RU127935U1 - SUBJECT GLASS FOR MICROSCOPIC STUDY OF A HISTOLOGICAL OBJECT - Google Patents

Abstract

A slide for microscopic examination of a histological object, made in the form of a glass flat rectangular plate, characterized in that the slide is equipped with a polyester film of rectangular shape, bearing square cells measuring 0.3 × 0.3 cm.

Description

The proposed utility model relates to the field of medicine, namely to devices and devices for diagnostics and can be used in histological forensic studies.

Histological forensic examinations are often associated with the need to count various histological objects in the field of view of the microscope (foreign particles: fat emboli, starch grains; and various morphological formations). In this case, there is a need to unify the calculation method, since researchers use various microscopes, lenses and eyepieces.

Known counting chamber with a counting grid, known as the Goryaev’s chamber - a device designed to count the number of cells in a given volume of fluid. It is usually used to determine the number of shaped elements in a blood sample. Using the Goryaev’s camera, it is also possible to determine the magnification of the microscope. The camera is a transparent parallelepiped (glass slide), with grooves and a microscopic grid. The size of small divisions of the grid cell is 0.05 mm, and large - 0.2 mm. In this case, the grid is applied to the site (glass) located 0.1 mm lower than the two adjacent sites. These pads serve to rub the coverslip. As a result, the volume of liquid above the square formed by large divisions of the Goryaev grid is 0.004 microliters. By counting the number of cells over a large square, you can calculate the density of this type of cell in suspension by the formula: Number of cells / ml = number of cells over a large square * 2.5 · 10 ^ 5. Using the Goryaev camera as a kind of standard, you can determine the magnification of the microscope by the formula:

where k _G is the magnification of the microscope;

m ₁ is the position of the left border of the cell of the Goryaev chamber;

m ₂ - the position of the right border of the cell or group of cells;

N is the number of cells between the measured boundaries;

and - the cell size of the Goryaev chamber (equal to 0.05 mm).

For the calculation of cellular elements in liquids containing them in lower concentrations, Fuchs-Rosenthal and Najott chambers similar in design are used, having a large depth of 0.2 mm and 0.5 mm, respectively. The camera is designed to count the formed elements of the cerebrospinal fluid in the CDL and medical facilities. The camera consists of a thick glass slide with transverse slots deposited on it, forming three transversely located flat areas. The middle area of the longitudinal slot is divided into two, each of which has a grid engraved on it. A constant value in all grids is the so-called "small square", the side of which is 1/20 mm, therefore, its area is 1/400 mm. The large squares of the Fuchs-Rosenthal grid are not decomposed, grouped into 16 squares, each such group being bounded by triple lines.

The formula for calculating the formed elements of the cerebrospinal fluid in the Fuchs-Rosenthal chamber at a dilution ratio of 10/11

x = (a · 11) / (3.2 · 10) ≈a / 3

where x is the number of shaped elements in 1 mm3; and - the number of formed elements counted in one chamber), which are used to count the formed elements of blood, urine and cerebrospinal fluid, as well as microorganisms.

However, the well-known grid is also designed to study body fluids and does not allow to study histological sections, in addition, the cell size is too small and does not correspond to the field of view of the microscope at low magnification.

For the prototype of the proposed slide, a well-known slide was chosen for microscopic examination of a histological object, made in the form of a glass flat rectangular plate (http // medencred.ru / predmetnoe-steclo /).

The slide has a constant glass thickness along the entire length, which minimizes the need to adjust the focal length of the microscope. Glasses must be completely colorless, which allows you to accurately diagnose the colors and shades of the elements in the preparation, this allows them to be used in delicate microbiological analyzes.

However, the known glass slide also does not provide a count of various histological objects in the field of view of the microscope when conducting microscopic studies of histological objects during a forensic examination: foreign particles, fat emboli, starch grains and various morphological formations allows the study of histological sections.

The objective of the proposed utility model is to create a glass slide that provides the ability to count various objects in the field of view of the microscope for conducting forensic examinations.

The problem is solved in that the well-known slide for microscopic examination of a histological object, made in the form of a glass flat rectangular plate, is equipped with a polyester film of rectangular shape supporting square cells measuring 0.3 × 0.3 cm.

The proposed utility model meets the criteria of "novelty", as the conducted patent information research on patent and scientific and technical literature showed that the design of the proposed slide is unknown and does not follow explicitly from the studied prior art

Figure 1 shows the proposed slide.

A glass slide for microscopic examination of a histological object is made in the form of a glass flat rectangular plate 1, which is equipped with a polyester film of a rectangular shape partitioned into square cells 0.3 x 0.3 cm.

Polyester film (Avery-zvekborn 3553) is commonly used for laser printers and A4 copiers. The authors of the proposed utility model use a fragment of the above film, onto which, using computer and copying equipment, a marking is applied that forms a grid with a mesh size of 0.3 x 3 cm. 3 cm. A feature of this film is that when a histological object to be examined is placed on it, it does not deform and does not distort the image of the histological object during microscopic examination.

The proposed utility model allows to obtain the following positive effect when using. The proposed glass slide allows you to study the number of fat emboli, starch grains, quartz-containing particles, glomeruli of the kidney and, thereby, standardize the method of counting objects in histological preparations, convenient in use and easy to manufacture. Repeated use of the film is allowed, no additional equipment is required, it does not require special skills from the expert, and reduces the time for conducting forensic histological examinations.

The proposed device operates as follows.

A film with a deposited grid is placed and fixed on a coverslip and, under a microscopic examination of the preparation under a microscope, the number of histological objects under investigation is completely removed in one cell of the grid with an increase in X35. If the object is less than 1/3 in the cell, then the object is not counted.

Examples of specific performance are given in the form of extracts from the conclusions of the forensic medical examination.

1. Study No. 36 (expert opinion No. 2792). The corpse of a man born in 1980 (28 years old) found on the landing, putrid not changed. Death occurred as a result of drug poisoning. A histological examination of chronic diseases and sclerotically altered kidneys was not detected. When examining using the proposed slide, the average number of glomeruli in 10 fields of view is 11.

2. Study No. 98 (expert opinion No. 800). The corpse of a man of 1947 was found on the street, putridly not changed. Death occurred as a result of general hypothermia of the body against the background of alcohol intoxication. A histological examination using the proposed slide in the lung preparation revealed starch grains in the amount of 6 pieces in 10 fields of view of the microscope - signs of aspiration of food masses.

3. Study No. 104 (expert opinion No. 855). The corpse of a woman born in 1930 who died in a hospital with a diagnosis of “closed fracture of the neck of the left thigh”, without putrefactive changes. A histological examination using the proposed slide showed a moderate fat embolism of the vessels of the pulmonary circulation: when counting with a slide, 90 fat emboli were detected in 10 fields of view of the microscope.

Claims (1)

A glass slide for microscopic examination of a histological object, made in the form of a glass flat rectangular plate, characterized in that the glass slide is equipped with a rectangular polyester film that carries square cells 0.3 × 0.3 cm in size.

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