SU589965A1 - Sensor for investigating the dynamics of liquid resorption in biological tissues - Google Patents

Description

one

The invention relates to a Medical technology, namely, to measuring and recording devices of diapnasric devices.

A device is known for determining the dynamics of fluid resorption in biological tissues, which contains two needle electrodes with a dielectric layer on their cylindrical surface, a dielectric layer fixed by one electrically insulated holder 1.

However, when this device is inserted into a biological tissue, where the test fluid is preliminarily introduced, it is difficult to achieve the constancy of the mutual location of the electrodes and the test fluid, which significantly reduces the accuracy of the test. When working with the device, one has to injure the tissue twice. In addition, information about the initial period of resorption is lost.

The aim of the invention is to improve the accuracy of the study.

This is achieved by the fact that in one of the electrodes the longitudinal channel is made, and the sections of the electrodes are turned one to the other. In addition, the electrode with a channel at the non-working end has a cannula.

The drawing schematically depicts a sensor for determining the dynamics of the absorption of fluid in biological tissues.

The sensor contains two needle electrodes, the cylindrical surfaces of which are covered with a thin layer of non-toxic dielectric 2. Both electrodes are rotated one to the other by cuts 3 and fixed on one holder 4 made of a dielectric, one of the electrodes having a longitudinal channel 5 and provided with a cannula 6. From the side the blunt end to the electrodes are attached electrical conductors-contacts 7.

The sensor works as follows. A device for introducing fluid into a tissue, such as a syringe, is attached to the cannula 6.

The electrical conductors-contacts 7 are connected to the circuit Measuring electrical resistance, after which electrodes 1 are introduced into the studied tissue site at a predetermined depth. Holder 4 fixed)

the position of the sensor on the fabric. Then turn on the electrical circuit to which the sensor is connected, and measure the resistance of the tissue by the electrodes. Then, using a syringe, a certain amount of liquid is introduced into the tissue through the electrode with a longitudinal channel 5. The inputted spacing is located between 3 electrode slices. After the introduction for the required time, the change in the resistance of the interlayer is recorded.

Claims (2)

electrodes, according to which the resorption dynamics of the fluid introduced into biological tissue is judged. The coating of the dyndry surface of the electrodes with a dielectric 2 software will detect the resistance of the sensor by changing the resistance of the sensor. The use of a sensor makes it possible to objectively investigate the dynamics of resorption of a wide variety of liquids: both electrolytes and dielectrics. This increases the speed of research, accuracy, comparability of results. The sensor allows, and subsequently to produce diagnostics, to be performed many times, it can be used both with a special and any other apparatus for measuring ac active electrical resistance or impedance that meets the requirements of measurement accuracy. 4 Claim 1. A sensor for determining the pSection of a liquid in biological tissues, containing two needle electrodes with a dielectric layer applied to their cylindrical surface, mounted on one electrically insulated holder, characterized in that, in order to improve the accuracy of the study, / A longitudinal channel is made in one of the electrodes, and the sections of the electrodes are believed to be relative to each other. 2. Software sensor. 1, characterized in that an electrode with a channel on the 1ner: has a cannula at the barrel end. Sources of information taken into account with the expertise 1. Bulletin of dermatology and venereology, 1972, № 2, p. 80-81.