balloon section, and an air bleed tube for expanding the balloon section, a plurality of balloons with different expansion dimensions are layered in descending order of expansion dimension to form the balloon section. constitutes,
An expansion balloon catheter characterized in that the inner layer of the balloon is more fragile than the outer layer of the balloon.