SU1161081A1 - Converter of oxygen partial pressure - Google Patents

Abstract

CONVERTER oxygen partial pressure, comprising measuring and kislorodopotrebl yunschy electrodes, characterized in that, in order to increase the time measurement and evaluation values of diffusion and hydrodynamic transport of oxygen in the test tissue site kislorodopotrebl yuschggy electrode vtolnen movable relative to the working surface, and measuring mic. The electrodes are symmetrically distributed over the cross section of the housing, with some of them being recessed relative to the working surface. (L with

Description

Oi

about

00

eleven

The invention relates to electrochemical measurements of the concentration of substances and can be used in experimental and clinical medicine and biology to determine the oxygen pressure in biological objects.

The purpose of the invention is to increase the time of measurement and evaluation of the value of diffusion and hydrodynamic oxygen transport in the tissue site under investigation.

 FIG. 1 shows schematically a transducer, a general view, a vertical section; in fig. 2 is a section A-A in FIG. 1.

The oxygen partial pressure transducer will clamp down the oxygen-consuming electrode 1, the working surface 2 of which is located at the end and is covered with a layer of a noble metal, such as platinum. The side surface of the electrode 1 is covered with a layer of glass. 3, The oxygen-consuming electrode 1 is installed in channel 4 of the housing 5 of the converter rigidly connected to the micromanipulator 6. The design of the micromanipulator allows you to extend or immerse

oxygen-consuming electrode I with respect to the working surface. The measuring electrodes 7.8 symmetrically distributed over the cross section of the housing 5, and part of. (7) installed on the end, and the rest (8) are recessed in the niches, Oxygen-consuming electrode 1 is connected to the moving part, micromanipulator 6 and connected to polarizer 9 and to the reference electrode 10. Measuring electrodes 7, 8 are separately connected to the switching unit 11, the measuring unit 12, the polarization unit 13 and the reference electrode 14.

The converter of the partial pressure of oxygen in biological objects works as follows.

10812

After electrochemical and biological aging of the measuring electrodes and their calibration in standard solutions with a known partial pressure of oxygen, it is introduced into the test tissue, while the oxygen consumption electrode 1 is placed at the end of the body. To the measuring electrodes through measuring blocks 12 and switching I1

serves a positive voltage. The partial pressure of oxygen is measured by measuring microelectrodes 7.8. The oxygen-consuming electrode 1 is switched on and the voltage dynamics is recorded. oxygen on the measuring electrodes. Mick) Omanipulatory 6 with a low speed extracts oxygen consumption

The first electrode 1 is from the channel to the minimum effect of its diffusion field on the diffusion field and the current value of measurable microelectrodes. The diffusion field of the oxygen-consuming electrode 1 in a stationary medium has a uniform effect on the value of the partial pressure of oxygen in the near-electrode space of the measuring microelectronics. Therefore differential

the signal between the measuring microelectrodes is missing or has. constant value. This allows monitoring by their indications that the transducer is not removed from the object, which increases the measurement time. In the presence of hydrodynamic flows, the diffusion field has a different, depending on the direction and magnitude

flow, the effect on the diffusion current of measuring microelectrodes, As a result, a differential signal is recorded, which indicates the presence of hydrodynamic oxygen transfer at the studied point of a biological object ..

/ 2

one

Claims (1)

PARTIAL OXYGEN PRESSURE CONVERTER, including measuring and oxygen-consuming electrodes1, characterized in that, in order to increase the measurement time and evaluate the diffusion and hydrodynamic oxygen transport in the studied tissue area, the oxygen-consuming electrode is made with the possibility of movement relative to the working surface, and the measuring micrometer. oelektrody symmetrically distributed over the cross section of the housing, wherein a part of them is recessed relative rabo- _Λ whose surface. 5 „1161081] 1