Summary. Background: The specifics of occupational activities of firefighters is determined by exposures to both fire hazards and a combination of occupational risk factors of various nature significantly exceeding their standard values. Adverse chemical exposures rank first due to unpredictable toxic effects of combustion products from burning synthetic polymers. Yet, the most dangerous are low-temperature fires emitting a wide range of air contaminants including highly lipophilic, bioaccumulative and persistent dioxins. The purpose of the research was to study the relationship between various polymorphic variants of xenobiotic detoxification genes and blood lipid concentrations of dioxins in firefighters. Materials and methods: We measured average dioxin concentrations in ambient air at different stages of firefighting and in blood lipids of firefighters with different length of service using the analytical method of gas chromatography–mass spectrometry (GC-MS). The cumulative effect of dioxins was estimated in relation to polymorphic variants of xenobiotic detoxification genes of the first and second phases of biotransformation by determining polymorphisms, the main research method being polymerase chain reaction (PCR). Results: High concentrations of dioxins measured in ambient air at all stages of firefighting and in blood lipids of firefighters with a significant correlation with work experience indicate that inhalation is one of the main routes of exposure to dioxins and that these chemicals are occupational risk factors for this professional group. The analysis of the relationship between various polymorphic variants of xenobiotic detoxification genes and blood lipid concentrations of dioxins in the firefighters showed a higher blood level of dioxins in carriers of minor alleles. Conclusions: Genotyping of firefighters and identification of carriers of minor alleles of xenobiotic detoxification genes may contribute to timely preventive and rehabilitation measures aimed at elimination of adverse health effects of occupational exposure to dioxins.
Summary. Introduction: As the most important environmental factor having multiple effects on human vital activities and health, drinking water often becomes the subject of predicting adverse health effects. With the purpose of establishing quantitative and/or qualitative characteristics of harmful effects of drinking water chemicals for human health, an integral assessment of drinking water quality with subsequent health risk assessment is carried out. It is based on estimating the risk posed by chronic (carcinogenic and non-carcinogenic) exposures that shows probability of developing a disease. Results: Practical activities of departments and institutions of the Federal Service for Surveillance in the Sphere of Consumers Rights and Human Wellbeing (Rospotrebnadzor) on assessing health effects of environmental factors have demonstrated that, even in concentrations equaling their detection limits in quite a number of test methods, most chemical water pollutants pose unacceptable carcinogenic and non-carcinogenic risks both for the general population and occupational cohorts. Thus, the results of some laboratory methods of testing are inappropriate for an objective human health risk assessment. Conclusions: We describe criteria for selecting methods of the quantitative chemical analysis of drinking water fit for the purposes of sanitary and epidemiologic expert examination combined with a population health risk assessment. The criteria of choice have been elaborated based on the review of regulatory and method documents and results of analytical testing of drinking water quality.
Relevance. Occupational activities of firefighters are considered extreme. Toxic combustion products are the most dangerous. Among these products, dioxins and dioxin-like compounds are particularly dangerous due to their ability to accumulate in the body.Intention is to analyze the content of toxic combustion products in atmospheric air during and after fires of various locations, as well as to evaluate dioxin concentrations in the blood plasma of employees of the Federal Firefighting Service of the Emercom of Russia, depending on the polymorphic variants of xenobiotic detoxification genes and professional experience.Methodology. To assess accumulation of dioxins in the body of firefighters with different polymorphic variants of xenobiotic detoxification genes, atmospheric air at different locations of fires was assessed for toxic combustion products. Accumulation of dioxins in the body of firefighters was analyzed depending on the polymorphisms of xenobiotic detoxification genes and work experience. 350 employees of the Federal Firefighting Service of the Emercom of Russia were examined, of them there were 234 firefighters and 116 supervisory staff involved in the investigations at the fire sites. The control group consisted of 82 rescue workers who were not directly involved in fire fighting. The examined individuals aged (32.2 ± 9.5) years.Results and Discussion. The data obtained indicate that high concentrations of dioxins in surface air at the fire site persist for more than 2 weeks, while the maximum permissible concentration is increased 4.5-10-fold. The highest concentration of dioxins is observed during fires in industrial enterprises and in residential buildings. According to the analysis of the dioxins in the blood of the Federal Firefighting Service employees and the control group, concentrations of individual chemical compounds among the employees of the Federal Firefighting Service were 2–7 times higher and 15 times higher in terms of the dioxin equivalent compared to the control group (p <0.05). High concentrations of dioxins were also revealed in the blood of supervisory staff. Analysis of the dioxins in the blood of the staff of the Federal Firefighting Service, EMERCOM of Russia showed that increased length of service correlated with dioxin concentrations in the blood: variations in chemical compounds reached 2.3–6.8 times (p <0.05) between those with 0–1 year vs 6 years or more experience and 1.3–1.7 times (p <0.05) between those with 2–5 years vs 6 years and more experience. Concentrations of dioxins in the blood plasma of employees of the Federal Firefighting Service of the Emercom of Russia were assessed depending on the polymorphic variants of xenobiotic detoxification genes and professional experience. A group of individuals carrying the combination of the EPHX1 Tyr / Tyr, CYP1A1 A / A, GSTT1 I / I, GSTM1 I / I, GSTP1 A / A, GSTP1 C / C genotypes was revealed: their dioxin concentrations in the blood were as low as 25% of that among other groups despite length of service.Conclusion Genotyping of firefighters will help arrange timely measures to detoxify dioxins, especially in carriers of minor alleles of xenobiotic biotransformation genes, in order to reduce morbidity and increase professional longevity.
Introduction. The profession of firefighters belongs to extreme activities. Fire hazards include flames, sparks, heat flow, elevated ambient temperatures, increased concentrations of toxic combustion and thermal decomposition products, decreased oxygen concentrations, and reduced visibility in smoke. High air temperature during fire extinguishing is one of the main adverse physical factors affecting firefighters’ bodies. Material and methods. The study was carried out on 124 outbred white male 3-month rats weighing 250-300 g, divided randomly into two groups: the first group (62 rats) underwent single hyperthermia. The second group (62 rats) experienced daily hyperthermia for 14 days. The study of the behavioural activity of animals was carried out after single and prolonged hyperthermia using the following methods: “Open field”, “Elevated cruciform maze”, Porsolt’s test, running on a treadmill. The tests were performed two times: the first time - before exposure, the second - after, with intervals between tests of at least two weeks. Results. The data obtained indicate that the high ambient temperature causes changes in the behavioural responses in animals, which is expressed by an increase in the level of anxiety, a decrease in motor and research activity, the development of depressive states, and a decrease in physical endurance. Conclusion. An experimental model of extreme heat exposure on animals showed the emergence and persistence of changes in animals’ behavioural activity and physical performance indicators. This experiment can be used to study the long-term effects of high temperatures on firefighters’ bodies.
In this work, a comparison was made of national standards for regulating the quality of the light environment, the main contradictions were revealed, and a comparative analysis of European and national standards was presented.
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