UA63231A - Device for analysis of a sedimentation system - Google Patents

Abstract

The proposed device for analysis of a sedimentation system contains a cuvette from transparent material, which shall be filled with suspension of microparticles in liquid medium, and a holder designed for keeping the cuvette in vertical position. Theholder is designed as a vessel with a cover from opaque material. In the holder cover, a horizontal opening is made that is intended for installing a light source and a photodetector in it. The light source and the photodetector are installed at the opposite end parts of the said opening, so that the centerline of the light source and a photodetector is perpendicular to the vertical axis of the cuvette. The output of the photodetector is connected to the input of an electronic time interval meter.

Description

Description of the invention

The invention relates to physics and biophysics, in particular, measuring technology, and can be applied in 2 scientific studies of the processes of interaction of microparticles suspended in a liquid medium, including cells, in particular, in clinical and laboratory practice, for example, when setting up a test reaction on the sedimentation rate of erythrocytes .

A well-known device for studying the sedimentation system, which includes a cuvette made of optically transparent material for the suspension of microparticles in a liquid medium and a tripod for holding the cuvette in a vertical 70 position 11. The most common example of a known device is an apparatus for determining the erythrocyte sedimentation rate (ESR), in which the function cuvettes with a suspension of microparticles - blood cells, mainly erythrocytes in citrated blood plasma are carried out by a glass graduated capillary.

The disadvantage of the known device is the lack of accuracy and manufacturability of the research, which is connected with the necessity provided in the device to carry out visual registration of the sedimentation process by 12 simple observation of the displacement of the meniscus in the cuvette along the line of division of the cell-environment system relative to the dashed scale divisions applied to the capillary, which are registered in millimeters for a certain period, for example, one hour.

The invention is based on the task of improving the known device, in which, by introducing a unit for automatic registration of the speed of the sedimentation process, an increase in the accuracy of the measurement and 20 manufacturability of the research, and an expansion of the scope of application are achieved.

The task is solved by the fact that in the known device for studying the sedimentation system, which includes a cuvette made of optically transparent material for the suspension of microparticles in a liquid medium and a tripod for holding the cuvette in a vertical position, according to the invention, the tripod is made in the form of a container with a lid made of opaque material, and a light-optical channel with 22 installed is drilled in the cover. In it, a light source and a photosensor, and the light-optical channel is directed "horizontally, and the light source and the photosensor are installed at opposite ends of the light-optical channel in such a way that the axis of the light source - photosensor is oriented at right angles to the vertical axis of the cuvette with a cellular sedimentation system, and the photosensor is electrically and functionally connected to an electronic minute meter. -- 30 List of drawing figures. co

Fig.1. The general scheme of the structure of the device for studying the sedimentation system: 1 - cuvette made of optically transparent material; c 2 - tripod for holding the cuvette; co

C - cover made of opaque material; 325 4 - optical channel; ke, - light source; 6 - photo sensor; 7 - power supply and control unit; « 8 - electronic minute meter. WITH

Fig. 2. Scheme of operation of the device for studying the sedimentation system: c A - the optical axis passes along the liquid-microparticle distribution line;

Из» B - the optical axis passes through a layer of suspension of microparticles; 1 - cuvette made of optically transparent material; 4 - optical channel; 9 - liquid component of the sedimentation system; b 10 - a layer of suspension of microparticles. оз The device for studying the sedimentation system consists of a cuvette 1 of a cylindrical shape, made of optically transparent material, for example, glass, which is placed in a vertical position in a stand 2 in the form of a container, and the upper edge of the cuvette 1 is limited by a cover C of opaque material, in which with 20, a light-optical channel 4 is drilled, at one end of which a light source 5 is installed inside, and at the opposite end - a photosensor b, for example, a photodiode or a photoresistor, and the light source 5 and the photosensor 6 are electrically and functionally connected to the power supply unit 7 and control and electronic minute meter 8.

The device for studying the sedimentation system works as follows. In the preparatory period, on the cuvette 1 29, along the upper edge, they are installed in the cover З and are verified in the functioning of the ones placed in c. optical channel 4 light source 5 and photo sensor 6. When channel 4 is free for light flow, photo sensor b is activated, which is accompanied by light and sound signals of the corresponding indicators (not marked in the figure) on the power and control unit 7.

When studying the sedimentation process, a suspension of microparticles, for example, erythrocytes in citrate plasma, is introduced into cuvette 1, pre-installed in tripod 2. At the same time, the level of the optical channel 4 is set below the upper level of the suspension of microparticles in the cuvette 1, after which, by pressing the start button (not marked in the figure), the timer of the sedimentation process that has begun is turned on. The period of time when the light-optic channel 4 is covered by an opaque suspension of cells corresponds to the duration of the sedimentation of microparticles in suspension at a given distance (from the upper level of the liquid to the center line of the light-optic channel 4): as soon as the level of suspended cells in the suspension becomes lower than the center line of the light-optic channel 4, it immediately activates the photo sensor will automatically stop counting time with a minute meter 8. At the same time, the main informative indicators of the sedimentation process are the path covered by microparticles in a liquid medium, which is arbitrarily chosen during the study, as well as the time for which the microparticles collectively overcome this

The path of the sedimentation process, according to the properties of the system as a whole in specific conditions.

Example 1. To study the sedimentation reaction of blood, 2 ml of 590 sodium citrate solution and 0.5 ml of freshly collected donor blood were first introduced into the working cuvette. After thorough mixing, 2 ml of citrate blood solution was introduced into the glass cuvette of the device and covered with a light-proof cover, setting the axis of the optical channel at the level of TOmm below the upper meniscus of the blood solution in the cuvette. At the same time, they turned on the light source and the electronic minute meter, setting zero on its information board. After a certain period of time, the light-optical and sound indicators of the minute meter worked, which testified to the achievement of sedimentation of cells in the citrate plasma in the cuvette at the level of 1 Ohm. The cell sedimentation time was 44 minutes. or 13, bmm/h.

Example 2. The speed of the sedimentation process in isolated stabilized blood and a suspension of zeolite flour under the influence of a magnetic field was investigated with the proposed device. The aforementioned sedimentation systems in the cuvette were acted upon by a permanent magnetic field (PMF) with a strength of 200 oersted from a distance

BbbBmm with the horizontal orientation of the magnetic induction vector, that is, perpendicular to the gravitational field vector, which coincided with the longitudinal axis of the cuvette. Exposure to the influence of a permanent magnetic field - ЗОхв.

The results of the research are given in the table. in the liquid environment of sleep, EEG studies (observations, p | mm/h sovno plot Life 5 Not in: rosveda 1 tp 1775178. laz rov « and pmp | yav 1777711vee/ loBOOE

From the data presented in the table, it can be seen that the same physical factor, namely PMP, has a different effect on the sedimentation of living cells - blood erythrocytes and mineral microparticles. Attention is drawn to the high level of reproducibility of research results, which determines its accuracy and informativeness. The given results indicate the possibility of researching various sedimentation systems under the influence of various factors of physical, chemical and biological nature. co

Thus, the proposed device provides a higher level of manufacturability, accuracy, and therefore informativeness of the research than the prototype, and will be able to find application in the practice of laboratory research. (Se)

The source of information that should be taken into account: 1 Sedimentation of red blood cells. V.A. Almazov / Big medical encyclopedia. M, 1981, T.17.-P.442-443.

Claims (1)

The formula of the invention is a device for the study of the sedimentation system, which includes a cuvette made of optically transparent material for the suspension of microparticles in a liquid medium and a tripod for holding the cuvette in a vertical position, which is characterized by the fact that the tripod is made in the form of a container with a lid made of light-proof material, and a light-optical channel with a light source and photosensor installed in it is drilled in the lid, (22) and the light-optical channel is directed horizontally, and the light source and photosensor are installed at opposite ends of the light-optical channel in such a way that the axis of the light source - photosensor is oriented in a straight line at an angle to the vertical axis of the cuvette with the cellular sedimentation system, and the photosensor is electrically and functionally connected to the electronic minute meter. at 50 R 60 b5