SU819742A1 - Device for measuring biological tissue resistance - Google Patents

Description

(54) DEVICE FOR MEASURING THE RESISTANCE OF BIOLOGICAL TISSUE

The first and second receiving electrodes are rigidly connected to the second and first generator electrodes, respectively, to form pairs of electrodes, the distance between which is equal. 2-4 diameters of the electrode.

The drawing shows a functional diagram of the device.

It contains the master oscillator 1, the main amplifier 2, the generator 3 and 4, the receiving 5 and 6 electrodes of the signal processing unit 7, the registrar 8, additional amplifiers 9 and 10, the adder 11.

Each pair of opposite electrodes, for example, a generator 3 and a receiver 5, rigidly connected to each other at a mutual distance equal to 2-4 diameters of the electrodes, is placed on opposite sides of the patient's torso. The distance between the pairs of electrodes is an order of magnitude longer than the distance between the electrode and the my pair.

Through the generator electrodes 3, 4, current from generator 1 is supplied to the patient. A signal proportional to the amount of tissue resistance is taken from the receiving electrodes. Due to the relatively large distance between the receiving electrodes 5, 6, they receive a signal reflecting the researcher's characteristics of resistance in the deeper tissues 13 of the body and the interference signals superimposed on them, which are formed due to the oscillation of the transient resistance and resistance near the electrode zones 12 when the electrodes move. Signals that characterize only the processes in the near-electrode zones 12, i.e. parasitic variations of resistance when moving electrodes. The useful and interfering signals are amplified primarily and with additional amplifiers, and then algebraically added to the adder. In this case, the parasitic interference signals are mutually destroyed. The interference-free useful signal is fed to the signal processing unit 7, where the signal is demodulated. Signal processing can be performed, for example, by a synchronous demodulator. To provide synchronous demodulation. The signal processing unit 7 is supplied with a voltage. (reference signal) from generator 1. The signal can be recorded, for example, with a tape recording or in any other way.

The use of the invention for measuring the resistance or impedance of human biological tissues in the physiological studies of labor and sports processes improves the accuracy of measurements.

without complicating the operation.

Claims (1)

Invention Formula A device for measuring the resistance of biological tissue, containing a series-connected signal processing unit and a recorder, as well as a master oscillator, the first and second outputs of which associated with the first and second generator electrodes, and the main amplifier, one input of which is connected to the first receiving electrode, and the other to the second receiving electrode, which is different from the fact that, in order to improve accuracy in the motor activity of the measurement object, it is equipped with two additional amplifiers and an adder, the output of which is connected to the input of the signal processing unit, the first input-to the output of the main amplifier, and the second and third entrances - to the outputs of the first and second additional amplifiers, respectively, with one input of the first additional amplifier connected to one input of the main amplifier, the other input of which is connected to the first the input of the second additional amplifier connected to the first input of the master oscillator by the second input, and the second output of the latter connected to the second input of the first additional amplifier, the first and second receiving electrodes being rigidly connected respectively to the second and first generating electrodes to form a pair of electrodes, distance between which is 2-4 diameter of the electrode. Sources of information taken into account during the examination 1. Naumenko A.I., Skotnikov V.V. Basics of Electroplethysmography. L., Medicine, 1975, p. 71, fig. 22 S G b ti - / bh