SU929105A1 - Intra-aorta bottle for counter pulsation - Google Patents

Description

(54) INTRAORETAL CENTER FOR COUNTERPULSE

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The invention relates to medical technology, namely to devices for the treatment of acute heart failure.

An intra-aortic counterpulsation balloon is known, which contains a hollow catheter connected with a pneumatic actuator with openings, a main one and an auxiliary chamber located behind it relative to the actuator, communicated through the openings with the cavity of the catheter 1 J.

However, the device does not provide sufficient myocardial discharge and improvement of the coronary blood flow, which reduces the effectiveness of treatment of acute heart failure.

The purpose of the invention is to provide greater myocardial discharge and improve coronary blood flow.

The goal is achieved by the fact that the intra-aortic counterpulsation balloon contains a hollow catheter connected to a pneumatic actuator, the main catheter is located behind the pneumatic actuator, communicated through the apertures with the catheter cavity, it is equipped with an additional chamber, the catheter has additional holes for the coop with this camera, the additional camera is located behind the subsidiary, and the total area of the additional holes is less than the total area of the holes for scheni cavity catheter with the main camera.

FIG. 1. shows a schematic intra-aortic balloon for counterpulsation; in fig. 2 are graphs illustrating the dynamics of changes in the can cartridge chambers during operation.

The cartridge contains a hollow catheter 1 for connecting the cartridge to a pneumatic actuator, a main chamber 2 with a volume of 20 cm with three holes 3 with a diameter of 2 mm and an auxiliary chamber t with a volume of 3 cm and five holes 5 with a diameter of 2 mm located distally. The balloon is provided with an additional chamber 6, located distal to the subsidiary, having the same shape and size and communicating with the catheter cavity through two openings 7 with a diameter of 0.8 mm. Spray works as follows. The introduction of an additional chamber 6 with two openings 7 with a diameter of 0, from the diameter of the openings 3 of the main and auxiliary chambers causes the auxiliary chamber k to fill up and overlap the aorta in the filling phase, then the main and additional chambers 2 and 6, those. A direct blood flow towards the heart is achieved. In the emptying phase, the auxiliary chamber first collapses, then the main chamber, and then the secondary chamber, i.e. the blood is directed sucked from the side of the heart, thereby reducing the final diastolic pressure. It can be seen that the condition of the direction of the emission of blood by the balloon towards the heart in (the filling phase has the form TG T-pap nap Aux axis where the filling time of the auxiliary chamber; during the filling of the main camera. The directional outflow of blood from the heart to the emptying phase takes place the condition T T on / on of the chipboard axis (f-) where MOUNT is the emptying time of the main chamber; op is the emptying time of the additional camera. The number of holes 7 and their diameter for the additional chamber 6 are chosen from considerations: full time or emptying the chamber t v / s where S is the total area of the holes, V is the volume of the chamber. This value for the main and auxiliary chambers 2 and D is 150 MS and 80 MS, respectively, i.e., so that the filling time of additional 6 is 200 when vaping conditions (2), it is necessary that the main and auxiliary axes should have a ratio of basic 200 SOCH 15–0 — the total area of the cross section de S VX of the axis of the holes for the additional and main chambers; -volume cameras. In order to avoid the asymmetry of filling and emptying the additional chamber 6, it is advisable to make in the catheter not one, but two wipes 7i located on the opposite sides of the catheter 1. Since It is slaughtered Vd 3 cm3, 20 cmх of main diameters of the aperture 7 and 3. In the catheter 1 for the additional main chamber — the number of holes for the additional chamber 3 — the number of holes for the main chamber, then the relation (3) acquires the appearance of the CMV VId Zdop. Q axis ie the diameter of the holes 7 in addition to the diameter of the holes of the chamber 6 is 0, + of the diameter of the holes 3 of the main and auxiliary chambers 2 and C. The tests show that the bellon throws 18 cm towards the heart and 8 cm towards the heart. In the emptying phase, 20 cm is sucked from the heart, and 6 cm from the peripheral vessels, while for a two-chamber balloon for the filling phase, 17 cm to the heart and 6 cm to the peripheral side, 11 cm is sucked from the vessels heart and from the side of the peripheral vessels 12 cm The reduction in final diastolic pressure in the case of a two-chamber cartridge is 5–9 mm Hg, and in the case of a three-chamber 12–17 mm Hg. Thus, the proposed cartridge reduces the final diastolic pressure, thereby increasing the hemodynamic efficiency of intra-aortic ballooning.

Claims (1)

1. Bregman O, Parody, Reemsma K, Maime I, Unidirectional ballon pumping and jerk surgery. 197, p. 67, 553 560, 2-Y 3 3 evil J about FIG. one f anoffffenuff DOS Chnap Emptying Top oem taati .JiSO Uop Zan Lzp