2008
DOI: 10.1289/ehp.11079
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Computational Toxicology of Chloroform: Reverse Dosimetry Using Bayesian Inference, Markov Chain Monte Carlo Simulation, and Human Biomonitoring Data

Abstract: BackgroundOne problem of interpreting population-based biomonitoring data is the reconstruction of corresponding external exposure in cases where no such data are available.ObjectivesWe demonstrate the use of a computational framework that integrates physiologically based pharmacokinetic (PBPK) modeling, Bayesian inference, and Markov chain Monte Carlo simulation to obtain a population estimate of environmental chloroform source concentrations consistent with human biomonitoring data. The biomonitoring data co… Show more

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Cited by 66 publications
(63 citation statements)
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“…By using a series of mass-balance differential equations to describe the processes of absorption, distribution, metabolism, and elimination after exposure to a chemical at certain concentrations, a physiologically based toxicokinetic (PBTK) model can be applied to relate exposure to target tissue dose for the relationship between biomarker concentrations and exposures. It is thus possible using a PBTK model to relate to environmental concentrations from biomarker measurements for exposure reconstruction, as has been demonstrated in several studies (Allen et al 2007;Clewell et al 2008;Georgopoulos et al 2009;Lyons et al 2008;Tan et al 2006Tan et al , 2007. PBTK (or PBPK) modeling has developed rapidly and been applied in quantitative risk assessment over the past two decades (Andersen et al 1987(Andersen et al , 1993Andersen 2003;Bailer and Dankovic 1997); moreover, it is being increasingly adopted by regulatory agencies in Europe and North America (Loizou et al 2008).…”
Section: Introductionmentioning
confidence: 99%
“…By using a series of mass-balance differential equations to describe the processes of absorption, distribution, metabolism, and elimination after exposure to a chemical at certain concentrations, a physiologically based toxicokinetic (PBTK) model can be applied to relate exposure to target tissue dose for the relationship between biomarker concentrations and exposures. It is thus possible using a PBTK model to relate to environmental concentrations from biomarker measurements for exposure reconstruction, as has been demonstrated in several studies (Allen et al 2007;Clewell et al 2008;Georgopoulos et al 2009;Lyons et al 2008;Tan et al 2006Tan et al , 2007. PBTK (or PBPK) modeling has developed rapidly and been applied in quantitative risk assessment over the past two decades (Andersen et al 1987(Andersen et al , 1993Andersen 2003;Bailer and Dankovic 1997); moreover, it is being increasingly adopted by regulatory agencies in Europe and North America (Loizou et al 2008).…”
Section: Introductionmentioning
confidence: 99%
“…Although traditionally used for environmental toxicants, PBPK models are increasingly used for the prediction of absorption, distribution, metabolism, and excretion (ADME) of various drugs (45)(46)(47), including antibiotics (9,10,16,32). A relatively recent advance in PBPK modeling has been the incorporation of approaches for accounting for interindividual variabilities in anatomy, physiology, biochemistry, and chemical exposure (1,6,8,12,36,39). Among other things, these approaches allow a rigorous incorporation of uncertainties, as well as predictions of chemical ADME in susceptible subpopulations.…”
mentioning
confidence: 99%
“…For chemicals that have sufficiently known sources and exposure pathways, more elaborate dose-reconstruction scenarios can be formulated using probabilistic models (Lyons et al, 2008;Georgopoulos et al, 2009;Tan et al, 2012).…”
Section: Reverse Dosimetry-based Methodsmentioning
confidence: 99%
“…The detailed methodology involved in the probabilistic approaches are beyond the scope of this review article and the readers are directed to related publications in this area (Clewell et al, 2008;Tan and Clewell, 2010;Tan et al, 2012;Grulke et al, 2013;Côté et al, 2014). This approach has been used to derive exposure distributions to several VOCs such as chloroform bromodichloromethane, dibromochloromethane, and bromoform using NHANES III dataset (Tan et al, 2007;Lyons et al, 2008;McNally et al, 2012).…”
Section: Probabilistic Approachesmentioning
confidence: 99%