Analysis of health risk for children living in the areas of atmospheric air polluted with sulfur dioxide emissions.

Authors

  • A. A. Petrosian

DOI:

https://doi.org/10.26641/2307-0404.2015.4.56142

Keywords:

assessment, sulfur dioxide, children population, asthma, risk management

Abstract

Nearly 20-30% of all respiratory disorders and 40 % of asthma cases are the outcomes of intensive ambient air pollution. This study analyzes asthmatic morbidity among children exposed to high levels of SO2 from industrial emissions.  The results of the study showed that ambient SO2 levels were at Сmean=107±38 mkg/m3. It was revealed that 29176 children, which is 98% of the mapped child population within the city, were exposed to very high SO2 levels and lived in the zone of high health risk (HQ=1,6÷4,5). The prevalence of the disease was estimated at 100 cases per 10,000 of the population (95% CI; 87.5-111.5). It was revealed that children living in the zones of increased health risks attributed to SO2 are more likely to develop bronchial asthma than unexposed ones (1,99 OR; 95% CI (1,95-2,60), p<0,01). Over the city, SO2 exposure is responsible for 30.5% of asthma cases among the exposed children population.

Author Biography

A. A. Petrosian

SI «O.M. Marzeyev Institute for Hygiene and Medical Ecology
National Academy of Medical Sciences of Ukraine»
Air Нygiene and Risk Assessment Laboratory
Popudrenka str., 50, Kyiv, 02660, Ukraine

References

Turos OІ, Petrosian AA, Kartavtsev OM, et al. [Declaration patent for utility model (51) A61V 10/00. Method for determining the averaged concentrations of pollutants in the air]. 2008;13:12. Ukrainian. 2. [The Air Quality and Health: Newsletter]. Avai¬lable from: http://www.who.int/mediacentre/factsheets/fs313/ru. Russian. 3. Turos OІ, Petrosian AA, Ananyeva OV, Kar¬tav¬tsev OM, Zagorodnіy VV. [Comparative analysis of the risk to health from emissions of the industrial enterprises of various sectors of economic activity]. Dovkіllya ta zdorovya. 2012;4(63):34-38. Ukrainian. 4. Revich BA, Sidorenko VN. [Methods of asses¬sing the economic damage to human health from air pollution: a manual on the regional environmental policy]. Akropol, TsEPR. 2006;42. Russian. 5. [Guidelines for air quality in Europe]. Ves mir. 2004;312. Russian. 6. Turos OI, Davydenko HM, Petrosian AA, et al. [Social health loss caused by industrial air pollution]. Aktualni pytannia zakhystu dovkillia ta zdorovia na¬selennia Ukrainy: rezultaty naukovykh rozrobok. 2015;8-34. Ukrainian. 7. Turos OI, Petrosian AA, Mykhina LI. [air Hy¬giene]. Dosvid ta perspektyvy naukovoho suprovodu problem hihiienichnoi nauky ta praktyky, 2011;133-49. Ukrainian. 8. Turos OI. [Development of scientific approaches to hygiene hazard assessment of sources of air pollution on the basis of risk indicators: abstract dissertation for the degree of doctor of medical sciences specialty "14.02.01 (Hygiene and professional pathology)"]. K., 2008;42. Ukrainian. 9. Air quality guidelines — global update 2005. WHO Regional Office for Europe. 2006;484. 10. CMH. Macroeconomics and Health: Investing in Health for Economic Development. Available from: http://libdoc.who.int/publications/2001/924154550X.pdf. 11. Human Health Risk Assessment Protocol for Hazardous Waste Combustion Facilities. U.S. Envi¬ronmental Protection Agency; Multimedia Planning and Permitting Division Office of Solid Waste Centre for Combustion Science and Engineering. 2005;1:2-432. 12. Keddem S, Barg FK, Glanz K, et al. Mapping the urban asthma experience: Using qualitative GIS to un¬derstand contextual factors affecting asthma control. Social Science and Medicine. 2015;140(9):9-17. 13. Nuckols J Ward M, Iarup L. Using Geographic Information Systems for Exposure Assessment in En¬vironmental Epidemiology Studies. Environmental Health Perspectives. 2004;112 (9):1007-15. 14. Report of the European Environment and Health Ministerial Board to the WHO Regional Committee for Europe and the United Nations Economic Commission for Europe Committee on Environmental Policy. 2013;7. 15. Report on the European Environment and Health Pro¬cess (2010-2013). WHO Regional Office for Europe. 2013;21. 16. Caldwell JC, Serdyuk A, Turos O, Petrosian A, et al. Risk Assessment Capacity Building Program in Za¬porizhzhia Ukraine: Emissions Inventory Construction, Ambient Modeling, and Hazard Results. Journal of Environmental Protection. 2013;4:1476-87. 17. The LJ, The CL, Johnson MA. ISC-AERMOD View: Interface for the U.S. EPA ISC and AERMOD Mo¬dels: Tutorials. Lakes Environmental Software. Wa¬terloo-Ontario, 2005;3-1.

Downloads

Published

2015-11-25

How to Cite

1.
Petrosian AA. Analysis of health risk for children living in the areas of atmospheric air polluted with sulfur dioxide emissions. Med. perspekt. [Internet]. 2015Nov.25 [cited 2024Nov.23];20(4):91-7. Available from: https://journals.uran.ua/index.php/2307-0404/article/view/56142

Issue

Section

PREVENTIVE MEDICINE