Coupled near-field and far-field exposure assessment framework for chemicals in consumer products

Coupled near-field and far-field exposure assessment framework for chemicals in consumer products

Humans can be exposed to chemicals in consumer products through product use and environmental emissions over the product life cycle. Exposure pathways are often complex, where chemicals can transfer directly from products to humans during use or exchange between various indoor and outdoor compartmen...

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Main Authors: Peter Fantke, Alexi S. Ernstoff, Lei Huang, Susan A. Csiszar, Olivier Jolliet
Format: Article
Language:English
Published: Elsevier 2016-09-01
Series:Environment International
Online Access:http://www.sciencedirect.com/science/article/pii/S0160412016302288
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spelling doaj-0fa74a5e35b742caac0d97dae4adde862020-11-25T02:03:48ZengElsevierEnvironment International0160-41202016-09-0194508518Coupled near-field and far-field exposure assessment framework for chemicals in consumer productsPeter Fantke0Alexi S. Ernstoff1Lei Huang2Susan A. Csiszar3Olivier Jolliet4Quantitative Sustainability Assessment Division, Department of Management Engineering, Technical University of Denmark, Produktionstorvet 424, 2800 Kgs. Lyngby, Denmark; Corresponding author.Quantitative Sustainability Assessment Division, Department of Management Engineering, Technical University of Denmark, Produktionstorvet 424, 2800 Kgs. Lyngby, DenmarkEnvironmental Health Sciences, University of Michigan, 1415 Washington Heights, Ann Arbor, MI 48109-2029, USAOak Ridge Institute for Science and Education hosted at the U.S. Environmental Protection Agency, National Risk Management Research Laboratory, Cincinnati, OH 45268, USAEnvironmental Health Sciences, University of Michigan, 1415 Washington Heights, Ann Arbor, MI 48109-2029, USAHumans can be exposed to chemicals in consumer products through product use and environmental emissions over the product life cycle. Exposure pathways are often complex, where chemicals can transfer directly from products to humans during use or exchange between various indoor and outdoor compartments until sub-fractions reach humans. To consistently evaluate exposure pathways along product life cycles, a flexible mass balance-based assessment framework is presented structuring multimedia chemical transfers in a matrix of direct inter-compartmental transfer fractions. By matrix inversion, we quantify cumulative multimedia transfer fractions and exposure pathway-specific product intake fractions defined as chemical mass taken in by humans per unit mass of chemical in a product. Combining product intake fractions with chemical mass in the product yields intake estimates for use in life cycle impact assessment and chemical alternatives assessment, or daily intake doses for use in risk-based assessment and high-throughput screening. Two illustrative examples of chemicals used in personal care products and flooring materials demonstrate how this matrix-based framework offers a consistent and efficient way to rapidly compare exposure pathways for adult and child users and for the general population. This framework constitutes a user-friendly approach to develop, compare and interpret multiple human exposure scenarios in a coupled system of near-field (‘user’ environment), far-field and human intake compartments, and helps understand the contribution of individual pathways to overall human exposure in various product application contexts to inform decisions in different science-policy fields for which exposure quantification is relevant. Keywords: Near-field consumer exposure, Multimedia multi-pathway framework, Product intake fraction, Life cycle impact assessment, Chemical alternatives assessment, High-throughput risk screeninghttp://www.sciencedirect.com/science/article/pii/S0160412016302288
collection DOAJ
language English
format Article
sources DOAJ
author Peter Fantke
Alexi S. Ernstoff
Lei Huang
Susan A. Csiszar
Olivier Jolliet
spellingShingle Peter Fantke
Alexi S. Ernstoff
Lei Huang
Susan A. Csiszar
Olivier Jolliet
Coupled near-field and far-field exposure assessment framework for chemicals in consumer products
Environment International
author_facet Peter Fantke
Alexi S. Ernstoff
Lei Huang
Susan A. Csiszar
Olivier Jolliet
author_sort Peter Fantke
title Coupled near-field and far-field exposure assessment framework for chemicals in consumer products
title_short Coupled near-field and far-field exposure assessment framework for chemicals in consumer products
title_full Coupled near-field and far-field exposure assessment framework for chemicals in consumer products
title_fullStr Coupled near-field and far-field exposure assessment framework for chemicals in consumer products
title_full_unstemmed Coupled near-field and far-field exposure assessment framework for chemicals in consumer products
title_sort coupled near-field and far-field exposure assessment framework for chemicals in consumer products
publisher Elsevier
series Environment International
issn 0160-4120
publishDate 2016-09-01
description Humans can be exposed to chemicals in consumer products through product use and environmental emissions over the product life cycle. Exposure pathways are often complex, where chemicals can transfer directly from products to humans during use or exchange between various indoor and outdoor compartments until sub-fractions reach humans. To consistently evaluate exposure pathways along product life cycles, a flexible mass balance-based assessment framework is presented structuring multimedia chemical transfers in a matrix of direct inter-compartmental transfer fractions. By matrix inversion, we quantify cumulative multimedia transfer fractions and exposure pathway-specific product intake fractions defined as chemical mass taken in by humans per unit mass of chemical in a product. Combining product intake fractions with chemical mass in the product yields intake estimates for use in life cycle impact assessment and chemical alternatives assessment, or daily intake doses for use in risk-based assessment and high-throughput screening. Two illustrative examples of chemicals used in personal care products and flooring materials demonstrate how this matrix-based framework offers a consistent and efficient way to rapidly compare exposure pathways for adult and child users and for the general population. This framework constitutes a user-friendly approach to develop, compare and interpret multiple human exposure scenarios in a coupled system of near-field (‘user’ environment), far-field and human intake compartments, and helps understand the contribution of individual pathways to overall human exposure in various product application contexts to inform decisions in different science-policy fields for which exposure quantification is relevant. Keywords: Near-field consumer exposure, Multimedia multi-pathway framework, Product intake fraction, Life cycle impact assessment, Chemical alternatives assessment, High-throughput risk screening
url http://www.sciencedirect.com/science/article/pii/S0160412016302288
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AT alexisernstoff couplednearfieldandfarfieldexposureassessmentframeworkforchemicalsinconsumerproducts
AT leihuang couplednearfieldandfarfieldexposureassessmentframeworkforchemicalsinconsumerproducts
AT susanacsiszar couplednearfieldandfarfieldexposureassessmentframeworkforchemicalsinconsumerproducts
AT olivierjolliet couplednearfieldandfarfieldexposureassessmentframeworkforchemicalsinconsumerproducts
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