SU1673137A1 - Electrocardiostimulator - Google Patents

Abstract

This invention relates to the field of medicine, namely to pacemakers. In order to improve the accuracy of adjusting the frequency of stimulation of the heart depending on the physical load, the pacemaker contains a transceiver circuit 6 connected to the output of the voltage converter 5 - frequency, generator 9, detector 7 and switch 8, the output of which is connected to the driver 10 pulses, and the first and the third inputs are connected to the outputs of the generator, the transceiver circuit and the detector, respectively, the input of which is connected to the output of the transceiver circuit. 1 il.

Description

This invention relates to the field of medicine, namely to pacemakers.

The purpose of the invention is to improve the accuracy of adjusting the frequency of stimulation of the heart, depending on physical activity.

The drawing shows a diagram of the device.

The device includes a piezoelectric sensor 1, an amplifier 2, an amplitude detector 3, a frequency detector 4, a voltage-frequency converter 5, a transceiver circuit 6, a detector 7, a switch 8, a generator 9, a driver 10 pulses.

The device works as follows.

The piezoelectric transducer 1 is inserted into the patient's foot area. When the patient is walking, impulses occur in it that are proportional in frequency to the pace of the walk, and in amplitude to the patient's weight along with the possible displaced weight. These signals are amplified by amplifier 2, and then fed to the inputs of amplitude 3 and frequency 4 detectors.

Signals proportional to the frequency of walking and the weight of the carried load are summed up and fed to the input of the voltage-frequency converter, which are converted into a control signal fed to the transceiver circuit 6. Moreover, at this level, the voltage-frequency conversion factor is selected such that it corresponds to the natural spectrum of the heart rate range (for example, 50-120 beats per minute). This solution gives the opportunity to quickly monitor the operation of all non-implantable units by the presence of a radio signal on the air, for example, using a radio receiver. By changing the degree of circulatory failure in such a patient, it is possible (because the entire system has open access) to regulate the voltage-to-frequency conversion factor, for example, by using a trimming resistor and thereby adjusting the degree of increase in the stimulation frequency to the same type of load. degree of circulatory failure. In addition, the system becomes more non-volatile since it is easy to replace the power source in the external device.

From the implantable part of the transceiver circuit 6 detected and

the amplified signal in the form of individual pulses is fed to the detector 7, which controls the presence of pulsed activity and controls the operation of the bistable

switch 8, one of the inputs of which is connected to the output of the radio channel, and the other with the output of the generator 9. which is constant. It generates the duty pulses minimum acceptable for a specific

patient in terms of resting frequency. The output of the switch 8 is connected to the input of the pulse generator 10, which generates the amplitude and temporal characteristics of the electrical stimuli sent to the myocardium. In the absence of a radio signal, when the patient is at rest or removed the wearable part of the system, or during sleep, the detector 7 through the switch 8 connects generator 9

directly to the input of the pulse builder 10, and the whole system works as an asynchronous EX. In the case of the patient performing a physical load in the receiving circuit of the radio channel, a control signal appears that is allocated on the detector 7 and switches the switch 8 to another state, when the output the radio channel is connected to the input of the pulse former of 10 pulses and the whole system works in the biomanaged

mode, where the heart rate is proportional to the level of physical activity of the patient.

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Claims (1)

Invention Formula A pacemaker containing a piezoelectric transducer and amplifier, a voltage-frequency converter, a pulse shaper, and amplitude and frequency detectors, the outputs of which are connected to the input of the voltage-frequency converter, and the inputs to the output of the amplifier, characterized in that to increase accuracy of adjusting the frequency of stimulation of the heart depending on the physical load, it contains a transceiver circuit connected to the output of the voltage converter - frequency, generator, detector and switch, the output of which is connected to the pulse shaper, and the first, second and third inputs are connected to the outputs, respectively generator, transceiver circuit and detector input which is connected to the output transceiver circuit.