JPH03118075A - Balloon pump for inside of aorta - Google Patents

Abstract

PURPOSE:To execute the stable and highly accurate flow control of blood without fluctuating the position of a sensor to be fitted to the tip of a center tube even after the lapse of time when a balloon is inserted to the aorta of a patient by embedding the wire for reinforce of low swelling ability in the tube walls of the center tube. CONSTITUTION:In the tube walls of a polyurethane center tube 12, reinforce wires 41 of the low swelling ability are integrally embedded along the axial center direction of the center tube 12. When a catheter is inserted to the aorta, the center tube 12 itself is swelled by moisture in the blood and when the catheter intends to extend in an axial direction by swelling, however, the center tube 12 can not be extended in the axial direction by the reinforce wires 41 integrally embedded in the tube walls. Accordingly, a blood sensor 31 is not pulled into the center tube 12 and a normal blood pressure value is stably measured by the blood pressure sensor 31.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an intra-aortic balloon pump used in a medical balloon pump system.

(Prior art) Heart of a person with heart disease, for example, a patient with acute myocardial infarction! To assist in I1 function, a balloon pump system is used that inserts a balloon into the patient's descending aorta that is inflated and deflated according to the movement of the patient's heart.

Figure 3 is the heart of patient 25! l[1 in the descending aorta 2,
FIG. 2 is an explanatory diagram of a state in which a balloon 13 is inserted, and the balloon pump system is provided with a catheter 11 and a diaphragm tube 12 that is inserted through the catheter 11 and further extended into the balloon 13, and the balloon pump system is 1
The rear end and the distal end of the tube 3 are fixed to the distal end of the catheter 11 and the distal end of the center tube 12, respectively.

Also, inside the center tube 12, there is a blood pressure sensor 3 at the tip.
The blood pressure sensor catheter 30 to which the blood pressure sensor 1 is attached is inserted, and the blood pressure of the patient is measured.

He gas is sent into the balloon 13 through the catheter 11, and by controlling the gas pressure, the balloon 13 inserted into the descending aorta 2 is expanded and contracted, and the flow rate of blood in the descending aorta 2 is increased. is adjusted. Control in this case is performed by observing the patient's electrocardiogram, detecting R waves from the second electrocardiogram, and using the timing of the detection as a reference.

The heart [11] contracts and then dilates when the R wave appears.

Correspondingly, if the balloon 13 is controlled to be deflated during the systole of the heart l and expanded during the systole of the heart l, the load on the ventricles of the patient's heart ait is reduced while the flow of the balloon 13 to the coronary arteries and carotid arteries is reduced. can prevent a decrease in blood flow rate.

(Problems to be Solved by the Invention) In the balloon pump system as described above, the balloon 13 and the catheter 11 inserted into the patient's descending aorta 2 swell in the axial direction with blood, so that A problem may arise in that the blood pressure sensor 31, which should protrude, is retracted into the inside of the balloon 13. That is, FIG. 4 shows the state immediately after the balloon is inserted into the aorta, and FIG. 5 shows the state after a predetermined period of time has elapsed. As shown in Figure 4,
A blood pressure sensor catheter 30 with a blood pressure sensor 31 attached to its tip is inserted into the center tube 12.
The blood pressure sensor 31 is arranged so as not to protrude more than 5+sm from the center tube 12 so as not to damage the wall of the descending aorta 2.

However, as time passes, the balloon 13, catheter 11, and center tube 12, which are disposed in contact with blood within the descending aorta 2, swell and extend in the axial direction (
As shown in Figure 5.

The blood pressure sensor 31 ends up being retracted into the center tube 12.

In such a state, the blood pressure sensor 31 will not be able to detect the correct blood pressure value. On the other hand, the blood pressure sensor 31 should be thickened so that it does not get pulled into the center tube 12 due to swelling (if it protrudes, it may damage the blood vessels). There is a risk of this happening.

SUMMARY OF THE INVENTION Therefore, the present invention provides a balloon pump that prevents a balloon pump member disposed within a blood vessel from extending in the axial direction even when it swells, and prevents a blood pressure sensor from being drawn into the center tube. is a technical issue.

Means for Solving the Problems) In order to solve the above problems, one aspect of the present invention is to embed a reinforcing wire rod with low swelling property in the tube wall of the center tube.

That is, the present invention provides a catheter having a balloon attached to its distal end, a center tube extending inside the catheter and the balloon, and having its distal end fixed to the distal end of the balloon; a blood pressure sensor catheter extending from the blood pressure sensor catheter; and a blood pressure sensor attached to the tip of the blood pressure sensor catheter;
In the tube wall of the center tube, a reinforcing wire made of a material having a lower swelling rate than the seven-touch tip is embedded along the length of the center tube.

(Function) In the medical catheter configured as above,
Even if the catheter or balloon swells with blood after being inserted into the patient's aorta, the center tube has a reinforcing wire with a low swelling rate embedded in the tube wall to prevent swelling in the axial direction. Therefore, it does not extend in the axial direction. Therefore, the blood pressure sensor disposed within the center tube can be prevented from being drawn into the center tube.

(Example) An example of the present invention will be described below with reference to the drawings. Second
The figure is a plan view including cross-sectional parts showing the overall configuration of one embodiment of the intra-aortic balloon pump of the present invention.
5+i+a diameter catheter 1.6 m
Center tube 12 of about m charcoal is killed by m JM.

The distal end of the catheter 11 has a maximum diameter of 16 mm in the inflated state.
The rear end of a balloon 13 having a diameter of about mm is fixed with an adhesive, and the tip of the balloon 13 is fixed to the tip of the center tube 12.

A socket member 14 is fixed to the rear end of the catheter 11, and an electrocardiogram connector 15,
A He gas connector 16 and a blood pressure sensor connector 17 are provided, and the blood pressure sensor connector 17 is connected to the center tube 1.
2, the diameter of the blood pressure sensor 31 attached is 1 a
A blood pressure sensor catheter 30 having a diameter of approximately 100 m is inserted, and a blood pressure sensor 31 is arranged to slightly protrude (within 5 am) from the distal end of the center tube 12 .

FIG. 1(A) and FIG. 1(B) show cross-sectional views of the center tube. Inside the tube wall of the polyurethane center tube 12, there is a reinforcing wire 4 made of aramid fiber with a low swelling rate.
1 is integrally embedded along the axial direction of the center tube 12. In this embodiment, a wire made of aramid fiber is used as the reinforcing wire, but a fibrous metal wire may also be used.

When the catheter is inserted into an artery, the center tube 12 itself swells due to moisture in the blood, but even if the catheter attempts to extend in the axial direction due to the swelling, the center tube 12 is held back by the reinforcing wire 41 that is integrally embedded in the tube wall. cannot extend in the axial direction. Therefore, blood pressure sensor 31
There is no possibility that blood pressure is drawn into the center tube 12, and a normal blood pressure value is stably measured by the blood pressure sensor 31.

As a result of the inventor's actual measurements, it has been found that the conventional axial elongation rate of 1% can be reduced to 0.3% or less using the above method.

In addition, the blood pressure sensor 31 was fixed at seven angles in consideration of swelling.
Since there is no need for the blood pressure sensor 3I to protrude excessively from 7'12, there is no risk of damaging the inner wall of the blood vessel (blood pressure sensor 3I).
1 can prevent both noise and noise.

(Effects of the Invention) As described above in detail, according to the present invention, the extension of the center tube in the axial direction is suppressed even after the passage of time after being inserted into the patient's aorta. The position of the sensor attached to the tip of the blood does not change, allowing stable and highly accurate blood flow control.

[Brief explanation of drawings]

1(A) and 1(B) are cross-sectional views of the center tube of the medical catheter according to the present invention, and FIG. 2 is a plan view showing the overall structure of the intra-aortic noil bomb according to the present invention. , FIG. 3 is an explanatory view of the balloon pump system inserted, and FIGS. 4 and 5 are explanatory views showing the state of the balloon tip of a conventional intra-aortic balloon pump. 2...Thoracic descending aorta 11-...Catheter 1
2.II - Center tube 13... Balloon 14... Socket member 15 - Fist - Electrocardiogram connector 16... He gas connector 17... Blood pressure 7 sockets 25...・Patient 30・e1 Blood pressure sensor catheter 31e--Blood pressure sensor 41... Reinforcement wire

Claims (1)

[Claims] A catheter having a balloon attached to its distal end; a center tube extending inside the catheter and the balloon and having its distal end fixed to the distal end of the balloon; and a center tube extending inside the center tube. It has a blood pressure sensor catheter and a blood pressure sensor attached to the tip of the blood pressure sensor catheter, and a reinforcing wire made of a material having a lower swelling rate than the center tube is provided in the tube wall of the center tube. An intra-aortic balloon pump that is implanted along its length.