SU1057038A1 - Device for measuring blood pressure in case of operation of artificial heart - Google Patents

Description

The invention relates to medical technology, namely to artificial heart apparatus. A device for measuring blood pressure during operation of an artificial heart is known, which contains a pneumatic actuator, a pneumatic line, a measuring pulse former, an air flow sensor, a pressure sensor, and an adder pj. A disadvantage of the known devices is the impossibility of an average venous pressure. In addition, to perform the measurement, it is necessary to interrupt the filling mode of the ventricle, thus reducing the stroke volume of the ventricle and disrupting the operation of the artificial heart as a whole. The purpose of the invention is to improve the physiological adequacy of blood circulation by measuring the average venous pressure during the operation of an artificial heart. The goal is achieved by the fact that a device for measuring blood pressure during operation of an artificial heart containing a pneumatic actuator, a main line, a measuring pulse former, an air flow sensor, a pressure sensor and an adder, contains a memory block and a series-connected average value gauge and a transmitter, which through the adder is connected to a memory unit, wherein the output of the measuring pulse generator is connected to the control inputs of the memory unit and the average value meter, second input coupled to an output of the air flow sensor. The drawing shows a structural diagram of the proposed device. ,, The device contains a pneumatic actuator connected to the artificial heart 2 pneumatic line 3, which includes an air flow sensor k and an air pressure sensor 5 connected in series to the measuring pulse generator 6, the average value meter 7, the converter 8, the adder 9 and the memory block 10, control The inlet of which is connected to the outlet of the formaker 6 connected to the pneumatic actuator 1. The outputs of the flow sensor k and the air pressure sensor 5 are connected to the second inputs of the meter 7. 38.2 of its value and adder 9, respectively. The principle of operation of the device is based on the measurement of the average value of the flow rate of air flowing in the pneumatic line during diastole. When the artificial heart 2 is operated by pneumatic actuator 1, sensor 5 measures the pressure at the outlet of the pneumatic actuator, and the sensor measures the air flow in the pneumatic line 3. Considering the process of diastolic filling of the ventricle with the mean renal pressure PJ and diastolic pressure of the pneumatic actuator P, determine (-t where tff is the time interval during diastole, at which air flow is measured; - constant filling time of the ventricle, equal to RXA С; Rj - hydrodynamic resistance of the ventricular inlet valve; C - empir the coefficient depending on the capacity of the ventricle; q is the average for t value of air flow. Since the value of tg can be chosen proportional and, i.e., tg V, TO I-KHA-NL “OT”) RK / I 2 Ve-: Device works as follows. The 6-measuring pulse shaper from the pneumatic actuator 1 receives a signal. It starts the diastole phase. 1Ormir 6 generates a pulse of duration tg with a delay of t relative to the beginning of the diastole phase. The be-j character ta ,, is 70-80 ms, determined by the time required for the termination of the transient processes in the pneumatic line 3 during the transition from the systole to the diastole phase. A pulse tg arrives at the average value meter 7, which measures the average value of the air flow over time t. The output voltage of measure 7 is proportional to the average air flow in pnemo during td; the line enters the transform (Tel 8, which compensates for the nonlinearity of the ratio between I associated with the nonlinear dependence of the hydrodynamic resistance K (q on the flow through the inlet valve: ventricle The output voltage of the converter 8 is supplied to one input of the adder 9 and the other input of which receives the output voltage of the pressure sensor 5. The output voltage of the adder 9 is fed to the input of the Memory block 10, which at the end of the measuring pulse produces

memorization of the output voltage of the adder, proportional to the average venous pressure R.

Thus, the device allows the measurement of the average value of the venous pressure, which is a more informative parameter than the instantaneous value measured at some point in diastole. The magnitude of the average venous pressure makes it possible to assess the state of the hemodynamics of the body and select the optimal mode of operation of the artificial heart, which provides the best physiologically adequate blood circulation. In addition, the proposed device completely eliminates the influence of the measurement process on the blood circulation mode (s.

Claims (1)

DEVICE FOR MEASURING BLOOD PRESSURE WHEN WORKING AN ARTIFICIAL HEART, containing a pneumatic actuator, pneumatic line, measuring pulse generator, air flow sensor, pressure sensor and adder, distinguish it by the fact that, in order to improve the physiological adequacy of blood circulation by measuring the average venous blood pressure , it is equipped with a memory unit and a series-connected average value meter and a converter, which is connected through an adder to a memory unit, and the output of The pulse pulse is connected to the control inputs of the memory block and the average value meter, the information input of which is connected to the output of the air flow sensor. 1057038. 2