RU2051694C1 - Circulatory assist device - Google Patents

Abstract

FIELD: medical equipment. SUBSTANCE: circulatory assist device has artificial ventricle of the heart and artificial pericardium. Artificial ventricle of the heart has one parachute valve connector to which cannula with flap or ball valve is provided at the end. Installed in subdiaphragmatic space of artificial ventricle is body of reversible pump made on the base of d.c. brushless motor connected with hollow of artificial pericardium - compensation chamber with inert biological fluid. EFFECT: increased efficiency of artificial ventricle and prolonged hemodynamics of organism. 1 dgw

Description

 The invention relates to devices used in medicine, in particular to cardiology and cardiac surgery, and can be used for heart transplantation.

 A device for auxiliary blood circulation is known, including a drive and an artificial pericardium, the drive pump is connected to the pericardial cavity and the compensation chamber (ed. St. N 764676, class A 61 N 31/00, 1978).

 However, the known device does not provide adequate adequate hemodynamics during cardiac arrest, since blood is ejected into the ventricle of the natural heart under high pressure transmitting to the atria, which is one of the reasons for the possibility of insufficient blood flow from the atria to the ventricles.

 The aim of the invention is the provision of prolonged hemodynamics and increased preliminarily by ejecting blood directly into the ascending aora.

 This goal is achieved in that the device for auxiliary circulation, containing a drive and an artificial pericardium, the drive pump is connected to the pericardial cavity and the compensation chamber, is equipped with an artificial ventricle and a diaphragm, a cannula with a valve at the free end and a compensator with a parachute valve, the drive pump is installed under the diaphragm ventricle and is connected to a brushless reversible DC motor.

 In FIG. 1 shows a General view of the device for auxiliary circulation installed on the patient’s heart at the time of systole; in FIG. 2 the same moment of diastole.

 The device contains an artificial ventricle 1, one of whose chambers is connected to a compensatory chamber of an artificial pericardium 2 filled with an inert biological fluid 3, a reversible pump 4 based on a brushless DC motor 5 with a parachute valve 6, connector 7 and cannula 8 with a valve at the end 9.

 The operation of the device.

 An artificial ventricle 1 is connected to the left ventricle of the patient’s heart 10 by cannulation so that the connector 7 with the parachute valve 6 and the cannula 8 with the valve at the end are inserted into the cavity of the natural ventricle. At the same time, the end of the cannula with valve 9 is inserted through the lunar valve 11 into the ascending part of the aorta 12. An artificial pericardium, a compensatory chamber 2 filled with an inert biological fluid 3, is connected to a reversible pump 4; put on the patient’s heart and lock the pericardium with a quick lock.

 At the time of systole (Fig. 1), the axial pump 4 is reversed using the blades 13 of the brushless motor 5 and the inert biological fluid 3 is moved from under the diaphragm space 14 into the compensation chamber 2, increasing the elasticity and pressure on the myocardium 15. At the same time, the natural systole is amplified heart, which improves the filling of the blood of the artificial ventricle 1 and the emptying of the right ventricle of the patient’s heart 16.

 In the diastole of the natural heart, the cannula 8 with the valve 9 releases blood from the artificial ventricle 1 to the ascending aorta 12. In this case, the reverse reverse of the axial pump 4 moves the inert biological fluid 3 from the compensation chamber 2 and the subphrenic space 14, which contributes to the decline of the wall of the compensation chamber and reducing its pressure and elasticity on the myocardium 15. This leads to increased diastodes of the natural heart and improved filling of the left 10 and right 16 cavities of the patient’s ventricles, improving th circulation infarction. Then the device cycle is repeated in the rhythm of the natural heart. The device is synchronized with the patient’s natural heart by a control system.

Claims (1)

 A device for AUXILIARY BLOOD CIRCULATION, containing a drive and an artificial pericardium, while the drive pump is connected to the pericardial cavity and a compensation chamber, characterized in that, in order to increase the productivity of the device by providing blood ejection directly into the aorta and ensure prolonged hemodynamics, it is equipped with an artificial ventricle and a diaphragm, a cannula with a valve on the free end and a connector with a parachute valve, the drive pump is installed under the diaphragm of the ventricle and is connected to brushless reversible DC motor.

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