Understanding the mismatch between the demands of risk assessment and practice of scientists — The case of Deca-BDE

This review describes how a mismatch between the knowledge produced by scientists and the evidence demanded by regulators has emerged, and how society has struggled to find definitive answers to questions of safety, for an important flame retardant chemical in current use — Deca-BDE. This has involv...

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Veröffentlicht in:	Environment international 2011, Vol.37 (1), p.216-225
Hauptverfasser:	Alcock, Ruth E., MacGillivray, Brian H., Busby, Jerry S.
Format:	Artikel
Sprache:	eng
Schlagworte:	Administrative Personnel Air. Soil. Water. Waste. Feeding Analytical chemistry Applied sciences Biological and medical sciences Chemical risk management Chemistry Consistency Deca-BDE Environment. Living conditions Environmental Exposure Environmental Policy Environmental Pollutants - metabolism Environmental Pollutants - toxicity Environmental pollutants toxicology Exact sciences and technology Flame retardants Flame Retardants - metabolism Flame Retardants - toxicity General aspects General, instrumentation Global environmental pollution Halogenated Diphenyl Ethers - metabolism Halogenated Diphenyl Ethers - toxicity Medical sciences PBDE Politics Pollution Public health. Hygiene Public health. Hygiene-occupational medicine Regulators Risk Assessment Risk Management Safety Scientists Toxicology
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description	This review describes how a mismatch between the knowledge produced by scientists and the evidence demanded by regulators has emerged, and how society has struggled to find definitive answers to questions of safety, for an important flame retardant chemical in current use — Deca-BDE. This has involved two key disciplines: analytical chemistry and toxicology. Within the chemistry, a lack of standardized methodologies among scientists has resulted in a persistent yet largely undeclared failure to replicate results within the discipline. Within the toxicology, the quest for innovative, curiosity-driven research by university scientists in preference to using validated standard protocols, designed to promote consistency within the risk assessment process, has prompted questions about the credibility and relevance of scientific findings. Yet scientific laboratories have compelling reasons to do things the way they do in the cause of producing new knowledge, pointing to a sustained gap between the aims and practices of research scientists and those of risk management. A more rigorous scientific process that treats different elements of input data as discrete pieces of evidence is needed to ensure that science rather than politics will always define chemical safety.
doi_str_mv	10.1016/j.envint.2010.06.002
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This has involved two key disciplines: analytical chemistry and toxicology. Within the chemistry, a lack of standardized methodologies among scientists has resulted in a persistent yet largely undeclared failure to replicate results within the discipline. Within the toxicology, the quest for innovative, curiosity-driven research by university scientists in preference to using validated standard protocols, designed to promote consistency within the risk assessment process, has prompted questions about the credibility and relevance of scientific findings. Yet scientific laboratories have compelling reasons to do things the way they do in the cause of producing new knowledge, pointing to a sustained gap between the aims and practices of research scientists and those of risk management. A more rigorous scientific process that treats different elements of input data as discrete pieces of evidence is needed to ensure that science rather than politics will always define chemical safety.</description><subject>Administrative Personnel</subject><subject>Air. Soil. Water. Waste. Feeding</subject><subject>Analytical chemistry</subject><subject>Applied sciences</subject><subject>Biological and medical sciences</subject><subject>Chemical risk management</subject><subject>Chemistry</subject><subject>Consistency</subject><subject>Deca-BDE</subject><subject>Environment. Living conditions</subject><subject>Environmental Exposure</subject><subject>Environmental Policy</subject><subject>Environmental Pollutants - metabolism</subject><subject>Environmental Pollutants - toxicity</subject><subject>Environmental pollutants toxicology</subject><subject>Exact sciences and technology</subject><subject>Flame retardants</subject><subject>Flame Retardants - metabolism</subject><subject>Flame Retardants - toxicity</subject><subject>General aspects</subject><subject>General, instrumentation</subject><subject>Global environmental pollution</subject><subject>Halogenated Diphenyl Ethers - metabolism</subject><subject>Halogenated Diphenyl Ethers - toxicity</subject><subject>Medical sciences</subject><subject>PBDE</subject><subject>Politics</subject><subject>Pollution</subject><subject>Public health. Hygiene</subject><subject>Public health. 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subjects	Administrative Personnel Air. Soil. Water. Waste. Feeding Analytical chemistry Applied sciences Biological and medical sciences Chemical risk management Chemistry Consistency Deca-BDE Environment. Living conditions Environmental Exposure Environmental Policy Environmental Pollutants - metabolism Environmental Pollutants - toxicity Environmental pollutants toxicology Exact sciences and technology Flame retardants Flame Retardants - metabolism Flame Retardants - toxicity General aspects General, instrumentation Global environmental pollution Halogenated Diphenyl Ethers - metabolism Halogenated Diphenyl Ethers - toxicity Medical sciences PBDE Politics Pollution Public health. Hygiene Public health. Hygiene-occupational medicine Regulators Risk Assessment Risk Management Safety Scientists Toxicology
title	Understanding the mismatch between the demands of risk assessment and practice of scientists — The case of Deca-BDE
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