RU2318214C2 - Method for determining adverse environment factor action upon population in a region - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method involves studying specific monoamine oxidase activity in blood platelets in peripheral blood. Prolonged action of adverse environment factor action causes specific monoamine oxidase activity reduction in population living in regions with harmful ecological situation. The value of specific monoamine oxidase activity indices are equal to 0.53±0.06 U/mg and 0.61±0.05 U/mg in regions of critical and stressed ecological situation, respectively, whereas the value is equal to 0.14±0.13 U/mg in regions of favorable ecological situation.

EFFECT: enhanced effectiveness in detecting persons subjected to harmful influence of environment.

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Description

The invention relates to medicine, namely to clinical biochemistry, and can be used both in ecological and hygienic studies for an integrated assessment of the impact of adverse environmental factors on the human body, and in science - in order to study the mechanisms of the pathogenic influence of adverse environmental factors (OS ) at the subcellular, cellular, tissue and organ levels of the human body.

The relevance of the search for a criterion for an integrated assessment of the impact of adverse OS factors on the human body is due to the fact that the tense environmental situation that has developed in a number of regions of the country has led to an increase in the incidence rate of the population of different age groups. Anthropotechnogenic environmental pollution has led to an increase in ecologically dependent pathology in most regions of Russia: impaired physical and mental development of children and adolescents, decreased reproductive health, pregnancy pathology, respiratory diseases and the endocrine system (Yu.A. Rakhmanin, G. .G. Onishchenko, 2004).

This circumstance determines the need to search for promising biochemical methods for use as scientifically based criteria for an integrated assessment of the impact of adverse OS factors.

An analysis of patent sources has shown that the solution to this problem so far has gone in the direction of assessing the totality of the functional characteristics of body systems.

There is a method of early prophylactic restoration of the professional health of a healthy person in the labor (organized) population (Reg. No. 2003113280/14, priority 04/22/2003). It lies in the fact that the level of individual health is determined on the basis of an integrated assessment of health according to the criteria of all elements of the "health" system. The assessment is based on the interaction of a person, environment, society, including health indicators reflecting human activity (illness or developmental defect, level and harmony of physical development, level of non-specific resistance and immune defense, level of motivational attitudes to health) and environmental factors, societies affecting people . At the same time, the objective characteristic of the element of the system "functional state of the body" is determined by the direct criterion of health - maximum oxygen consumption, the element of the system - "level of motivational health settings" the authors specify the ability to perform human functions (reproductive, labor, relaxation) as a criterion that clarifies the role of the person himself in strengthening his health - the motivation of behavior. Evaluation of each element of the "health" system is carried out on the basis of specific quantitative criteria in actual or conditional (point) units, the "health" system is quantitatively differentiated according to six levels of health.

Moreover, the known method, selected as a prototype, does not take into account compensatory mechanisms that are able to maintain the functional state of the body at a normal level for a long time, as well as the body's ability to adapt, which is different at the individual, age and population levels. In addition, the prototype method does not take into account the multiparameter principle of the interaction of the functional systems of the body, which applies to all indicators of homeostasis and combines the activities of various functional systems of the homeostatic level into a single system that dynamically determines the internal environment of the body and its various changes due to the influence of environmental factors Wednesday.

At the same time, the influence of adverse OS factors on public health should be considered depending on the specific social and climatic and geographical conditions of the region. Under certain conditions, this effect leads to the development of adaptive and adaptive reactions of the body to changes in environmental conditions (social, ecological, natural and climatic) in the form of changes in physiological and metabolic constants at the organ, tissue and cellular levels, as well as psychological attitudes and reactions. The response of the body in the dynamics of extreme conditions, regulated by neurohumoral mechanisms, is initially aimed at mobilizing the body's defenses and is accompanied by corresponding humoral and hormonal changes.

The continuing impact of adverse factors may result in the transition of the neuroendocrine homeostatic systems of the body to a new bioenergy level, which is expressed in a change in the state of health characterized as premorbid (borderline, donosology, etc.), or chronicity of negative processes.

Even in the case when the pathological condition does not develop, a change in the adaptation process is observed, specific biochemical shifts appear at the level of cellular structures, morphofunctional systems and the body as a whole. Changes in regulatory and homeostatic systems that occur as a result of environmental impacts directly determine the nature of the development of premorbid state and pathology.

There is a method of assessing the patient’s health status (Pat. No. 2166283, priority 04/12/1996), which consists in the fact that patients are formed according to the results of diagnostics using the Nakatani-Ryodaraku method, objects of the technological complex are formed to influence the formed contingent, their functional capabilities are determined, analyzed the complex of influencing factors of the technological complex and according to the results assess the patient’s health status.

However, the known method involves the availability of special equipment for measuring the electrical conductivity (resistance) of biologically active points on the skin and a computer program for interpreting the results. In addition, the proposed method gives a qualitative characteristic of assessing the patient’s health status and does not provide for the establishment of a relationship between the identified real environmental load and the change in health status.

At the same time, the current level of medical and environmental studies involves assessing both health indicators and environmental factors that have the greatest impact on the human body in conditions of stable, multifactorial and complex pollution of OS objects based on a systematic approach and quantitative monitoring of the main homeostatic indicators .

For example, an analysis of the results of scientific studies conducted in our country and abroad showed that the toxic effect of chemical environmental factors on the human body manifests itself primarily in quantitative changes in metabolic parameters. In particular, it was noted that in the case of exogenous intoxication syndrome due to exposure to OS chemical factors, the change in the catalytic activity of the enzyme systems of the body is of particular importance (Alekseev S.V., Yanushenets O.I. Human ecology - a systematic view of the process of health formation. // Vestn. RAMS, 2002, No. 9, C.3-6).

A known method for predicting human health based on the comparability of changes in the content of ammonia in a biologically active fluid and human health. The method provides for a specific scale of gradation of deterioration in health depending on the concentration of this metabolite (Pat. No. 2140634, priority 06/14/1997).

The disadvantage of this method is a one-sided assessment of human health, the absence of causal-quantitative relationships between changes in the rate of protein breakdown and decomposition of nitrogen-containing substances (the main sources of ammonia formation in the body) and certain harmful OS factors. In addition, the ammonia content in the biosubstrates of the human body depends on a number of physiological reasons: the nature, diet and nutrition, physical activity, pregnancy, ambient temperature, age of patients, water regime.

The claimed invention is aimed at solving the problem of integrated assessment of the impact of adverse OS factors on the human body, i.e. identification of a quantitative biochemical criterion that allows one to evaluate compensatory and premorbid changes in the body in response to the influence of environmental factors of different intensities. The task is achieved in that out of all possible levels of exposure to the human body of exogenous factors, subcellular is selected as the most sensitive and least specific.

It is known that cell mitochondria are the most labile intracellular structures to changes in environmental conditions (J. Teperman, X. Tepperman. Physiology of metabolism and endocrine system. Introductory course. Transl. From English., M., 1989), which allows us to consider them in as indicators of damage or inhibition of cell activity. It was previously shown that the effects of various adverse geochemical factors of OS in various combinations cause a nonspecific decrease in the activity of mitochondrial enzymes. Of particular interest is the discovery of the relationship between the inhibition of the specific activity of monoamine oxidase (MAO), a key oxidative enzyme that is tightly bound to mitochondrial membranes, and the effect of various environmental factors on the body (Zeynalov T.A. Monoamine oxidase and the influence of toxic environmental factors // Izv. Azerb. SSR, 1984, T. 6.).

Using the proposed method allows to achieve several practical results:

- to develop a system for quantitative integrated assessment of the impact of multiple combinations of various adverse environmental factors on the human body (according to the specific activity of MAO);

- determine the indicator of medical and environmental monitoring of the health of the population of ecologically unfavorable territories (specific MAO activity of peripheral blood platelets in populations of different age groups);

- on the basis of indicators of the specific activity of MAO and the dynamics of its change, assess the potential and real health risks at the population level;

- the ability to use quantitative indicators of enzyme activity in modern hygiene technologies: ranking of territories of residence, mapping, forming a data bank, managing public health.

Example.

To study the impact on the body of the population of several adverse factors in the territory of residence (anthropo-technogenic chemical pollution of the OS objects), we studied the specific activity of MAO in platelets of peripheral people of different ages living in areas of the Primorsky Territory characterized by different medical and environmental situations. Assessment of the degree of tension of the medical and environmental situation was carried out according to the sanitary-hygienic and natural-climatic indicators of the territory of the region.

Based on the objectives of the study, a known method was used to study the activity of MAO in platelets (Voloshina ON, Moskvitina TA. Method for determining the monoamine oxidase activity of platelets // Lab. Delo, 1985, No. 5, p. 289-291).

In the study of MAO activity, the cohorts of the subjects were selected based on the place and duration of residence (at least 10 years). The critical environmental situation group included residents living in the cities of Artyom and Vladivostok, where coal, chemical industry, ship repair, and construction industry enterprises are located, resulting in a strong anthropogenic impact on the environment.

The "tense ecological situation" group included residents of the cities of Nakhodka, Fokino, Bolshoi Kamen, Partizansk, Spassky, Shkotovsky, Khorolsky and Khankaysky districts, which have in their economic structure coal mining, military ship repair, timber processing and light industry enterprises, territories where land reclamation was intensively carried out and chemicalization of agriculture.

The group with a relatively favorable ecological situation included the reserved areas of the region (Lazovsky and Kirovsky) and the northern least developed territories of Primorye (table).

Table
The specific activity of monoamine oxidase in platelets in residents of Primorsky Krai with a different environmental situation Ecological situation n Platelets, U / mg Critical 44 0.53 ± 0.06 Tense 41 0.61 ± 0.05 R to > 0.05 Relative favorable 53 1.14 ± 0.13 R b <0.05 R nb <0.05 Legend: P - the significance of differences between the MAO activity indicators in the biosubstrates of residents of Primorye regions with different environmental conditions: (pr) - critical and intense; (cb) - critical and relatively favorable; (nb) - tense and relatively favorable.
*) - volumetric activity of MAO.

The study of the specific catalytic activity of the enzyme in platelets showed that in areas with a critical and intense environmental situation, the activity of the enzyme in platelets is significantly reduced compared with areas with a relatively favorable environmental situation. At the same time, the smallest specific activity of MAO was revealed during a survey of residents of the most environmentally disadvantaged regions of the region, where environmental and hygienic stress is characterized as critical and intense.

Thus, when the body is exposed to various adverse environmental factors, as well as the effects of heavy metals and other chemical ecotoxicants in various combinations, they cause a nonspecific decrease in the specific activity of the enzyme, the numerical value of which decreases as the environmental situation in the region worsens.

An analysis of the results of the studies allows us to consider the study of MAO activity as a biochemical research method for a quantitative integrated assessment criterion for the impact of adverse OS factors. Based on our results, we can conclude that the determination of the specific activity of MAO in human blood platelets is a sensitive biochemical test for hygienic assessment of metabolic changes in the human body when exposed to OS factors at the premorbid stage.

Information sources

1. Alekseev S.V., Yanushenets O.I. Human ecology is a systematic view of the process of health formation. // Vestn. RAMS, 2002, No. 9, p. 3-6.

2. Voloshina O.N., Moskvitina T.A. A method for determining the monoamine oxidase activity of platelets // Lab. Case, 1985, No. 5, pp. 289-291.

3. Gorkin V.Z. Amino oxidases and their importance in medicine. - M.: Medicine, 1981, 335 p.

4. Problems of assessing the risk to public health from environmental factors. Ed. Acad. RAMS Yu.A. Rakhmanin and G.G. Onishchenko. - Moscow, 2004, 355 p.

5. Rumyantsev G.I., Dmitriev D.A. Methodological basis for improving the monitoring of the influence of anthropogenic environmental factors on public health // Hygiene and Sanitation, 2001, No. 6, p.3-6.

6. Tepperman J., Tepperman X. Physiology of metabolism and endocrine system. Introductory course. Per. from English - M., 1989, 477 p.

7. Gareri P., Falconi U., De Fazio P., De Sarro G. Conventional and a new antidepressant drugs in the eldery // Prog. NeurobioL, 2000, N61 (4), p. 353-396.

Claims (1)

A method for determining the impact of adverse environmental factors on the population of a region by the value of a biochemical indicator, characterized in that the specific activity of monoamine oxidase (MAO) in peripheral blood platelets is used as a biochemical indicator, while in areas with a critical and tense environmental situation due to anthropogenic chemical pollution of environmental objects, the value of specific activity indicators of MAO - 0.53 ± 0.06 U / mg and MAO - 0.61 ± 0.05 U / mg, respectively Twain and in areas with favorable environmental situation - 0.14 ± 0.13 U / mg.