SU536816A1 - Device for measuring pulse wave velocity - Google Patents

Description

one

The invention relates to Medipin diagnostic devices and can be used to study and diagnose the state of the cardiovascular system in detecting the early stages of the pathology that occurs in diseases such as atherosclerosis and others.

A device for measuring the speed of propagation of a pulse wave is known, comprising two sensors connected, for example, to the carotid and radial arteries and connected to differentiating amplifiers, the outputs of which are connected to a time interval former connected to a time-amplitude converter connected through a normalization circuit with two-channel indicator 1.

In order to objectively diagnose and monitor the state of the cardiovascular system, the proposed device has an additional recording channel made in the form of a serially connected sensor, a differentiating amplifier, a time interval former, a time-amplitude converter, a normalization circuit and connected to the second indicator input, and the output of one differentiating amplifier is connected to the second input of the time generator of the interval of the additional recording channel, and between It seemed differentiating amplifier and the amplitude of the time converters included on reset circuit, the second output of which is connected to the indicator.

The drawing shows a block diagram of a device for measuring the velocity of propagation of a null wave.

The device contains three sensors 1, 2 and 3, connected through differentiating amplifiers 4, 5 and 6 with shapers 7 and 8 time intervals, which are connected to transducers 9 and 10, time-amplitude. To the differentiating amplifier 4 of the central artery (carotid artery sensor)

a reset circuit 11 is connected, one output of which is connected to converters 9 and 10 times-amplitude, and the other to indicator 12. The outputs of the converters are also connected via indicator 13 and 14 to indicator 12.

An apparatus for measuring the velocity of propagation of a nuch wave works in the following manner.

Use three sensors. The first of them set on the central (carotid) artery. This channel is a reference channel, and intervals are formed relative to it, which determine the propagation time of a pool-wave (WFD). The other two sensors are mounted on peripheral (radial and femoral) arteries.

The signals from sensors 1, 2 and 3 have a complex shape, so that the signals are differentiated by differentiating amplifiers 4, 5 and 6 to extract the reference point of the time interval. The first maximum of the derivative of the sensor signals controls the drivers 7 and 8 time intervals, they are simultaneously triggered by a pulse channel of the central artery, and nMHyvibcaMH of the peripheral artery channels are returned to the initial state. The pulses from the formers control the transducers 9 and 10 times-amplitude, the output voltages of which are used to control the indicator 12, made two-coordinate. Simultaneously with the launch of the formers, the launch of the reset circuit 11 occurs, which determines the stopping time of the VDPV values measured for a given cardiac contraction and generates an impulse light for the indicator.

To account for the distance between sensors, the WFDV value must be multiplied by a scale factor. This operation is carried out in rationing schemes 13 and 14. In this way, the diagnostic capabilities of the method for assessing lesions of the vascular wall by the results of measuring VRPVs are enhanced.

Claims (1)

1. Auth. St. No. 280754, cl. A 61B 5/02, 1969.