RU2559585C2 - Method of diagnosing early development of harmful production factors on organism of workers, employed in production of synthetic resins for not more than 5 years - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely to labour medicine, and describes a method of diagnosing early disorders caused by an impact of harmful production factors in the organisms of workers, employed in the production of synthetic resins for not more than 5 years. The method is characterised by the fact that the content of myeloperoxidase is determined in neutrophils of blood smear of the workers, employed in the production of synthetic resins with the work experience of not more than 5 years, average cytochemical coefficient is estimated, and if its value is lower than 2.23 c. u., the impact of harmful production factors is diagnosed. The claimed method makes it possible to diagnose early disorders caused by the impact of harmful production factors on the organisms of workers, employed in the production of synthetic resins, with minimal labour and financial expenditures.

EFFECT: invention can be applied to prevent the impact of harmful production factors of synthetic resin production.

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Description

The present invention relates to medicine, namely to occupational medicine, and can be used to diagnose the early effects of harmful production factors on the body of those working in the production of synthetic resins with a work experience of not more than 5 years.

“The development strategy of the Russian chemical industry for the period until 2015” provides for an increase in chemical products, including through the production of synthetic resins [Analysis of the development strategy of the petrochemical industry until 2015 / A.V. Artemov, A.V. Barykin, M.N. Ivanov // Russian Chemical Journal. - 2008. - No. 4. - S.4-14].

Synthetic resins are widely used in the production of plastics, paints, adhesives, sealants, as well as for the processing of fabrics, paper, modifications of other polymers, etc. The capacities of Russian manufacturers do not currently fully cover the needs of industry in this type of product. In this regard, in the Russian Federation it is planned to build new factories of the chemical industry for the production of synthetic resins and reconstruction of existing plants.

Modern production of the chemical complex, including the production of synthetic resins, is characterized by automation and mechanization of production processes, the introduction of production lines and units of large unit capacity, continuity, isolation of the technological cycle, remote control, the use of mainly sealed high-performance types of equipment, and the use of unified building structures. The use of the latest equipment and technologies significantly reduces the risk of exposure to adverse factors of the chemical complex on the body of workers. At the same time, the industry still retains the adverse effects of harmful factors on the body of workers [Andreev V.G. Chemical and biological safety as part of the national security of Russia / V.G. Andreev, V.V. Baranenko // Scientific and analytical journal Observer. - Observer 2012.V.270. - No. 7. - S. 23-36].

According to the Goskomstat of the Russian Federation, almost one in five in the petrochemical industry works in conditions that do not meet hygienic standards [G. Onishchenko The state of working conditions and occupational morbidity of workers of the Russian Federation / G.G. Onishchenko // Hygiene and sanitation. 2009. - No. 1. - S. 29-33].

In this regard, the prevention of exposure to harmful production factors for the production of synthetic resins is one of the urgent problems requiring the development of new approaches to the diagnosis of the harmful effects of environmental factors and the labor process.

Myeloperoxidase, the most sensitive to the harmful effects of chemicals, has antioxidant properties and is an indicator of a decrease in the secretory function of organelles in cells [Hayhoe, F.G.J. Haematological cytochemistry / F.G.J. Hayhoe, D. Quaglino. - New Jork, 1983. - 197 p.].

The closest analogue of the invention is a method for diagnosing early disorders in workers of petrochemical industries, which consists in the fact that workers of petrochemical industries determine free-radical oxidation parameters (the content of lipid peroxidation products - LPO, registration of serum chemiluminescence) and antioxidant system (general antioxidant activity (AOS), catalase activity, the content of α-tocopherol and retinol), determine the activity of enzymes (alanine aminotransferase, and spartate aminotransferase, lactate dehydrogenase, γ-glutamyltransferase), protein (total protein) and lipid metabolism (total cholesterol, triglycerides, high and low density lipoprotein cholesterol) evidence-based medicine ", Kazan, 2011" The role of laboratory biomarkers in the diagnosis of early disorders in workers of petrochemical industries "/ G.V. Timasheva, E.T. Valeeva, L.K. Karimova, G.G. Badamshina / S.348-350]. However, this method is quite laborious, requires large energy and material costs. The disadvantage of this method is that this method is performed according to the results of a retrospective analysis, taking into account all the indicators obtained, and does not take into account the impact of harmful production factors on workers with a short work experience.

The objective of the invention was the development of an objective highly informative method for diagnosing the early effects of harmful production factors on the body of workers engaged in the production of synthetic resins for no more than 5 years.

The technical result when using the invention is the simplification and reduction of research time, reducing the complexity and material costs.

The specified technical result is achieved by the fact that in the method for diagnosing the early effects of harmful production factors on the body of workers engaged in the production of synthetic resins for no more than 5 years, including determining the blood content of the enzyme, according to the invention, the content of myeloperoxidase in blood smear neutrophils is determined as an enzyme, the average cytochemical coefficient, with its value less than 2.23 cu diagnose the effects of harmful production factors.

The proposed method for diagnosing the early effects of harmful production factors on the body of workers engaged in the production of synthetic resins is as follows.

1. Preparation of blood smears.

A blood smear is done on a glass slide using a narrower ground glass. A well-made smear is thin, has a yellowish color and ends with a ″ panicle ″. After preparation, the smears should be quickly dried in air until the damp shine disappears.

Dry blood smear is fixed in 10% alcohol - formalin mixture for 10 seconds - to determine the MPO. Washed with running water.

2. Preparation of working solution.

Dissolve the contents of one vial of benzidine in 3 ml of 96 ° ethanol and add 2 ml of distilled water. Shake well and add 1 drop of 3% hydrogen peroxide with a pipette before use.

The working solution is stored for 3 months in a dark place and is used for 6-15 studies.

3. The color of the smears.

A working solution is poured onto a glass slide, left for 15-20 minutes, washed with distilled water and soaked with filter paper, the glass is washed in running water. It is stained with a 0.5% dye solution according to Romanovsky (15-20 minutes), the glass is washed in running water, and dried.

4. Microscopy and SCC counting.

To calculate myeloperoxidase, the average cytochemical coefficient (SCC) is calculated according to Kaplow (1955). To quantify the results, 100 cells of a certain type are counted, differentiating them according to the degree of staining intensity, then the number of cells with the same staining intensity is multiplied by the number of pluses corresponding to this group, the sum of these products is divided by 100, which is the SCC.

Depending on the color, the studied cells are divided into 4 groups:

with a negative reaction (-),

weakly positive (+),

positive (++)

sharply positive (+++).

The obtained values are compared with reference values [Methodological recommendations for the development of reference values of laboratory parameters: Met. recommendations / V.V. Menshikov, L.M. Pimenova. - M., 1983, Biochemical and cytochemical methods for determining the activity of enzymes and enzyme-substrate systems of various cellular localization: met. recommendations / R.V. Merkuryev, G.L. Bilich, R.P. Daffodils. - M., 1982, 19-21 p.].

Reference values: CCK myeloperoxidase = 2.23-2.89 cu

According to the results of sanitary and hygienic studies at the enterprise for the production of synthetic resins (OAO Nizhnekamskneftekhim), it was established that there is a complex of harmful production factors of the working environment and the labor process (chemical factor, physical factor (exposure to noise, physical stress, microclimate, etc. .), the severity and intensity of the labor process.The working conditions of workers in the main profession in terms of harmful production factors of the working environment and the labor process are consistent whether harmful working conditions class 3 (class 3.1-3.3). Workers in this group were assigned to the main group. Working conditions for auxiliary workers corresponded to the permissible working conditions class (class 2) (according to Guide R 2.2.2006-05 “Guide to hygienic assessment factors of the working environment and the labor process. Criteria and classification of working conditions "). Workers in this group were assigned to the comparison group.

In this regard, we compared the SCC of myeloperoxidase in workers of these groups.

According to the results of cytochemical studies, it was found that in workers of the main group employed in production, in a blood smear, in contrast to the workers of the comparison group, a decrease in the SCC of myeloperoxidase was significantly more often observed (p <0.001). It should be noted that in workers of the main group in 100% of cases there was a decrease in the BCC of myeloperoxidase relative to these reference values (below 2.23 cu), while among the employees of the comparison group, values of the BCC of myelopeoxidase were found that were within reference values (from 2.23-2.89 cu), and values that go beyond the limits of reference values upward (from 2.89 cu).

The proposed method is illustrated by the following clinical examples.

Example No. 1. Worker V., work experience in the production of synthetic resins - 2 years, age - 29 years.

A blood smear is done on a glass slide using a narrower ground glass. The smear is dried in air until the damp shine disappears. Fix in 10% alcohol - formalin mixture for 10 seconds. Washed with running water.

Prepare a working solution for the determination of myeloperoxidase. A working solution is poured onto a glass slide, left for 15-20 minutes, washed with distilled water and soaked with filter paper, the glass is washed in running water. It is stained with a 0.5% dye solution according to Romanovsky (15-20 minutes), washed in running water, dried.

Microscopy and count the SCS.

Depending on the color, the studied cells are divided into 4 groups: with a negative reaction (-) - 0 cells, weakly positive (+) - 5 cells, positive (++) - 65 cells (60-90), sharply positive (+++) - 30 cells (3-16).

Calculation of SCS = 0 · 0 + 5 · 1 + 65 · 2 + 30 · 3 = 5 + 130 + 90 = 225/100 = 2.25

SCK = 2.25

The obtained values are compared with reference values. Reference values: CCK myeloperoxidase = 2.23-2.89 cu The level of myeloperoxidase within the reference values is 2.25 cu

The employee did not reveal an early exposure to harmful production factors.

Example No. 2. Worker G., work experience in the production of a chemical complex - 5 years, age - 29 years.

A blood smear is done on a glass slide using a narrower ground glass. The smear is dried in air until the damp shine disappears. Fix in 10% alcohol - formalin mixture for 10 seconds. Washed with running water.

Prepare a working solution for the determination of myeloperoxidase. A working solution is poured onto a glass slide, left for 15-20 minutes, washed with distilled water and soaked with filter paper, the glass is washed in running water. It is stained with a 0.5% dye solution according to Romanovsky (15-20 minutes), washed in running water, dried.

Microscopy and count the SCS.

Depending on the color, the studied cells are divided into 4 groups: with a negative reaction (-) - 5 cells, weakly positive (+) - 5 cells, positive (++) - 75 cells (60-90), sharply positive (+++) - 5 cells (3-16).

Calculation of SCS = 5 · 0 + 5 · 1 + 75 · 2 + 5 · 3 = 5 + 150 + 15 = 170/100 = 1.70

SCK = 1.70

The obtained values are compared with reference values. Reference values: CCK myeloperoxidase = 2.23-2.89 cu The level of myeloperoxidase in the neutrophil is 2.16 cu, significantly lower than the reference values of 2.23-2.89 cu

The employee is diagnosed with early exposure to harmful production factors. Prevention of early disorders is necessary.

Example No. 3. Worker V., work experience in the production of a chemical complex - 3 years, age - 31 years.

A blood smear is done on a glass slide using a narrower ground glass. The smear is dried in air until the damp shine disappears. Fix in 10% alcohol - formalin mixture for 10 seconds. Washed with running water.

Prepare a working solution for the determination of myeloperoxidase. A working solution is poured onto a glass slide, left for 15-20 minutes, washed with distilled water and soaked with filter paper, the glass is washed in running water. It is stained with a 0.5% dye solution according to Romanovsky (15-20 minutes), washed in running water, dried.

Microscopy and count the SCS.

Depending on the color, the studied cells are divided into 4 groups: with a negative reaction (-) - 0 cells, weakly positive (+) - 5 cells, positive (++) - 10 cells (60-90), sharply positive (+++) - 90 cells (3-16).

Calculation of SCS = 10 · 2 + 90 · 3 = 20 + 270 = 290/100 = 2.90

SCK = 2.90

The obtained values are compared with reference values. Reference values: CCK myeloperoxidase = 2.23-2.89 cu The level of myeloperoxidase in the neutrophil is 2.90.e., higher than the reference values 2.23-2.89.e.

The employee did not reveal an early exposure to harmful production factors.

Claims (1)

A method for diagnosing early disturbances from exposure to harmful production factors in the body of workers engaged in the production of synthetic resins for no more than 5 years, including determining the content of the enzyme in the blood, characterized in that the content of myeloperoxidase in the neutrophils of the blood smear is determined as the enzyme, the average cytochemical coefficient is calculated, with its value less than 2.23 cu diagnose the effects of harmful production factors.