Individual Exposure Load of Formaldehyde and Adolescents’ Organism Sensibilization
All environmental factors influence on the human directly or indirectly. The biggest influence has the outdoor air, which is one of the major health risk factors associated with the environment. The proportion of 9-18 % of the total hazard index of inhalation exposure belongs to formaldehyde, which has a general toxic, sensibilizing and allergic effect. The frequency of allergic rhinitis and asthma in children living in the industrial cities of Eastern Siberia is 28-36 %. The purpose of the study was to assess the individual load of formaldehyde and detection its relationship with teenagers' organism sensitization. The study was carried out on the territory of two industrial cities with high and moderate levels of air pollution. The individual hazard indices of formaldehyde inhalation exposure were calculated for 373 adolescents. The formaldehyde concentration in urine was determined by HPLC method. The leukocyte migration inhibition test to formaldehyde has been studied. The levels of secretory immunoglobulin IgA, total IgE in serum were determined by ELISA technique. The number of eosinophils in nasal mucus was calculated. Individual hazard indices of formaldehyde inhalation exposure were exceeded in all patients. Elevation of formaldehyde concentration in the urine was found in every third adolescent. More than 30 % of the surveyed had a response to the formaldehyde in leukocyte migration inhibition test, which indicates the presence of sensitization to this chemical. About 20 % of students had a combined increase of total IgE levels in the blood and the number of eosinophils in the nasal mucus and more often these cases are marked in the group of adolescents with the lowest indices of formaldehyde exposure. Reduction of the secretory immunoglobulin A was found in the serum of adolescents with increased risk indices of formaldehyde inhalation exposure.
The high levels of the air pollution create prerequisites for the development of the pathology of target organs exposed to chemical agents. Big enterprises of oil refining and chemical industry of the Irkutsk region are located in the cities of Angarsk and Sayansk. The average level of the air pollution for several years in these cities is assessed as high and moderate, respectively. The use of the personalized approach may allow to more correctly evaluate the risk for the damage to health and the body’s response to external impacts. The purpose of this study was to assess the risk offormation ofpathological processes in the body of adolescents in the conditions of inhalation exposure to chemicals, taking into account the individual load and study of the level of specific autoantibodies. The study included 373 adolescents from the city with high levels of air pollution and 188 schoolchildren from the city with a moderate level pollution. There was made an evaluation of the individual chemical hazard load on adolescents ’ body due to the air pollution, physiologicalfeatures and the organization of educational process and leisure. There were studied the levels of specific autoantibodies, reflecting the state of the organs - targets for the impact ofpollutants. The calculation of the individual chemical load allows to calculate indices of the hazard for the health problems of each individual and to identify individuals at increased risk of developing diseases of organs and systems, which are targets for exposure to pollutants. The increase in the hazard index of developing respiratory diseases was found to be accompanied by an increase of the relative content of autoantibodies against membrane antigens of the lung tissue. There was revealed the elevation in autoantibodies levels to the proteins of vascular endothelial with increasing hazard index of disturbances in the cardiovascular system in adolescents living in city with high levels of air pollution.
Risk of sensitization to ecopollutants in teenagers with inherited chemical burden
At present allergic diseases are detected in 30% people and their frequency is only growing. A significant role in allergic pathology occurrence belongs to ambient air contamination and chemicals being introduced not only into children’s bodies, but their parents’ ones as well since pollutants can act as allergens and sensitizing agents. Our research goal was to examine influence exerted by parents’ pre-gestation exposure to chemicals on sensitization among teenagers living in an area where ambient air was contaminated. We examined overall immunoglobulin E contents and leukocytes migration inhibition test with formaldehyde and sodium nitrite in 115 teenagers whose parents worked under adverse working conditions at chemical and petrochemical enterprises and in 244 schoolchildren whose parents didn’t have any occupational contacts with chemicals. Each group was divided into sub-groups depending on inhalation chemical burden on schoolchildren’s bodies caused by ambient air contamination and contaminated air indoors (with hazard index (HI) for immune disorders being lower than 2 and HI≥2). The research allowed establishing that teenagers whose parents had worked at chemical and petrochemical enterprises during a pre-gestation period had elevated IgE contents more frequently as well as changes in leukocytes migration inhibition test with formaldehyde; it indicated there was sensitization to this chemical. Parents’ occupational contacts with chemicals led to an increase in relative risks of elevated igE contents and 2.5 times higher sensitization among schoolchildren with HI<2. Risk that sensitization to formaldehyde might occur was equal to 2.3 among senior schoolchildren with HI≥2 whose parents worked at chemical enterprises.
Introduction. Changes in biochemical indices characterizing the state of lipid peroxidation processes - antioxidant protection and lipid metabolism are observed during the occupational contact with mercury. These changes play a certain pathogenic role in the formation of disorders in the nervous system during mercury intoxication. In this regard, the aim was to study the relationship between biochemical indices at different stages of the development of mercury intoxication to justify approaches to therapeutic and preventive measures. Material and methods. A prospective cohort examination of persons exposed to the mercury vapor with signs of disorders in the nervous system, patients with chronic mercury intoxication and working in contact with mercury more than 5 years without signs of pathology was carried out. To study the relationship of features between biochemical indices, the sum of the square of correlation relations between the indices was calculated, the ranks of the influence of the system components on other factors and their dependencies were determined. Results. The decline in the level of nitric oxide metabolites was found to be one of the initial, long-term persisting in the pathogenesis of biochemical abnormalities, formed due to the contact with mercury. The development of the nervous system pathology under the mercury influence is accompanied by a change in the ratio of pro- and anti- oxidative processes, lipid metabolism disorders have an independent pathogenic significance. The long-term period of the chronic mercury intoxication is characterized by the formation of complex relationships in the biochemical system, the presence of several closed subsystems, which include nitrogen oxide metabolites. Conclusion. Given peculiarities of systemic interactions between biochemical indices, determining the role of certain factors in the overall system, as well as the presence/absence and composition of subsystems, pathogenic approaches to the correction of metabolic disorders at various stages of the mercury intoxication formation should be different.
Air pollution has a negative impact on the human body, creating the preconditions for the formation of adaptive processes or the occurrence of pathologies. Formaldehyde, particulate matter, nitrogen oxide were proved to have an effect on the respiratory and immune systems, the latter played a key role in the formation of adaptive reactions. The purpose of the study was to assess the effect of formaldehyde, nitrogen dioxide and particulate pollutants in the air environment, the maintenance of specific autoantibodies and cytokines by means of a mathematical model. The study included 659 students. In assessing individual inhalation of chemical loadings on an organism of adolescents into account data on the content of impurities in the ambient air, indoor air, information about the organization of educational process and rest pupils, anthropometric and spirometric parameters. The content of interleukin-2 and -10, interferon - alpha and - gamma, level of specific autoantibodies that characterize the state of the immune system and lungs has been studied in adolescents. The content of specific autoantibodies and cytokines depends upon hazard indexes priority pollutants are not linear and varies depending on the level of exposure of toxicants. The levels of autoantibodies to β2- glycoprotein I and the content of α-INF and γ-INF adolescents living in air pollution by formaldehyde, nitrogen dioxide, and particulate matter may depend on the level of inhaled pollutants load by 8-11%. Inhalation of nitrogen dioxide in the organism of adolescents may contribute to the variable level of autoantibodies to the of membrane antigens lung parenchyma to 22%.
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