Cargando…

Some considerations concerning multimedia-multipollutant risk assessment methodology: use of epidemiologic data for non-cancer risk assessment in Russia.

The highly industrialized small town of Verkhnyaya Pyshma (in the Urals region of Russia) was chosen as the site of a multimedia-multipollutant risk assessment using the U.S. Environmental Protection Agency methodology. The assessment was based on routine environmental pollution monitoring data for...

Descripción completa

Detalles Bibliográficos
Autores principales: Privalova, L I, Wilcock, K E, Katsnelson, B A, Keane, S E, Cunningham, K, Kuzmin, S V, Voronin, S A, Nikonov, B I, Gurvich, V B
Formato: Texto
Lenguaje:English
Publicado: 2001
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1242044/
https://www.ncbi.nlm.nih.gov/pubmed/11171518
_version_ 1782125572302831616
author Privalova, L I
Wilcock, K E
Katsnelson, B A
Keane, S E
Cunningham, K
Kuzmin, S V
Voronin, S A
Nikonov, B I
Gurvich, V B
author_facet Privalova, L I
Wilcock, K E
Katsnelson, B A
Keane, S E
Cunningham, K
Kuzmin, S V
Voronin, S A
Nikonov, B I
Gurvich, V B
author_sort Privalova, L I
collection PubMed
description The highly industrialized small town of Verkhnyaya Pyshma (in the Urals region of Russia) was chosen as the site of a multimedia-multipollutant risk assessment using the U.S. Environmental Protection Agency methodology. The assessment was based on routine environmental pollution monitoring data for ambient air, soils, drinking water, and food, and the international environmental epidemiology literature. Using an a priori set of the preliminary health-based criteria, we selected nine pollutants for risk assessment: total suspended particles (TSP), sulfur dioxide, nitrogen dioxide, benzo(a)pyrene (BaP), ammonia arsenic, copper, cadmium, and lead. We used dose-response functions derived from epidemiologic studies to assess individual and population risks for TSP, SO2, NO2, As, Cd, and Pb. We assessed both cancer (for BaP, As, and Cd) and non-cancer (for all the chosen pollutants but BaP) responses, but in this paper we discuss only the assessments of noncarcinogenic risks due to TSP, SO2, NO2, Pb, and Cd as examples of how the quantitative estimates of health effects can be produced by using a risk function approach. We also schematically present a modified conceptual model of multimedia-multipollutant risk assessment taking into account the experience gained with this study.
format Text
id pubmed-1242044
institution National Center for Biotechnology Information
language English
publishDate 2001
record_format MEDLINE/PubMed
spelling pubmed-12420442005-11-08 Some considerations concerning multimedia-multipollutant risk assessment methodology: use of epidemiologic data for non-cancer risk assessment in Russia. Privalova, L I Wilcock, K E Katsnelson, B A Keane, S E Cunningham, K Kuzmin, S V Voronin, S A Nikonov, B I Gurvich, V B Environ Health Perspect Research Article The highly industrialized small town of Verkhnyaya Pyshma (in the Urals region of Russia) was chosen as the site of a multimedia-multipollutant risk assessment using the U.S. Environmental Protection Agency methodology. The assessment was based on routine environmental pollution monitoring data for ambient air, soils, drinking water, and food, and the international environmental epidemiology literature. Using an a priori set of the preliminary health-based criteria, we selected nine pollutants for risk assessment: total suspended particles (TSP), sulfur dioxide, nitrogen dioxide, benzo(a)pyrene (BaP), ammonia arsenic, copper, cadmium, and lead. We used dose-response functions derived from epidemiologic studies to assess individual and population risks for TSP, SO2, NO2, As, Cd, and Pb. We assessed both cancer (for BaP, As, and Cd) and non-cancer (for all the chosen pollutants but BaP) responses, but in this paper we discuss only the assessments of noncarcinogenic risks due to TSP, SO2, NO2, Pb, and Cd as examples of how the quantitative estimates of health effects can be produced by using a risk function approach. We also schematically present a modified conceptual model of multimedia-multipollutant risk assessment taking into account the experience gained with this study. 2001-01 /pmc/articles/PMC1242044/ /pubmed/11171518 Text en
spellingShingle Research Article
Privalova, L I
Wilcock, K E
Katsnelson, B A
Keane, S E
Cunningham, K
Kuzmin, S V
Voronin, S A
Nikonov, B I
Gurvich, V B
Some considerations concerning multimedia-multipollutant risk assessment methodology: use of epidemiologic data for non-cancer risk assessment in Russia.
title Some considerations concerning multimedia-multipollutant risk assessment methodology: use of epidemiologic data for non-cancer risk assessment in Russia.
title_full Some considerations concerning multimedia-multipollutant risk assessment methodology: use of epidemiologic data for non-cancer risk assessment in Russia.
title_fullStr Some considerations concerning multimedia-multipollutant risk assessment methodology: use of epidemiologic data for non-cancer risk assessment in Russia.
title_full_unstemmed Some considerations concerning multimedia-multipollutant risk assessment methodology: use of epidemiologic data for non-cancer risk assessment in Russia.
title_short Some considerations concerning multimedia-multipollutant risk assessment methodology: use of epidemiologic data for non-cancer risk assessment in Russia.
title_sort some considerations concerning multimedia-multipollutant risk assessment methodology: use of epidemiologic data for non-cancer risk assessment in russia.
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1242044/
https://www.ncbi.nlm.nih.gov/pubmed/11171518
work_keys_str_mv AT privalovali someconsiderationsconcerningmultimediamultipollutantriskassessmentmethodologyuseofepidemiologicdatafornoncancerriskassessmentinrussia
AT wilcockke someconsiderationsconcerningmultimediamultipollutantriskassessmentmethodologyuseofepidemiologicdatafornoncancerriskassessmentinrussia
AT katsnelsonba someconsiderationsconcerningmultimediamultipollutantriskassessmentmethodologyuseofepidemiologicdatafornoncancerriskassessmentinrussia
AT keanese someconsiderationsconcerningmultimediamultipollutantriskassessmentmethodologyuseofepidemiologicdatafornoncancerriskassessmentinrussia
AT cunninghamk someconsiderationsconcerningmultimediamultipollutantriskassessmentmethodologyuseofepidemiologicdatafornoncancerriskassessmentinrussia
AT kuzminsv someconsiderationsconcerningmultimediamultipollutantriskassessmentmethodologyuseofepidemiologicdatafornoncancerriskassessmentinrussia
AT voroninsa someconsiderationsconcerningmultimediamultipollutantriskassessmentmethodologyuseofepidemiologicdatafornoncancerriskassessmentinrussia
AT nikonovbi someconsiderationsconcerningmultimediamultipollutantriskassessmentmethodologyuseofepidemiologicdatafornoncancerriskassessmentinrussia
AT gurvichvb someconsiderationsconcerningmultimediamultipollutantriskassessmentmethodologyuseofepidemiologicdatafornoncancerriskassessmentinrussia