SU1606115A1 - Rheoplethysmograph - Google Patents

Abstract

The invention relates to medical technology, in particular to devices for functional diagnostics. The purpose of the invention is to improve the accuracy of the replethysmographic study by registering the instability of the probing current. The rheoplethismograph contains a probe current generator 1, current electrodes 2, potentiometric electrodes 3, first high-frequency amplifier 4, first detector 5, output amplifier 6, recorder 7, second high-frequency amplifier 8, second detector 9, second output amplifier 10, calibration button 11 , the first resistor 12, the second resistor 13. 1 Il.

Description

The invention relates to medical equipment, namely to devices for functional diagnostics.

The purpose of the invention is to improve the measurement accuracy by recording the instability of the probe current.

Figure 1 presents the functional diagram of the device.

The reoplethysmograph contains a probe current generator 1, current electrodes 2, potentiometric electrodes 3 connected in series with a first high frequency amplifier 4, a first detector 5, a first 15 output amplifier 6, a recorder 7, and potentiometric electrodes connected to the input of the first high frequency amplifier 4.

The second 20 high-frequency amplifier 8, the second detector 9, the second output amplifier 10, the output of which is connected to the second input of the recorder 7, are connected in series. The calibration button 11, the first resistor 12, and the second resistor 13 are connected in series. The common point of the resistors 12, 13 connected to the first current electrode 2 and the first input of the high-frequency amplifier 8, the first output of the generator 1 is connected to the second contacts of the button 11 and the second resistor 13, and the second input of the high-frequency amplifier 8, the second output of the generator 1 is connected n to the second current electrode.

Reoplethysmograph works as follows.

The probe current generator 1 provides a constant high-frequency probe current when the impedance changes between the current electrodes 2 superimposed on the biological object. A resistor 13 of magnitude 100 Ohms is connected in series to the circuit of current electrodes 2, which has practically no effect on the value of the probing current, since its value is much less than the expected value of the impedance between the current electrodes. In parallel with resistor 13, a first high-frequency amplifier 8 is connected, the signal from the output of which goes to the first detector 9 and through the first output amplifier 10 to the $$ 7 recorder. If the probe current is unstable due to pulse changes in impedance, 13 is allocated on the resistor voltage proportional to the instability of the probe current.

Simultaneously with recording the instability level of the probe current at the recorder 7, a reoplethysmogram is recorded using potentiometric electrodes 3, a second amplifier 4, a second detector (5 and an output amplifier 6.

When calibrating the recording channel of instability of the probe current parallel to the resistor 13 using the button 1 1, a reference resistor 12 is connected, which provides a normalized relative change in resistance in the current circuit.

Simultaneous recording of the reopletiogram and the level of relative instability of the probing current makes it possible to evaluate the reliability of reoplethysmography, which is the higher, the lower the relative instability of the probing current.

Claims (1)

Claim A rheoplethysmograph containing a probe current generator, current electrodes, potentiometric electrodes connected in series, a first high-frequency amplifier, a first detector / first output amplifier, a recorder, potentiometric electrodes are connected to the inputs of the first high-frequency amplifier, and - | In order to increase the measurement accuracy by recording instability of the probe current, a second high-frequency amplifier, a second detector, a second detector, a second output amplifier, the output of which is connected to the second input of the recorder, are connected in series calibration, the first resistor, the second resistor, the common point of the resistors is connected to the first current electrode and the first input of the high-frequency amplifier, the second input of which is connected to the second terminals of the button and the second res torus, as well as with the first output of the probe current generator, the second output of which is connected to a βτο-th current electrode.