SU1668920A1 - Oxyhemometer - Google Patents

Abstract

The invention relates to medical technology, in particular to devices for measuring the concentration of oxyhemoglobin in the blood when conducting an operation using an artificial blood circulation apparatus (AIC). PURPOSE OF THE INVENTION IS TO IMPROVE THE RELIABILITY BY DECREASING SEPTIC COMPLICATIONS. This object is realized by the introduction of the known devices SWITCHING UNIT 7, whose inputs are connected to a source 1 of light beams for which an semiconductor injection laser. CONSTRUCTUALLY THE DEVICE IS COMPLETED SO THAT CAN BE REMOVED ON THE AIC HIGHWAY, just before the start, and if necessary during the operation. Thus, the dismantling of the AIC is not required and, consequently, the associated additional sterilization. 1 il.

Description

About ON 00 U

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The invention relates to medical technology, namely to devices for measuring the concentration of oxyhemoglobin in the blood when performing operations using heart-lung machines (AIC).

The chain of isobregnation is to increase credibility by reducing septic faults.

The drawing shows a functional diagram of the oximeter.

The oximeter contains two sources of radiation 1, emitting in a pulsed mode, collecting lenses 2 and diaphragms 3, forming collimated light beams from both sources, a cylindrical cell -1 with a blood sample, a photodetector 5 registering radiation scattered on blood cells, amplifier 6 commuting device 7 and registration system 8.

Semiconductor injection lasers with an AI wavelength of 0.76 μm and H2 - 0.90 μm switched on alternately with a frequency f - (0 kHz and a pulse duration of 2 μs) are used as source I radiation. each uiro and 1 lasers is 50 mW. The optical paths of the cylindrical collectors are (ii 2 g with a focal length of 3 mm and more), and the diaphragm of 35x1 mm. Silicon batteries with sensitivity in op are used as photo detectors 5 with .kgratnnh ranges of 0.3 A / W.

About w «the joint works as follows.

Radiation from the alternately switched on semiconductor lasers 1 using collecting slender lenses 2 and diaphragm 3 forms P modulated light beams with divergence angles of 5 ° and illuminates the blood flow i.0 kept in a cylindrical shape 4 emitting from a blood sample radiation p - p OFMR / ETS photodetector 5. FPGOTO:; The photodetector5 is amplified by the amplification of the switching signal. 6. The switching signal 7 emits the impulses of the current corresponding to the radiation pulses of each of the sources. The amplified and selected signals then go to the recording unit 8, where the amplitudes are analyzed and processed.

The device is made in such a way

what can be placed on the AIK highway immediately before the start, and if necessary during the operation. Thus, the dismantling of the AIK is not required and, therefore, additional sterilization associated with it.

The device implements such a registration geometry of radiation scattered in a blood sample, which is influenced by individual

the scattering properties of each specific blood are minimized and the relative error in measuring the degree of saturation with oxygen does not exceed 2%. Photo detector 5 is located at an angle of 90 °

Claims (1)

with respect to the axis of the laser probe beams propagating one towards the other, and the axis of the tube 4 with blood. The invention: An oximeter containing an optical cell, two sources of collimated light beams, the axes of which are perpendicular to the surface of the cell, and the wavelengths lie on both sides of the isobesthetic wavelength of 0.8 µm, a photodetector and a recording unit that differs in that, in order to increase reliability by reducing septic complications, a switching unit was inserted into it, the inputs of which are connected to the sources light beams, which are used as semiconductor injection lasers, located on the same straight line on both sides of the cell and emitting towards each other, as a flow The cuvette used a transparent cylindrical tube connected to an artificial blood circulation apparatus, and the photodetector is located at an angle of (90 ± C, 2) ° relative to the axis of the light beams and its output is connected to the input of the switching unit, the output of which is connected to the input of the recording unit .