Discuss the impact of chemicals on human health through a case study
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Chemical toxicity indicators for human health: case study for classification of chronic noncancer chemical hazards in life-cycle assessment.
The classification scheme for human health indicators in life-cycle assessment (LCA) and other toxicity scores is proposed based on identifiable target organ or system toxicity. This scheme represents a compromise between a subjective single overall score and highly detailed toxic mechanisms of action. A case study was used to evaluate the proposed classification scheme. The data on 117 high production volume organic chemicals were extracted from the U.S. Environmental Protection Agency (U.S. EPA) integrated risk information system (IRIS) database. Based on the critical effect listed in the database, almost all chemicals were easily and clearly classified into the proposed categories. However, there were significant variations in test species, protocol, duration, toxicological parameter measured, etc., among different toxicity studies. Importantly, the toxicological critical effects observed, even for the same target organ or system, differed from chemical to chemical and were not equivalent. Using hepatotoxicity as an example, critical effects included changes in organ weight, a variety of different histopathological changes, and changes in circulating hepatic enzyme levels. Therefore, no universal, common basis was identified for biological equivalency in order to compare or to aggregate chemicals into an overall toxicity score. A recent proposal to develop a characterization system based on disability-adjusted life years (DALYs) was also evaluated. No means were found to extrapolate animal critical effects data to predict any diminution in human lifetimes or the appearance and intensity of human disability. Still, LCA presents an ideal starting point for toxicological analysis by conducting a system-wide analysis that inventories and maps the sources of potentially important human pollutants. The LCA results could then facilitate initial toxicological and risk evaluations for those sources and chemicals and set the stage for a more detailed and informed analysis by professional toxicologists.
The classification scheme for human health indicators in life-cycle assessment (LCA) and other toxicity scores is proposed based on identifiable target organ or system toxicity. This scheme represents a compromise between a subjective single overall score and highly detailed toxic mechanisms of action. A case study was used to evaluate the proposed classification scheme. The data on 117 high production volume organic chemicals were extracted from the U.S. Environmental Protection Agency (U.S. EPA) integrated risk information system (IRIS) database. Based on the critical effect listed in the database, almost all chemicals were easily and clearly classified into the proposed categories. However, there were significant variations in test species, protocol, duration, toxicological parameter measured, etc., among different toxicity studies. Importantly, the toxicological critical effects observed, even for the same target organ or system, differed from chemical to chemical and were not equivalent. Using hepatotoxicity as an example, critical effects included changes in organ weight, a variety of different histopathological changes, and changes in circulating hepatic enzyme levels. Therefore, no universal, common basis was identified for biological equivalency in order to compare or to aggregate chemicals into an overall toxicity score. A recent proposal to develop a characterization system based on disability-adjusted life years (DALYs) was also evaluated. No means were found to extrapolate animal critical effects data to predict any diminution in human lifetimes or the appearance and intensity of human disability. Still, LCA presents an ideal starting point for toxicological analysis by conducting a system-wide analysis that inventories and maps the sources of potentially important human pollutants. The LCA results could then facilitate initial toxicological and risk evaluations for those sources and chemicals and set the stage for a more detailed and informed analysis by professional toxicologists.
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I am giving an example of chromium.
Especially in chromium, Cr+6, hexavalent chromium is a proved carcinogen that causes a lung cancer if inhaled.
Sources that I have studied it is used in spray painters, ink producing factories etc.
Directly inhaling Cr+6, and suffering from lung diseases, respiratory problems etc.
Cr+6 sometimes present in the industrial areas as I stated earlier where bore water is used.
Except this, Le, Pb and all other heavy metals causing health effects.
Hope you satisfied.
All the best.
Especially in chromium, Cr+6, hexavalent chromium is a proved carcinogen that causes a lung cancer if inhaled.
Sources that I have studied it is used in spray painters, ink producing factories etc.
Directly inhaling Cr+6, and suffering from lung diseases, respiratory problems etc.
Cr+6 sometimes present in the industrial areas as I stated earlier where bore water is used.
Except this, Le, Pb and all other heavy metals causing health effects.
Hope you satisfied.
All the best.
I will provide detail info if u required because i have a international publication on this.
welcome dear
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