SU1161080A2 - Pick-up for polarographic determining of oxygen voltage in biological objects - Google Patents

Abstract

SENSOR FOR POLAROGRAPHIC DETERMINATION OF THE VOLTAGE OF OXYGEN IN BIOLOGICAL OBJECTS according to author. St. No. 765719, characterized in that, in order to increase the measurement time, the map is provided in the form of a coaxial electrode with contact elements made of platinum or gold, and the through channels are distributed at different distances from the measuring electrode.

Description

1 The invention relates to a medical technique used in the diagnosis of pathological conditions and diseases, namely, to measure the oxygen pressure in organs and tissues, and can be applied in experimental and clinical medicine and biology. The proposed sensor is an improvement of the technical solution for the main author. Saint No. 7657 The purpose of the invention is to increase the measurement time. FIG. 1 shows a schematic of the sensor, a general view; in fig. 2, section A-A in FIG. one; in fig. 3 mandrin, general view, vertical section; in fig. 4 - projection of a slice of the working surface of the mandrel sensor In the sensor case 1, a measuring electrode 2 is installed, the active end 3 of which is brought to the end surface of the sensor. Parallel channels 4 are made in the housing in parallel with the electrode 2 and removed in the electrode space of the measuring electrode 1 at different distances from the active end 3. In the initial state, the first 5 and the second 6 are arranged in channels 4, the latter being in the form of a coax electrode with conductors 7, retracted at end 8 and cut on working surface 9, where contact elements 10 and 11 are located. The latter are made in the form of concentric rings of noble metal. To measure in different media and fabrics with a wide range of pH fluctuations, the contact elements of the maringers are made of one of ylatina, the other is gold. The sensor works as follows. After electrochemical and biological aging of the measuring electrode 2 and its calibration in standard solutions with a known oxygen voltage, the sensor is punctured into the object under study and fixed at a predetermined depth. The measuring electrode is connected to the recording device, a polarizing voltage is supplied, the first mandrel 5 is removed, and the free channel is connected to the vacuumizing device through a pipe (not shown). The contact elements 10 and 11, which are an oxygen-consuming macroelectrode with a divided working surface, are fed through the conductors 7 of the second mandrel 6, with a polarizing voltage. As a result of the electrochemical reaction on the contact elements, the redistribution of diffusion fields in the electrode space of the measuring electrode occurs. The initial level of oxygen voltage at the test point changes and the diffusion current of the measuring electrode decreases. The nature of these changes depends on the number of included contact elements, as well as on the distance to the measuring electrode, since the sensor channels are located at different distances from it. Compare the dynamics of the diffusion current of the measuring electrode in the calibration pacTBopjTX and obtained in the object. The vacuum device is turned on and the tests are carried out. The proposed device allows monitoring the readings of the measuring electrode of the sensor directly at a given point of a biological object, without disrupting the research process. As a result, BpeMf increases. measuring the oxygen voltage, since it eliminates the need to periodically remove the sensor from a biological object for calibration, which increases the productivity of research.

Claims (1)

SENSOR FOR POLAR-GRAPHIC DETERMINATION OF OXYGEN STRESS IN BIOLOGICAL OBJECTS, ed. St. No. 765719, characterized in that, in order to increase the measurement time, the mandrin is made in the form of a coaxial electrode with contact elements made of platinum or gold, and the through channels are led out at different distances from the measuring electrode. TRig. 1