2021
DOI: 10.3390/toxics9110308
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Human Chemical Exposure from Background Emissions in the United States and the Implication for Quantifying Risks from Marginal Emission Increase

Abstract: The linear dose–response relationship has long been assumed in assessments of health risk from an incremental chemical emission relative to background emissions. In this study, we systematically examine the relevancy of such an assumption with real-world data. We used the reported emission data, as background emissions, from the 2017 U.S. National Emission Inventory for 95 organic chemicals to estimate the central tendencies of exposures of the general U.S. population. Previously published nonlinear dose–respo… Show more

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“…Inclusion of the bioaccessibility parameter in the risk equations can significantly reduce its magnitude. However, there are other sources of uncertainty that can significantly affect the indeterminacy of risk, such as those associated with the toxicity value, environmental background exposure (Barrio-Parra et al 2018;Li and Li 2021;Stanfield et al 2021), or, as already mentioned, those associated with the exposure parameters (Mingot et al 2011). Regarding the latter, the uncertainty produced by the use of default values can be reduced through their characterisation by local studies (e.g.…”
Section: Introductionmentioning
confidence: 99%
“…Inclusion of the bioaccessibility parameter in the risk equations can significantly reduce its magnitude. However, there are other sources of uncertainty that can significantly affect the indeterminacy of risk, such as those associated with the toxicity value, environmental background exposure (Barrio-Parra et al 2018;Li and Li 2021;Stanfield et al 2021), or, as already mentioned, those associated with the exposure parameters (Mingot et al 2011). Regarding the latter, the uncertainty produced by the use of default values can be reduced through their characterisation by local studies (e.g.…”
Section: Introductionmentioning
confidence: 99%