Carcinogenic risk associated with atmospheric air pollution in industrial cities of the Central Chernozem region

Semen A. Kurolap, Oleg V. Klepikov, Vadim V. Kulnev, Aleksei N. Kizeev, Sergei A. Syurin, Andrei V. Enin
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 The aim of the work was to quantify the carcinogenic risk associated with aerotechnogenic pollution of the cities of the Central Chernozem region including Voronezh, Lipetsk, and Belgorod.
 Materials and methods. Data on the results of monitoring laboratory studies in 2017–2022 were used as initial data. The carcinogenic risk was assessed according to G. 2.1.10.1920–04 “Guidelines for assessing the risk to public health when exposed to chemicals that pollute the environment”.
 Results. Taking into account the available objective data of laboratory control of carcinogens in the atmospheric air of the cities of the Central Chernozem region of Russia, pollutants have been identified whose exposure under standard exposure scenarios causes the level of individual carcinogenic risk to public health above the maximum permissible (1 • 10–4): in Voronezh – 1,3–butadiene (the source of emissions is the production of synthetic rubber) and chromium6+ compounds (the main source of emissions is an aviation plant); in Lipetsk – formaldehyde, at some control points – benzene (the main sources are emissions from metallurgical production and motor transport). Attention should be paid to the need to improve monitoring of the content of carcinogens in the atmospheric air of Belgorod, because in the presence of many sources of pollution, the concentrations of only two carcinogens are controlled.
 Limitations. The limitations of the study are due to the fact that the calculation of individual carcinogenic risks is always inherent in the uncertainties associated with the assessment of exposure and the use of standard formulas for calculating doses of intake into the body.
 Conclusion. To reduce the carcinogenic risk associated with air pollution, a set of measures should be implemented to reduce the intake of carcinogenic pollutants into the atmospheric air, and to implement rational urban planning decisions.","PeriodicalId":12550,"journal":{"name":"Gigiena i sanitariia","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2023-10-09","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Gigiena i sanitariia","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.47470/0016-9900-2023-102-8-853-860","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q4","JCRName":"Medicine","Score":null,"Total":0}
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Abstract

Introduction. Industrial cities are characterized by a significant amount of emissions of carcinogenic substances into the atmospheric air. In this regard, for the development of preventive measures, there is needed research to quantify the carcinogenic risk to health. The aim of the work was to quantify the carcinogenic risk associated with aerotechnogenic pollution of the cities of the Central Chernozem region including Voronezh, Lipetsk, and Belgorod. Materials and methods. Data on the results of monitoring laboratory studies in 2017–2022 were used as initial data. The carcinogenic risk was assessed according to G. 2.1.10.1920–04 “Guidelines for assessing the risk to public health when exposed to chemicals that pollute the environment”. Results. Taking into account the available objective data of laboratory control of carcinogens in the atmospheric air of the cities of the Central Chernozem region of Russia, pollutants have been identified whose exposure under standard exposure scenarios causes the level of individual carcinogenic risk to public health above the maximum permissible (1 • 10–4): in Voronezh – 1,3–butadiene (the source of emissions is the production of synthetic rubber) and chromium6+ compounds (the main source of emissions is an aviation plant); in Lipetsk – formaldehyde, at some control points – benzene (the main sources are emissions from metallurgical production and motor transport). Attention should be paid to the need to improve monitoring of the content of carcinogens in the atmospheric air of Belgorod, because in the presence of many sources of pollution, the concentrations of only two carcinogens are controlled. Limitations. The limitations of the study are due to the fact that the calculation of individual carcinogenic risks is always inherent in the uncertainties associated with the assessment of exposure and the use of standard formulas for calculating doses of intake into the body. Conclusion. To reduce the carcinogenic risk associated with air pollution, a set of measures should be implemented to reduce the intake of carcinogenic pollutants into the atmospheric air, and to implement rational urban planning decisions.
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中切尔涅姆地区工业城市大气污染的致癌风险
介绍。工业城市的特点是向大气中排放大量致癌物质。在这方面,为了制定预防措施,需要进行研究,以量化对健康的致癌风险。这项工作的目的是量化与中切尔诺泽姆地区城市(包括沃罗涅日、利佩茨克和别尔哥罗德)的航空技术污染相关的致癌风险。材料和方法。2017-2022年监测实验室研究结果数据作为初始数据。致癌风险是根据G. 2.1.10.1920-04 "接触污染环境的化学品对公众健康的风险评估准则"进行评估的。结果。考虑到俄罗斯中Chernozem地区城市大气中致癌物质实验室控制的现有客观数据,已经确定了在标准暴露情景下暴露导致个人对公共健康的致癌风险水平超过最大允许水平的污染物(1.10 - 4):在沃罗涅日- 1,3 -丁二烯(排放源是合成橡胶的生产)和铬6+化合物(主要排放源是航空工厂);在利佩茨克-甲醛,在一些控制点-苯(主要来源是冶金生产和汽车运输的排放物)。需要注意的是,需要改进对别尔哥罗德市大气中致癌物含量的监测,因为在许多污染源存在的情况下,只有两种致癌物的浓度得到控制。 的局限性。这项研究的局限性是由于这样一个事实,即个人致癌风险的计算总是固有于与暴露评估和使用标准公式计算人体摄入剂量相关的不确定性中。结论。为了降低与空气污染相关的致癌风险,应采取一系列措施减少大气中致癌污染物的摄入量,并实施合理的城市规划决策。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Gigiena i sanitariia
Gigiena i sanitariia Environmental Science-Pollution
CiteScore
0.80
自引率
0.00%
发文量
192
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