JPH05177001A - Expanding catheter - Google Patents

Abstract

PURPOSE:To provide an expanding catheter capable of indicating the pressure that a balloon presses a striction site when the striction site generated in a blood vessel is expanded by the balloon of the expanding catheter. CONSTITUTION:In an expanding catheter having a balloon 13 expanding a striction site in a blood vessel with the tip section of a hollow shaft 11, a pressure sensor 14 directly detecting the pressure that the balloon 13 presses the striction site is fitted at the portion on the surface of the balloon 13 to be brought into contact with the striction site, and a conductor 16 transferring the pressure signal generated by the pressure sensor 14 to the base section 15 of the hollow shaft 11 is inserted into the hollow shaft 11. When the striction site is expanded, the pressure sensor 14 is located between the balloon 13 and the striction site and directly detects the pressure that the balloon 13 presses the striction site, and it transfers the pressure signal to the base section 15 via the conductor 16. A doctor knows the pressure and can properly expand the striction site at the optimum expansion pressure.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dilatation catheter for dilating a stenosis generated in a blood vessel to increase the flow rate of blood on the peripheral side of the stenosis.

[0002]

2. Description of the Related Art Conventionally, this type of dilatation catheter is roughly classified into an over the wire system, a monorail system, a steerable system in which a guide wire and a dilatation catheter are integrated, and when a balloon is inflated. There are four types of perfusion methods in which blood flows from the central side of the balloon to the peripheral side, and the first over-the-wire method is the mainstream among them. As shown in FIG. 3, this dilatation catheter has a guidewire insertion tube 2 inserted through a hollow shaft 1 and a balloon 3 for dilating a stenosis in a blood vessel provided at the distal end of the hollow shaft 1, The base 4 is provided with a guide wire insertion port 5 and a balloon inflation port 6. The balloon 3 is a non-elastic body and is formed by stretching a synthetic resin such as polyethylene or polyethylene terephthalate so as to be expandable / contractible.
It is set to 0.2, 0.25, 0.3, 0.35 and 0.4mm.

Since the balloon 3 is an inelastic body, the doctor first determines the inner diameter of the blood vessel in the stenotic region from the contrast findings and selects the dilatation catheter equipped with the balloon 3 having a size suitable for the inner diameter of the blood vessel. To do. Next, the dilatation catheter is percutaneously inserted into the patient's arterial system, the balloon is inserted into the stenosis portion, and then the liquid is supplied from the balloon inflation port 6 to inflate the balloon 3 to move the stenosis portion outward. The treatment is completed by checking the inside diameter of the expanded blood vessel by contrast enhancement.

[0004]

However, in the above-mentioned conventional dilatation catheter, the pressure for inflating the balloon 3 is detected, but the pressure for the balloon 3 to press the stenosis cannot be directly detected. There are various problems. For example, it is not possible to confirm whether or not the balloon 3 is optimally compressing the stenosis, the optimal expansion of the stenosis is affected by individual differences among doctors, and as a result, if the expansion is insufficient, restenosis is performed. And the risk of blood vessels rupturing if they are over-dilated, and thus inexperienced physicians cannot perform this procedure. The present invention aims to improve the conventional dilatation catheter and eliminate the above-mentioned problems.

[0005]

In order to achieve the above object, the dilatation catheter of the present invention is a dilatation catheter having a hollow shaft and a balloon for dilating a stenosis in a blood vessel, wherein the balloon presses the stenosis. A pressure sensor for directly detecting the pressure is attached to a portion of the balloon surface that comes into contact with the narrowed portion, and a conductor for transmitting a pressure signal generated by the pressure sensor to the base of the hollow shaft is inserted into the hollow shaft.

The pressure sensor is a conductive rubber whose electric resistance changes with pressure, and an elastic body sandwiched between a pair of electrodes to convert a change in distance between electrodes due to pressure into a change in electric capacity. , A piezoelectric element that generates a voltage by pressure or a dye capsule that breaks down by pressure and releases the dye contained therein is used. When a dye capsule is used for the pressure sensor, an optical fiber that transmits the color of the dye released from the dye capsule is used as a conductor.

[0007]

In the dilatation catheter having the above structure, when the balloon is inflated to dilate the stenosis in the blood vessel, the pressure sensor is interposed between the balloon and the stenosis to directly apply pressure to the stenosis. The pressure is detected and transmitted as a pressure signal to the base of the hollow shaft via the conductor.
This allows the doctor to know the optimal expansion pressure with which the balloon presses the stenosis, and the subsequent expansion of the stenosis can be easily achieved. In this case, the pressure signal differs depending on the type of the pressure sensor. When the pressure sensor is a conductive rubber, it is an electric signal of electric resistance, and when the pressure sensor is an elastic body sandwiched between a pair of electrodes, it is an electric capacitance. An electric signal, an electric signal of voltage when the pressure sensor is a piezoelectric element, and an optical signal of color when the pressure sensor is a dye capsule. Then, these pressure signals are converted into pressure by a pressure detector connected to the base of the hollow shaft.

[0008]

EXAMPLES Examples of the present invention will be described below with reference to FIGS. 1 and 2, but the present invention is not limited thereto. Example 1 The dilatation catheter of this example is a conventional over-the-wire type dilatation catheter having a balloon provided with a pressure sensor. As shown in FIG. 1, a guide wire insertion tube 12 is provided inside a hollow shaft 11. The balloon 13 for inserting the narrowed portion in the blood vessel is provided at the distal end of the hollow shaft 11 through the hollow shaft 11, and the pressure at which the balloon 13 presses the narrowed portion is directly detected at the portion of the surface of the balloon 13 that contacts the narrowed portion. A pressure sensor 14 is attached, a conductor 16 for transmitting a pressure signal generated by the pressure sensor 14 to a base portion 15 of the hollow shaft 11 is inserted into the hollow shaft 11, and a guide wire insertion port 17, a balloon inflation port 18 and pressure detection are provided on the base portion 15. A mouth 19 is provided. Although not shown,
A pressure supply source (usually diluted contrast agent) is connected to the balloon inflation port 18, and a pressure detector for converting a pressure signal from the pressure sensor 14 into pressure is connected to the pressure detection port 19.

The balloon 13 is a non-elastic body and is formed by stretching a synthetic resin such as polyethylene or polyethylene terephthalate so as to be expandable / contractible. The outer diameter when inflated is usually set to 0.2, 0.25, 0.3, 0.35, and 0.4 mm, and the outer diameter when contracted is set sufficiently small to facilitate passage through the stenosis. Further, since the coronary artery including the stenosis is bent, sufficient flexibility is imparted.

The pressure sensor 14 is made of a material that does not release substances harmful to the living body, and its thickness is set to 50 μm or less at the most to facilitate passage through the narrowed portion, but 10 μm or less. Preferably 5μ
It is even more preferable to be m or less. Pressure sensor 1
4 is preferably a sensor that transmits detected pressure as an electric signal, such as conductive rubber, an elastic body sandwiched between a pair of electrode plates, a piezoelectric element, or the like, and a conductor 16 for transmitting the electric signal generated by these. Use an electric wire for.

The conductive rubber pressure sensor 14 is made of rubber in which fine powder of a conductive substance is uniformly contained. The contact rate between the fine powder particles increases according to the pressure with which the balloon 13 presses the narrowed portion. Since the electric resistance decreases in inverse proportion to that, the pressure can be known by measuring the change in the electric resistance.

The elastic pressure sensor 14 sandwiched between the pair of electrode plates also changes its electric capacity as the distance between the electrode plates changes due to pressure. Therefore, it is necessary to measure the change in this electric capacity. You can know the pressure by.

The pressure sensor 14 of the piezoelectric element is made of a crystal such as quartz, Rochelle salt, barium titanate or the like, or a piezoelectric element material such as polyvinylidene fluoride. Since the electric charge in the crystal, which was neutral, is biased and a voltage is generated on the crystal surface, the pressure can be known by measuring the change in this voltage.

In order to use the dilatation catheter having the above construction, first, since the balloon 13 is an inelastic body, the inner diameter of the blood vessel in the stenotic region is judged from the contrast findings, and the balloon having a size suitable for the inner diameter of the blood vessel. Select the dilatation catheter with 13. Then, the dilatation catheter is percutaneously inserted into the patient's arterial system, and the balloon 13 is inserted into the stenosis and set in place. Subsequently, a stenosis is expanded outward by supplying a liquid from the balloon expansion port 18 to expand the balloon 13. At this time, the pressure sensor 14 directly detects the pressure between the balloon 13 and the stenosis and presses the stenosis by the balloon 13, and the detected pressure is a pressure signal,
That is, it is transmitted to the base portion 15 of the hollow shaft 11 via the conductor 16 as an electric signal such as electric resistance, electric capacity and voltage. The doctor receives this pressure signal by the pressure detector connected to the pressure detection port 19 to know the pressure, and appropriately expands the stenosis with the optimum expansion pressure. After that, the inside diameter of the dilated blood vessel is confirmed by contrast to complete the treatment.

Embodiment 2 In the dilatation catheter of this embodiment, as shown in FIG. 2, a dye capsule that transmits the detected pressure as a color optical signal is used as a pressure sensor 14, and a conductor is used to transmit this optical signal. An optical fiber 16 is used. The tip of the conductor 16 is inside the balloon 13.

The pressure sensor 14 of the dye capsule is composed of a plurality of capsules, which are destroyed according to the strength of the pressure with which the balloon 13 presses the stenosis, and contain different color dyes. Since the color of the dye released by the capsule is different, the pressure can be known by detecting the color change of this dye with an optical fiber. Other configurations and usage of this dilatation catheter are the same as in the first embodiment.

The dilatation catheters of the above-mentioned embodiments are all of the over-the-wire system, but the present invention is not necessarily limited to this system, and other monorail systems, steerable systems and perfusion systems. It goes without saying that it can also be applied to.

[0018]

As described above, according to the present invention, when the balloon is inflated to expand the narrowed portion in the blood vessel, the pressure sensor is interposed between the balloon and the narrowed portion so that the balloon compresses the narrowed portion. Since the pressure to be detected is directly detected and the pressure is transmitted as a pressure signal to the base of the hollow shaft via the conductor, the doctor can know the pressure and appropriately expand the stenosis with the optimum expansion pressure. Therefore, it is possible to eliminate the individual differences among doctors in angioplasty, prevent the occurrence of restenosis due to insufficient expansion, and prevent the rupture of blood vessels due to excessive expansion, and always obtain the best therapeutic effect. Also,
Even a doctor with little experience in angioplasty can easily and safely carry out the procedure.

[Brief description of drawings]

FIG. 1 is a partially cutaway front view of a dilatation catheter showing a first embodiment of the present invention.

FIG. 2 is a partially cutaway front view of the dilatation catheter showing Embodiment 2 of the present invention.

FIG. 3 is a partially cutaway front view showing an example of a conventional dilatation catheter.

[Explanation of symbols]

 11 Hollow Shaft 12 Guide Wire Insertion Tube 13 Balloon 14 Pressure Sensor 15 Base 16 Conductor 17 Guide Wire Insertion Port 18 Balloon Expansion Port 19 Pressure Detection Port 1 Hollow Shaft 2 Guide Wire Insertion Tube 3 Balloon 4 Hollow Shaft Base 5 Guide Wire Insertion Port 6 balloon inflation port

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[Procedure amendment]

[Submission date] February 24, 1992

[Procedure Amendment 1]

[Document name to be amended] Statement

[Name of item to be corrected] 0002

[Correction method] Change

[Correction content]

[0002]

2. Description of the Related Art Conventionally, dilatation catheters of this type are roughly classified into over the wire.
e) method, monorail method, steerable method with integrated guide wire and dilatation catheter, and perfusion method in which blood flows from the central side of the balloon to the peripheral side when the balloon is inflated. First over
The wire method is the mainstream. As shown in FIG. 3, the dilatation catheter has a guidewire insertion tube 2 inserted into a hollow shaft 1 and a balloon 3 for dilating a narrowed portion in a blood vessel provided at a distal end portion of the hollow shaft 1 to The base 4 is provided with a guide wire insertion port 5 and a balloon inflation port 6. The balloon 3 is a non-elastic body and is formed by stretching a synthetic resin such as polyethylene or polyethylene terephthalate so as to be expandable / contractible, and its outer diameter when expanded is usually 2.0, 2.5, 3.0, 3. 5,
It is set to 4.0 mm.

[Procedure Amendment 2]

[Document name to be amended] Statement

[Name of item to be corrected] 0005

[Correction method] Change

[Correction content]

[0005]

In order to achieve the above object, the dilatation catheter of the present invention is a dilatation catheter having a hollow shaft and a balloon for dilating a stenosis in a blood vessel, wherein the balloon presses the stenosis. a pressure sensor for detecting the pressure directly has a configuration the Attach the portion in contact with the narrowed portion of the balloon surface.

[Procedure 3]

[Document name to be amended] Statement

[Correction target item name] 0009

[Correction method] Change

[Correction content]

The balloon 13 is a non-elastic body and is formed by stretching a synthetic resin such as polyethylene or polyethylene terephthalate so as to be expandable / contractible. And the outer diameter when expanded is usually 2.0, 2.5, 3.0, 3.5, 4.0.
The outer diameter when contracted is set to be sufficiently small to facilitate passage through the narrowed portion. Further, since the coronary artery including the stenosis is bent, sufficient flexibility is imparted.

Claims (5)

[Claims] 1. A dilatation catheter comprising a hollow shaft and a balloon for expanding a stenosis in a blood vessel, wherein a pressure sensor for directly detecting a pressure applied by the balloon to the stenosis is provided on a portion of the balloon surface which is in contact with the stenosis. An expanded catheter characterized by being attached. 2. The dilatation catheter according to claim 1, wherein the pressure sensor is made of a conductive rubber whose electric resistance changes with pressure. 3. The dilatation catheter according to claim 1, wherein the pressure sensor is an elastic body sandwiched between a pair of electrodes, and converts a change in distance between the electrodes due to pressure into a change in capacitance. 4. The dilatation catheter according to claim 1, wherein the pressure sensor comprises a piezoelectric element that generates a voltage by pressure. 5. The pressure sensor comprises a dye capsule that breaks down under pressure to release the dye contained therein, and the conductor comprises:
The dilatation catheter of claim 1, comprising an optical fiber that transmits the color of the dye released from the dye capsule.