RU2589679C1 - Method for thrombocyte staining after exposure to modulated ultrasound - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, specifically to laboratory diagnostics, and can be used for thrombocyte staining after exposure to ultrasound. That is ensured by preliminary processing of blood samples in vitro with modulated ultrasound with duty ratio 2, intensity of 0.05 W/cm² for 30-40 s, or intensity 0.2 W/cm² for 20-35 s, or 0.4 W/cm² for 15-30 s, or 0.7 W/cm² for 15-20 s with any modulation frequency modulation frequency range from 10 to 30 Hz or with modulation frequency 800 Hz and carrier frequency 880 kHz, as well as ultrasonic with carrier frequency 2.64 MHz, intensity 0.4 W/cm² for 15-30 s in pulsed mode with subsequent blood smear preparation and their colour differential dyes.

EFFECT: invention enables differential colouring of all blood corpuscles, including platelets.

1 cl, 2 dwg

Description

The invention relates to veterinary medicine and medicine and can be used for non-invasive examination of animal blood, pre-treated with ultrasound.

Platelets - red blood plates (Bicecero plaques); colorless polymorphic cells formed from megakaryocytes, 2-5 microns in diameter, live 8-11 days. Normal (200-400) · 10 ⁹ / l. In newborns, the platelet concentration is the same as in adults; by day 7-9 it decreases to (164-178) · 10 ⁹ / l; by the end of the second week - as in adults. An increase in the number of thrombocytosis, a decrease in the number of thrombocytopenia.

Despite the recent distribution in the laboratories of blood counters, platelets are most often counted in stained blood smears prepared using Trilon B. The method is based on the calculation of platelet count per 1000 red blood cells, followed by conversion to 1 μl of blood, based on the number of red blood cells in this volume.

Reagents:

6% solution of EDTA (ethylene diamine tetraacetate Na);

May-Grunwald eosin-methylene blue solution;

Romanovsky-Giemsa solution.

Coloring. Blood is mixed with a 6% solution of EDTA. For this, the reagent taken by the Panchenkov capillary to the mark “75” is added to the tube, then the blood taken by the same capillary is added to the mark “0”. The contents of the test tube are mixed and thin strokes are prepared. The dried smear should be uniformly thin, yellowish, of sufficient size - i.e. located 1-1.5 cm from the edges, occupy 2/3 of the length of the glass and end with a “panicle”. Thick, deep pink smears are not used, because in them the morphology of cells is poorly distinguishable.

Smears are fixed with May-Grunwald solution for 2-3 minutes. Stained with Romanovsky-Giemsa solution for 30-45 min (dilution at the rate of about 1 drop per 1 ml of distilled water should be experimentally established for each new batch of dye).

Dry smears are microscopic with an immersion lens, counting the platelet count in thin spots of the preparation (red blood cells should be located in isolation). Platelets in smears look in the form of rounded purple formations 2-4 microns in size with a clearly visible centrally located granular part - granulomer and a lighter peripheral non-granular zone - hyalomer. The calculation is carried out as follows: in each field of view of the microscope, the number of red blood cells and platelets is counted, moving the smear until at least 1000 red blood cells are counted.

It is known to prepare smears and count platelets in human peripheral blood. Equipment: a mixture of Nikiforov, slide and glass covers, gauze wipes, donated blood, capillary, Romanovsky-Giemsa paint, microscope, immersion oil, 11-key counter. A smear is prepared on defatted glass using a coverslip or slide. Clean glasses are stored until use in a mixture of Nikiforov (ether with alcohol in a ratio of 1: 1) in a jar with a ground stopper. Before blood collection, the glass is removed with tweezers and thoroughly wiped with a napkin. A drop of a 14% MgS0 ₄ solution is applied to the finger treated with alcohol, through which a scarifier is punctured. The thumb and middle fingers of the left hand take a glass slide by the rib and apply a drop of blood to the edge of the glass. Take the coverslip with your right hand, place it with a narrow edge next to a drop of blood so that it spreads in the corner formed by two glasses. A coverslip at an angle of 45 ° is carried out on a glass slide, stretching a drop with a thin layer. A well-made smear should be thin enough, slightly narrower and shorter than the glass slide, have a yellowish color and shine through. Dry the smear in air without heating. Then fixed in a mixture of Nikiforov 10 minutes, after which they are removed and dried in an upright position.

The dried smear is stained with Romanovsky paint. It should be noted that for differential platelet counting, the concentration of ink is used twice as much as for staining a smear when counting the leukocyte formula. The smear is covered with a thin layer of paint and left for 45 minutes. Then the smear is washed under running water and dried. Look under a microscope at a magnification of 90 with immersion oil using the Fonio window. Platelet counts are performed per 1000 red blood cells.

In known staining methods, platelets alone are extremely rarely stained, since in this case it is impossible or extremely difficult to take into account the rest of the formed elements. Simultaneous staining of shaped elements, including platelets, without additional cost dyes in the known methods does not occur.

The closest analogue of the claimed invention is a method of rapid differential staining of biologics DIFF-QUIK. The smears are fixed in absolute methanol for 15 s, kept in dye solutions for 10 s, washed in buffered water, dried, microscopic (Mikmed-5 microscope, lens 100x / 1.25, eyepiece 10x / 18) and the percentage of uniform blood elements [N.A. Lyubin, L.B. Konova. Guidelines for the determination and removal of hemograms in agricultural and laboratory animals with pathologies. Ulyanovsk, State Agricultural Academy, 2005, 113 pp.].

However, this method does not provide a deep and uniform coloration of platelets of all sizes, regardless of their species affiliation with any animal, the ability to count and identify the morphological features of blood platelets. We have developed a technique for simultaneous deep staining of all blood cells, while in the known staining methods when staining white blood cells it is impossible to uniformly stain platelets of an animal of any kind to study the morphology and diagnosis of changes in cell membranes. The found range of ultrasound (ultrasound) intensity and sonication time is guaranteed to ensure high-quality platelet staining in all cases (regardless of the characteristics of specific cells, conditions for blood collection and storage, the condition of the animal, the presence of a pathological process) without negatively affecting the color of other shaped elements.

DIFF-QUIK staining with ultrasound allows you to visualize platelets well and can be used as a modification to count platelets of any size and type and to simultaneously study the morphological and cytological features of all stained cells, shows the presence of: cell deformations, anisocytosis, damage to the cytoplasmic membranes of platelets, makes it possible to visualize platelet boundaries.

The aim of the claimed invention is to develop a method for differential staining of all blood cells with one standard set of dyes in the same concentration.

The technical result of the claimed invention is the differential staining of all blood cells, including platelets, after ultrasonic treatment of blood samples immediately before preparation of smears, with equally uniform, deep and fast staining of all blood cells with one standard set of dyes, without additional agents (dyes, alcohols) and minimum time consumption (15-40 s). To implement the claimed invention, any of domestic ultrasonic therapeutic generators with emitters operating at carrier frequencies of 0.88 and 2.64 MHz are used.

The indicated technical result is achieved by the fact that platelet staining was performed after ultrasonic exposure of blood samples in vitro by a traveling ultrasound wave. Depending on the intensity of ultrasound, different exposures were used. The intensity of 0.05 W / cm ^{2 was} processed for 30-40 s, the intensity of 0.2 W / cm ² - 20-35 s, the intensity of 0.4 W / cm ² - 15-30 s, the intensity of 0.7 W / cm ² for 15-20 s. At the same time, any value from the following ranges of modulation frequencies was superimposed on the indicated modes: 10-30 Hz or 800 Hz, duty cycle 2. Carrier frequency 880 kHz. The same result can be achieved using a carrier frequency of 2.64 MHz, an intensity of 0.4 W / cm ² , exposure time of 15-30 s, standard pulse modes embedded in the equipment. The use of modulated effects reduces the average in space and time intensity by 2 times, reducing the risk of cell damage. After ultrasound treatment, blood smears were prepared and stained with differential dyes.

The claimed method is as follows.

In vitro ultrasound exposure to blood samples was carried out as follows. Blood was taken in a veterinary clinic from the saphenous vein of the forearm of cats, dogs, rabbits, jugular veins of horses on an empty stomach in the morning. Blood samples from 0.5-1.5 ml were voiced under absolutely identical conditions. Ultrasound exposure to blood cells was carried out using therapeutic emitters of domestic devices: UZT-1-01F; UZT-5 and UZT-1.02C with an external input for modulation. As a modulating signal generator, a low-frequency generator G3-113 or similar generators of a different type were used. Sounding of blood samples was carried out by a traveling pulse modulated ultrasound wave with an exposure depending on the intensity of the ultrasound: at an intensity of 0.05 W / cm ^{2 it was} processed for 30-40 s (Fig. 1), at an intensity of 0.2 W / cm ² for 20-35 s, at an intensity of 0.4 W / cm ² within 15-30 s, at an intensity of 0.7 W / cm ² for 15-20 s (figure 2). The range of modulation frequencies: 10-30 Hz or 800 Hz. The carrier frequency is 880 kHz. The same result can be achieved without modulation, using a carrier frequency of 2.64 MHz, an intensity of 0.4 W / cm ² , the exposure time of 15-30 s in a pulsed mode. After ultrasonic treatment, blood smears were made and stained according to the method of rapid differential staining of DIFF-QUIK biological products: smears were fixed in absolute methanol for 15 s, kept in dye solutions for 10 s, washed in buffered water, dried and the result was observed and recorded under a microscope (microscope) "Mikmed-5" lens 100 ^x / 1.25, eyepiece 10 ^x / 18) (see figure 1, 2).

With the use of ultrasound, a technique for staining all blood cells was developed, while in the known methods, when staining white blood cells, it is impossible to deeply and efficiently stain platelets of all sizes. The found range of intensity, modulation frequencies, and time provides the color of platelets, without negatively affecting the color of other formed elements. All stained cells are clearly visible: shape, size, morphological and cytological features, integrity or destruction of the cytoplasmic membrane (if any), nuclei, granularity of the cytoplasm (granulocytes), anisocytosis or cellular deformations. The ultrasound parameters used are therapeutic and safe for the experimenter.

Claims (1)

A method for staining platelets after exposure to ultrasound, including pre-treatment of blood samples in vitro with modulated ultrasound with a duty cycle of 2, an intensity of 0.05 W / cm ² for 30-40 s, or an intensity of 0.2 W / cm ² for 20-35 s , or 0.4 W / cm ² for 15-30 s, or 0.7 W / cm ² for 15-20 s with any modulation frequency in the range of modulation frequencies from 10 to 30 Hz or with a modulation frequency of 800 Hz and carrier frequency of 880 kHz, as well as ultrasound with a carrier frequency of 2.64 MHz, an intensity of 0.4 W / cm ² for 15-30 s in a pulsed mode with subsequent preparation the ointment of blood smears and their staining with differential dyes.

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