SU1116373A1 - Device for measuring electrical conduction of biological tissues and liquids - Google Patents

Abstract

A DEVICE FOR MEASURING THE ELECTRICAL CONDUCTIVITY OF BIOLOGICAL TISSUES AND LIQUIDS, containing a measuring chamber with current and potential electrodes, a power source, a current limiting resistor, an ammeter connected to current electrodes, and a high-volt voltmeter connected to a potential electrode, a current meter, connected to the current electrodes, and with the current, the gauge is at the accuracy of measurement, potential electrodes are made in the form of a zigzag tape and are placed in additional chambers located on the sides of the measuring chamber and connecting with it by means of vertical pro-. Rezi in the walls of the measuring chamber. O) with sj with

Description

The invention relates to medical biophysics, namely, devices for measuring the electrical conductivity of biological tissues and fluids, and can be used in biophysical and biomedical research. A device for measuring the electrical conductivity of biological tissues and fluids, consisting of a small chamber with a volume of 0.5-5 cm, made of an insulating, chemically inert material for accommodating the biological tissue or liquid under investigation and four metal electrodes is known. Black platinum is most often used as electrodes, which allows to increase the effective electrode area and, as it is believed, reduces polarization phenomena. The device for measuring the electrical conductivity of tissues and fluids containing a measuring chamber with current and potential electrodes is closest to the present. power source; Ammeter lynx resistor voltmeter and current limiting resistor C23. The disadvantage of this device is the low accuracy of measuring the conductivity following the small surface of the potential probes. The purpose of the invention is to improve the accuracy of measurement of electrical conductivity. This goal is achieved by the fact that in a device for measuring the electrical conductivity of biological tissues and fluids, containing a measuring chamber with current and potential electrodes, a power source, a current limiting resistor, an ammeter connected to current electrodes, and a high-resistance voltmeter are connected to potential electrodes, potential electrodes are made in the form of a zigzag tape and placed in Additional chambers located on the sides of the measuring chamber and connected to it by means of a vert Ikalny slots in the walls of the measuring chamber. The drawing shows the proposed device. The device includes a measuring chamber housing 1, current electrodes 2, additional chambers 3, potential electrodes 4, slots 5 and 6 for connecting chambers, measuring chamber 7, ammeter 8, power supply 9, current limiting resistor 10, high-resistance voltmeter 11. The device works as follows image. The measurement and additional chambers are filled with the test specimen — pieces of biological tissue or liquid. Using the output voltage regulator of the current source and resistor 10, a certain value of the current flowing through the sample is set, the value of which is measured using an ammeter 8. At the same time, the high-voltage voltmeter 11 measures the voltage drop in the sample between the slots, after which Ohm is determined by the conductivity of the sample. The proposed solution allows to significantly improve the accuracy of measuring the electrical conductivity of biological tissues and fluids and can be widely used to study the viability of biological tissues, as well as to study the electrical parameters of biological objects under various physicochemical effects.

Claims (1)

DEVICE FOR MEASURING ELECTRIC CONDUCTIVITY OF BIOLOGICAL TKA- NEY AND LIQUIDS, containing a measuring chamber with current and potential electrodes, a power source, a current limiting resistor, an ammeter connected to current electrodes, and a high-resistance voltmeter connected to potential electrodes, characterized in that, in order to increase the measurement accuracy, potential electrodes made in the form of a zigzag tape and placed in additional chambers located on the sides of the measuring chamber and connected to it by means of vertical pro-cuts in the walls of the measuring cameras. SS>