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Quantitative mechanistically based dose-response modeling with endocrine-active compounds.

A wide range of toxicity test methods is used or is being developed for assessing the impact of endocrine-active compounds (EACs) on human health. Interpretation of these data and their quantitative use in human and ecologic risk assessment will be enhanced by the availability of mechanistically bas...

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Detalles Bibliográficos
Autores principales: Andersen, M E, Conolly, R B, Faustman, E M, Kavlock, R J, Portier, C J, Sheehan, D M, Wier, P J, Ziese, L
Formato: Texto
Lenguaje:English
Publicado: 1999
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1567506/
https://www.ncbi.nlm.nih.gov/pubmed/10421774
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author Andersen, M E
Conolly, R B
Faustman, E M
Kavlock, R J
Portier, C J
Sheehan, D M
Wier, P J
Ziese, L
author_facet Andersen, M E
Conolly, R B
Faustman, E M
Kavlock, R J
Portier, C J
Sheehan, D M
Wier, P J
Ziese, L
author_sort Andersen, M E
collection PubMed
description A wide range of toxicity test methods is used or is being developed for assessing the impact of endocrine-active compounds (EACs) on human health. Interpretation of these data and their quantitative use in human and ecologic risk assessment will be enhanced by the availability of mechanistically based dose-response (MBDR) models to assist low-dose, interspecies, and (italic)in vitro(/italic) to (italic)in vivo(/italic) extrapolations. A quantitative dose-response modeling work group examined the state of the art for developing MBDR models for EACs and the near-term needs to develop, validate, and apply these models for risk assessments. Major aspects of this report relate to current status of these models, the objectives/goals in MBDR model development for EACs, low-dose extrapolation issues, regulatory inertia impeding acceptance of these approaches, and resource/data needs to accelerate model development and model acceptance by the research and the regulatory community.
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spelling pubmed-15675062006-09-19 Quantitative mechanistically based dose-response modeling with endocrine-active compounds. Andersen, M E Conolly, R B Faustman, E M Kavlock, R J Portier, C J Sheehan, D M Wier, P J Ziese, L Environ Health Perspect Research Article A wide range of toxicity test methods is used or is being developed for assessing the impact of endocrine-active compounds (EACs) on human health. Interpretation of these data and their quantitative use in human and ecologic risk assessment will be enhanced by the availability of mechanistically based dose-response (MBDR) models to assist low-dose, interspecies, and (italic)in vitro(/italic) to (italic)in vivo(/italic) extrapolations. A quantitative dose-response modeling work group examined the state of the art for developing MBDR models for EACs and the near-term needs to develop, validate, and apply these models for risk assessments. Major aspects of this report relate to current status of these models, the objectives/goals in MBDR model development for EACs, low-dose extrapolation issues, regulatory inertia impeding acceptance of these approaches, and resource/data needs to accelerate model development and model acceptance by the research and the regulatory community. 1999-08 /pmc/articles/PMC1567506/ /pubmed/10421774 Text en
spellingShingle Research Article
Andersen, M E
Conolly, R B
Faustman, E M
Kavlock, R J
Portier, C J
Sheehan, D M
Wier, P J
Ziese, L
Quantitative mechanistically based dose-response modeling with endocrine-active compounds.
title Quantitative mechanistically based dose-response modeling with endocrine-active compounds.
title_full Quantitative mechanistically based dose-response modeling with endocrine-active compounds.
title_fullStr Quantitative mechanistically based dose-response modeling with endocrine-active compounds.
title_full_unstemmed Quantitative mechanistically based dose-response modeling with endocrine-active compounds.
title_short Quantitative mechanistically based dose-response modeling with endocrine-active compounds.
title_sort quantitative mechanistically based dose-response modeling with endocrine-active compounds.
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1567506/
https://www.ncbi.nlm.nih.gov/pubmed/10421774
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