RU2256917C1 - Method of determining dynamic of change in erythrocyte sedimentation velocity and device for implementation of the method - Google Patents

Abstract

FIELD: analytical methods in medicine.

SUBSTANCE: method comprises mixing blood sample to be examined with anticoagulant, placing resulting solution into vertically oriented capillary, and measuring, with equal time intervals, height of erythrocyte-free plasma layer. More specifically, blood with anticoagulant is poured by means of automatic dispensing means into hematocrit capillary, lower end of which is tightly sealed, capillary is placed vertically in centrifuge pocket, and measurement of the height of erythrocyte-free plasma layer is performed, with equal time intervals, at angular velocity not higher than 50 ppm over a specified period of time. From data obtained, one determines maximum erythrocyte sedimentation velocity value and plots corresponding graph. Proposed device contains pockets for vertically positioning capillaries with test blood dose and measuring means as well as above-mentioned centrifuge having removable rotor mounted horizontally on motor shaft and control block enabling operation of centrifuge in step-running mode and in continuous-rotation mode. Rotor is provided with peripherally arranged pockets for accommodating at least 90 capillaries.

EFFECT: increased determination reliability.

7 cl, 4 dwg, 1 tbl

Description

The invention relates to medicine, namely to the automation of laboratory clinical research methods. The invention can be used in the field of laboratory clinical diagnostics when conducting mass examinations of patients or with a large number of similar analyzes conducted during an individual examination.

At present, in clinical laboratory practice, the indicator erythrocyte sedimentation rate (ESR) is widely used as a non-specific test for a wide variety of diseases, as well as for research purposes when working with toxic substances and pharmaceutical agents in vitro.

The most common method for determining the erythrocyte sedimentation rate (ESR) is the method for determining the erythrocyte sedimentation rate according to Panchenkov. A special capillary tube (pipette), previously washed with an anticoagulant solution, is filled with a mixture of blood with an anticoagulant and placed in a special tripod. After 1 hour, the value of the plasma column freed from red blood cells is counted by divisions on a capillary pipette. In another embodiment, a fractional study is carried out (according to Friedman): two readings are made in 2 hours and the results are compared to obtain a erythrocyte sedimentation index. The disadvantages of these methods, especially with a large volume of studies, are the laborious procedure for washing the capillary pipette, the need to fill it with a relatively large the amount of blood (up to 0.2 ml), as well as the monotony of the dynamics of sedimentation, often leading to insufficient reproducibility of the results due to the dependence of the sedimentation rate on a combination of random factors, the main of which is the formation of random local blood clots inside the capillary in the process of erythrocyte sedimentation.

It was recognized that a single measurement within an hour or two hours after placing a blood sample in a tube, giving only an average value, is insufficient. So, often the value of ESR of patients is within normal limits and, conversely, the value of ESR of people without apparent pathologies can lie beyond it. In this regard, increasing the information content of the test is highly desirable.

Recently, in medicine and biology, more and more attention has been paid to the dynamic characteristics of ESR.

The closest analogue of the proposed method is a method for determining the dynamics of changes in the erythrocyte sedimentation rate, including mixing the test blood sample with an anticoagulant, sampling the resulting blood solution with an anticoagulant in a standard capillary, placing it vertically, with subsequent measurement for equal periods of time the height of the plasma layer free of red blood cells (see RU 2128945 C1, 04/20/1999).

The closest analogue of the device is a device for implementing the known method for determining the dynamics of changes in the erythrocyte sedimentation rate. A known device for determining the dynamics of changes in the erythrocyte sedimentation rate contains a socket for vertical placement of the tube with the studied dose of blood and means for measuring the height of the plasma layer free of red blood cells (see RU 2128945 C1, 04/20/1999).

The known method for determining the dynamics of changes in the erythrocyte sedimentation rate and the device for its implementation also do not allow for monotonicity of the dynamics of erythrocyte sedimentation, due to which there is the possibility of insufficient reproducibility of the results of changes.

The technical result of the invention is to increase the reliability of the results of determining the dynamics of changes in ESR, especially for cases when measuring in vitro testing of various substances and preparations, the possibility of accelerating erythrocyte sedimentation to determine the maximum sedimentation rate in a relatively short time, reducing the amount of blood needed for the study, as well as reducing labor costs by increasing the manufacturability of serial measurements by using single capillaries.

This is achieved by the fact that in the method for determining the dynamics of the erythrocyte sedimentation rate, including mixing the test blood sample with an anticoagulant, sampling the obtained blood solution with an anticoagulant in a capillary, placing it vertically, followed by measuring at regular intervals the height of the plasma layer free of red blood cells, the solution blood with an anticoagulant is poured using an automatic dispenser into a hematocrit capillary, the lower end of which is hermetically sealed, a capillary is placed vertically to the centrifuge’s nest, and the measurement of the height of the plasma layer free of red blood cells is carried out at regular intervals in the rotation mode of the centrifuge with an angular speed of not more than 50 rpm for a given time interval, the maximum value of erythrocyte sedimentation is determined from the obtained data and a dynamics graph is constructed erythrocyte sedimentation. To increase the information content of the study, the dynamics of the erythrocyte sedimentation rate are plotted based on the measurement results. In this case, the measurement of the height of the plasma layer free of red blood cells is carried out in a step-by-step mode of operation of the centrifuge or automatically in the rotation mode of the centrifuge.

This is achieved by the fact that the device for determining the dynamics of changes in the erythrocyte sedimentation rate, containing sockets for vertical placement of capillaries with the studied dose of blood and means for measuring the height of the plasma layer free of red blood cells in the studied dose of blood, is equipped with a centrifuge including a removable horizontally mounted on the axis of the engine the rotor, and the engine control unit with the possibility of ensuring the operation of the centrifuge in step mode and in continuous rotation mode, and the removable rotor is made according to imetru with slots for the placement of capillaries in an amount of not less than 90, and the capillaries are in the form of single capillary hematocrit.

The rotor can consist of two identical disks located coaxially one above the other and fastened by uprights, through holes are made along the perimeter of the upper disk, and grooves are made along the perimeter of the lower disk, and for the formation of nests for vertical placement of capillaries when the disks are aligned, the holes of the upper disk are above the grooves lower disk, and the motor can be mounted horizontally in a tripod.

The present invention allows us to measure in a glass capillary not only the speed and dynamics of erythrocyte sedimentation during the first hour after venous blood is withdrawn, but also the maximum sedimentation value, which is usually determined after longer periods of time - 6 and 12 hours. The invention improves the reliability and accuracy of the study of erythrocyte sedimentation rate (ESR) and can be used in medical and research institutions for diagnostic purposes, disease monitoring, studies of the effects of drugs on the patient’s body and the study of specific blood reactions in vitro tests in response to exposure to various drugs and substances that accelerate or slow down the erythrocyte sedimentation. Instead of standard reusable capillaries, standard disposable capillaries for a hematocrit centrifuge are used, which are filled with blood using an automatic dispenser, and erythrocyte sedimentation takes place in KARUSELI, a special centrifuge in which blood cells in a capillary are affected by two mutually perpendicular forces: gravity, vector which is directed vertically downward, and by centrifugal force, the vector of which is directed horizontally from the center of rotation. The use of disposable standard hematocrit capillaries and their filling with an automatic dispenser significantly increases the technological effectiveness of analyzes: the capillaries are fully prepared for work in the factory manufacturing process, including washing with an anticoagulant. The use of an automatic dispenser for filling significantly increases the accuracy of measurement, does not require eye strain, maintenance of hands becomes purely mechanical. Under the influence of centrifugal force, blood cells are discarded on the capillary side external to the axis of rotation, as a result of which the subsidence corresponds to an “avalanche flow along the slope” that does not create local thickenings of random order. The latter circumstance leads to the monotonous dynamics of subsidence during the entire subsidence process and significantly reduces the time of complete subsidence.

In addition, from the existing methods for determining the erythrocyte sedimentation rate, the proposed method differs in the following: 1) the reproducibility error decreases and the sensitivity and accuracy of determining the sedimentation rate increases due to the use of other physical conditions of the sedimentation of blood cells; 2) after determining the ESR, the same blood sample in the same capillary can be subjected to further research already in a conventional hematocrit centrifuge to determine the hematocrit value; 3) the use of a hematocrit capillary instead of a thick-walled tube simplifies the task of photometric registration of blood cell sedimentation, since a thin-walled tube of small diameter has a weak light-scattering effect.

The invention is illustrated by the drawings shown in figures 1-4.

Figure 1, 2, 3 presents a schematic representation of the rotor. Figure 3 - curves of the dynamics of sedimentation of red blood cells of a blood sample No. 2.

A device for determining the dynamics of changes in the erythrocyte sedimentation rate includes a Carousel centrifuge containing a removable horizontal rotor 1 mounted on the axis 2 of the stepper motor 3 of the SDR 700 type. Rotor 1 consists of two identical disks 4 and 5 located coaxially one above the other and fastened by racks . Through holes 6 are made along the perimeter of the upper disk 4, and grooves 7 are made along the perimeter of the lower disk 5.

The disks 4 and 5 are fastened in such a way that the holes 6 of the upper disk 4 are exactly above the grooves 7 of the lower disk 5 and form slots for vertical placement of the capillaries 8 with the horizontal position of the rotor 1. The removable rotor 1 is connected to the axis 2 of the stepper motor 3 by means of an clutch wheel 9, rigidly mounted on the axis 2 of the motor 3. The stepper motor 3 is mounted in a tripod, providing horizontal installation of the plane of the rotor 1. The control of the stepper motor 2 is carried out in a standard way in two modes: a) step-by-step - the number of command pulses arriving at the motor windings after a single pressing of the control key provides the rotation of the rotor corresponding to movement by 1 capillary; b) continuous rotation with an angular speed of not more than 50 rpm

The method is as follows.

The hematocrit capillary 8 is inserted with the tip into a single tip of the automatic dispenser. Using a dispenser, the capillary 8 is filled with the test blood, previously mixed with an anticoagulant, and, if this corresponds to the purpose of the study, with the test substance. The lower end of the filled capillary 8, without removing from the dispenser, is sealed with plasticine in accordance with the standard procedure for determining hematocrit, and then removed from the dispenser. Clogged from the lower end of the capillaries 8 are inserted into the nests of the disk rotor 1 of the centrifuge and turn on the motor 3 for operation in continuous rotation mode with an angular speed of not more than 50 rpm. Every 5 minutes, engine 2 is switched into a step-by-step mode and the value of the height of the plasma layer free of red blood cells is read using the means for measuring the height of the plasma layer in the studied blood dose: measurement scale 11 with backlight 12 and magnifier 13. After 30 minutes, the measurements are completed. Based on the obtained values, a graph of sedimentation dynamics is plotted for each capillary 8, and, if necessary, the first derivative is a graph of sedimentation velocity dynamics. In the presence of means for automatically reading the movement of the boundary between the transparent plasma layer and the erythrocyte layer, measurements are carried out directly during the rotation of the rotor. The resulting graph of erythrocyte sedimentation dynamics characterizes the state of the blood sample being examined.

Example. Table 1 shows the values of the erythrocyte sedimentation rate obtained by the classical Panchenkov method for 5 blood samples taken from different patients, and the values of the sedimentation dynamics curve of the same blood samples obtained using the present invention.

From the presented data it can be seen that the values of the erythrocyte sedimentation for the studied blood samples obtained by the proposed method allow us to determine the maximum erythrocyte sedimentation values in a relatively short time due to the acceleration of erythrocyte sedimentation. The curves of erythrocyte sedimentation dynamics of blood sample No. 2, obtained by the classical and proposed methods, are presented in figure 4.

Table 1 ESR value classical method (for the first hour), mm / hour blood samples No. 1 Number 2 No. 3 Number 4 Number 5 4 8 17 5 32 erythrocyte sedimentation value classical method (for the first 12 hours, mm) 17 23 28 21 29th settling dynamics defined in “KARUSELI”, mm time min 5 4 8 14 6 23 10 7 thirteen 22 10 29th fifteen 10 17 26 14 31 twenty thirteen twenty 28 17 32 25 fifteen 23 29th 19 32 thirty 17 24 29th 21 32

Claims (7)

1. A method for determining the dynamics of changes in the erythrocyte sedimentation rate, including mixing the test blood sample with an anticoagulant, sampling the resulting blood solution with an anticoagulant in a capillary, placing it vertically, with subsequent measurement at regular intervals of time, the height of the plasma layer free of red blood cells, characterized in that blood solution with anticoagulant is poured using an automatic dispenser into a hematocrit capillary, the lower end of which is hermetically sealed, the capillary is placed vertically in g there is no centrifuge, and the measurement of the height of the plasma layer free of red blood cells is carried out at regular intervals in the rotation mode of the centrifuge with an angular speed of not more than 50 rpm for a given time interval, according to the obtained data, the maximum value of erythrocyte sedimentation is determined and a graph of sedimentation dynamics is constructed red blood cells. 2. The method according to claim 1, characterized in that according to the measurement results build a graph of the dynamics of the erythrocyte sedimentation rate. 3. The method according to one of claims 1 and 2, characterized in that the measurement of the height of the plasma layer free of red blood cells is carried out in a step-by-step mode of operation of the centrifuge. 4. The method according to one of paragraphs. 1 and 2, characterized in that the measurement of the height of the plasma layer free of red blood cells is carried out automatically in the rotation mode of the centrifuge. 5. A device for determining the dynamics of changes in the erythrocyte sedimentation rate, containing sockets for vertical placement of capillaries with a test dose of blood and means for measuring the height of a plasma layer free of red blood cells in a test dose of blood, characterized in that it is equipped with a centrifuge comprising a horizontal axis the engine is a removable rotor, and the engine control unit with the ability to ensure centrifuge operation in step mode and in continuous rotation mode, and the removable rotor is made by perimeter with nests for placement of capillaries in an amount of at least 90, and the capillaries are made in the form of single hematocrit capillaries. 6. The device according to claim 5, characterized in that the rotor consists of two identical disks located coaxially one above the other and fastened by uprights, through holes are made along the perimeter of the upper disk, and grooves are made along the perimeter of the lower disk, and for the formation of nests for vertical placement of capillaries when combining discs, the holes of the upper disk are located above the grooves of the lower disk. 7. The device according to claim 6, characterized in that the motor is mounted in a tripod.

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