CS255273B1 - ZaHzenf for measuring the time of blood or blood plasma milling - Google Patents

Abstract

The device for measuring blood or blood plasma clotting time is intended for the investigation of coagulation parameters of blood or blood plasma in hematology laboratories. The measuring system contains a test tube with a loosely placed steel ball, which also contains the sample to be examined. The steel ball is pulled out of the bottom of the test tube by an electromagnet with beveled pole extensions. The lower and upper positions of the steel ball are objectively sensed by two position sensors in a groove that is temperature stabilized. At the moment when the steel ball reaches the upper position due to the electromagnetic field, the electromagnet is switched off and the ball falls to the lower position by gravity, the electromagnet is switched on again and the process is repeated until the moment of sample clotting, when the movement of the ball stops. This is registered as the end of the test.

Description

The invention relates to a device for measuring the clotting time of blood or blood plasma. Known and manufactured devices for testing the clotting time of blood or blood plasma use moving mechanical parts as a test probe. Buato is a steel ball tube placed between two poles of the permanent magnet and the mechanism moves it in the vertical direction. The tube is filled with the necessary reagents and the sample of blood or blood plasma to be examined. At the moment of formation of the coagulum, the steel ball is pulled out of the magnetic field by the coagulum, which is registered by the photoelectric sensor. Another method used to read the moment of precipitation of a sample is by forming a fibrin fiber between two electrodes, which also move in the vertical direction.

Both described methods have the disadvantage of having to precisely adjust the distance of the permanent magnet from the ball tube, or adjust and clean the described measuring electrodes.

In addition, mechanical parts of the apparatus wear over time and the results they produce are not reliable and reproducible.

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These drawbacks are overcome by the apparatus for measuring the clotting time of blood or blood plasma according to the invention, which consists in that the glass tube with a steel ball is clamped in a thermally stabilized non-magnetic holder, which is provided with both marbles. The thermally stabilized non-magnetic holder is mounted between two beveled pole pieces of the electromagnet.

By using the blood or blood plasma clotting time measuring device according to the invention, there is no need to clean the electrodes, do not adjust their optimal distance, do not adjust the magnetic field intensity, and since there are no moving mechanical parts, wear.

The movement of the steel ball, which is actually the measuring probe of the device, is indicated objectively by sensors. This results in accelerated measurements and more accurate results.

A practical embodiment of the invention is shown in the accompanying drawing, in which a section of a device for measuring the clotting time of blood or blood plasma is shown.

A steel ball 4 is freely mounted in a glass tube 2 <which is clamped in a thermally stabilized nonmagnetic support 2 · thermally stabilized nonmagnetic support 2 j ^e provided with a sensor 6, the upper position of the steel balls 4, and sensor 2 lower position the steel balls 2 · whole temperature stabilized nonmagnetic holder 2 ^te fixed between the two tapered pole pieces of the electromagnet 2.

A steel ball 4 is loosely stored together with the measured sample, comprising the necessary reagents in a glass tube 2 »which is clamped in a temperature stabilized mount 2 nonmagnetic nonmagnetic support 2 · d ^e sensor 5 comprises a lower position ^and steel balls 2 sensor 6. Top position Steel Balls 2 · The whole non-magnetic holder 2 3 ^{e is} fixed between two beveled pole pieces 2 of the electromagnet. Using a semi-automatic pipette, a sample of blood or blood plasma is injected into a test tube, and at the same time an electrical signal is triggered to provide power to the solenoid coil and start timing. The electromagnetic field between the pole pieces 2 pulls the steel ball 2 up.

* This condition is detected by the steel ball upper sensor 6, reaching this state, the device turns off the solenoid power supply and the steel ball 17 moves freely to the lower position after the electromagnetic field has disappeared. This state is detected by the down position sensor 2.

Upon reaching this state, the device switches on again the power to the electromagnet and repeats the described process until a clot is formed. at this point, the ball becomes trapped either in the position between the down position sensors 5 and the up position sensor 2 or remains in the range of the down position sensor 2 or the magnetic field of the electromagnet is not sufficient to pull the ball out of the down position sensor 2.

The described situation is evaluated by the device circuits as a clotting condition and stops the countdown time. At the same time, it moves this value of time into memory.

A microprocessor system can be advantageously used as a device for controlling the electromagnet, reading the time and storing the values in the memory.

The invention can advantageously be used for testing blood or blood plasma clotting in hematology laboratories, transfusion service, and f, in the case of investigations of blood clotting disorders or in assessing the effect of anti-clotting treatment.

Claims (1)

SUBJECT OF THE INVENTION Apparatus for measuring the clotting time of a blood or blood plasma in which the steel ball is loosely contained in a glass tube characterized in that the glass tube (1) with the steel ball (4) is clamped in a temperature stabilized non-magnetic holder (3). a sensor (5) of the lower position of the steel ball (4) and a sensor (6) of the upper position of the steel ball (4), the temperature stabilized non-magnetic holder (3) being fixed between two beveled pole pieces (2) of the electromagnet.