SU204492A1 - DEVICE FOR POLAROGRAPHIC DETERMINATION OF THE VOLTAGE OF OXYGEN IN BODY TISSUES - Google Patents

Description

Instruments for polarizing the determination of oxygen tension in body tissues are known, containing galvanic cells, measuring instruments and a measuring circuit.

Oxygen tension with these devices can be determined only in a constant mode, which gradually reduces the sensitivity of the measuring instrument to oxygen, due to the chemo-electro-adsorption of the depolarizer and surfactants of the biological background. This leads to a distortion of the instrument readings, increasing in proportion to the time of the observation and causing instability of its work.

In addition, a significant percentage of residual current on open indicator electrodes and the presence of a certain initial level of oxygen voltage in living tissues create a high constant component of the diffusion current, so that changes that occur during the experiment or observation are usually recorded only in a small portion of the measuring scale. device.

The proposed device differs from the known ones in that it is equipped with a compensator for the constant component of the diffusion gok, made in the form of a bridge circuit. This allows you to log what is happening.

in the experience of changing the oxygen voltage at a high sensitivity of the measuring instrument, i.e., it increases the resolution of the instrument.

The device has a switch, which includes a synchronous motor, a disk drive, and a contact group, which provides a pulsed mode of operation of the device by periodically applying voltage

the indicator electrode and its closure to the non-polarizing electrode in the interval between pulses.

Pa drawing shows the basic electrical circuit of the proposed device.

The device contains a source / power supply, a potentiometric voltage divider 2, a switch 3 for supplying electrodes.

The voltage removed from the slider 2 through the button 4 goes to the measuring device (voltmeter) 5 and then to the clamps 6 and 7 of the continuous mode electrodes through the frame of the external device connected to the clamps 8 and 9, or through the six-position switch 10 shunts and set

resistances //.

In series with the power source, a load resistance 12 is connected to the electrode circuit, the potential of the ends of which is supplied to 13 and 14 external recorder. and 18 shoulders and additional resistance 19.

Switch 20 includes a synchronous motor 21, kinematically associated with a two-position switch of contact groups 22 via a disk drive 23, the profile of which determines the duration of the pulse and the interval. The movable plate of the switch is brought to the clamp 24. The winding of the synchronous motor is connected to the sockets 25 and 26.

The measurement of the oxygen voltage with the aid of the device proposed is as follows.

In continuous mode of constant potential.

The switch 3 for supplying electrodes is placed on the pole, the switch is turned on, as a result of which the source / litany voltage is applied to divider 2. Pressing button 4, the voltage is applied, removed from part of the divider, to measuring device 5. Under the control of device 5, divider voltages insert the desired voltage (usually 0.4-0.7 s). To terminals 8 and 9 connect an external galvanometer or other current device. To the terminals 13 and M connect the recorder (electronic potentiometer).

The electrodes are brought into contact with the objectoid and connected to terminals 6 (anode) and 7 (cathode is an indicator electrode).

As a result of the voltage applied to the electrodes in the circuit, a current flows, the power of which is proportional to the amount of oxygen regenerating at the cathode and is controlled by one or two external devices. If the signal exceeds the limit of the scale of the measuring device, switch 10 shunts reduce its sensitivity and include compensation with toggle switch 16.

A potentiometer on the resistance 12 sets the device to zero, after which the switch 10 shunts sets the maximum sensitivity of the measuring device.

In pulse mode. All operations described above are performed.

with the difference that the indicator electrode is connected to the clip 24.

AC mains voltage is applied to slots 25 and 26, and a synchronous motor is driven.

21 and a disk drive 23. A moving contact group 22 of the switch periodically applies a rectangular pulse to the indicator electrode, the amplitude of which is controlled by the voltage divider 2, and the duration is determined by the disk drive 25.

After the impulse the movable contact

the group is automatically short-circuited

incomplete electrode (clamp 6), in

the result is an electrochemical cleaning of the surface of the indicator electrode. The strength of the diffusion current in the circuit is measured only during the pulse period as well as in the continuous mode. Similarly, compensation is

constant component of diffusion current. The pulsed mode prevents poisoning of the electrode in the tissue and allows long-term measurement without reducing the sensitivity of the system.

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Subject invention

Claims (2)

1. A device for polarographic determination of the oxygen voltage in body tissues, containing galvanic elements, measuring devices and a measuring circuit, characterized in that, in order to increase the resolution of the device, it has a constant-current component that compensates for it. 2. The device according to claim 1, characterized in that, in order to provide a pulse mode of the device by periodically applying voltage to the indicator electrode and closing it to the non-negative electrode in between pulses, a switch is installed in it, which includes a synchronous motor, a disk drive and a contact group. .fy --- 4i -5VP / 7 1 / (171 SJT / /