Using exposure prediction tools to link exposure and dosimetry for risk-based decisions: A case study with phthalates

Moreau, Marjory; Leonard, Jeremy A.; Phillips, Katherine A.; Campbell, Jerry L.; Pendse, Salil N.; Nicolas, Chantel I.; Phillips, Martin B.; Yoon, Miyoung; Tan, Yu‐Mei; Smith, Sherrie; Pudukodu, Harish; Isaacs, Kristin; Clewell, Harvey J.

doi:10.1016/j.chemosphere.2017.06.098

Cited by 24 publications

(7 citation statements)

References 47 publications

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“…With regard to phthalates, a PBTK model has been developed by Moreau et al (2017) for di-2ethylhexyl phthalate (DEHP) and dibutyl phthalate (DnBP) as case compounds. This modelling effort aimed at providing exposure estimates starting from the NHANES biomonitoring data and compared these estimates with high-throughput HT Stochastic Human Exposure and Dose Simulation model (SHEDS-HT) and the ExpoCast heuristic model and non-HT approaches based on chemical specific exposure estimations in the environment in conjunction with human exposure factors.…”

Section: Discussionmentioning

confidence: 99%

“…Later, a PBTK model was established as an exposure prediction tool for DEHP and DnBP in humans (Moreau et al, 2017), based on the model of Gentry et al (2011), including the four interconnected sub-models for the diester, the hydrolytic monoester, the oxidative metabolites and the glucorinide conjugate. Diester distributed in the gut wall was passed to the liver via the portal blood, while their monoester metabolites MEHP and MBP were readily absorbed in the gut.…”

Section: Phthalates and Dinchmentioning

confidence: 99%

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Physiology-based toxicokinetic modelling in the frame of the European Human Biomonitoring Initiative

Sarigiannis

Karakitsios

Dominguez-Romero

et al. 2019

Environmental Research

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Given the opportunities provided by internal dosimetry modelling in the interpretation of human biomonitoring (HBM) data, the assessment of the links between exposure to chemicals and observed HBM data can be effectively supported by PBTK modelling. This paper gives a comprehensive review of available human PBTK models for compounds selected as a priority by the European Human Biomonitoring Initiative (HBM4EU). We highlight their advantages and deficiencies and suggest steps for advanced internal dose modelling. The review of the available PBTK models highlighted the conceptual differences between older models compared to the ones developed recently, reflecting commensurate differences in research questions. Due to the lack of coordinated strategies for deriving useful biomonitoring data for toxicokinetic properties, significant problems in model parameterisation still remain; these are further increased by the lack of human toxicokinetic data due to ethics issues.

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Section: Discussionmentioning

confidence: 99%

Section: Phthalates and Dinchmentioning

confidence: 99%

Physiology-based toxicokinetic modelling in the frame of the European Human Biomonitoring Initiative

Sarigiannis

Karakitsios

Dominguez-Romero

et al. 2019

Environmental Research

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“…With the exception of the IMAP assessment, the various exposure assessments all include exposure estimates derived from both biomonitoring data and scenario-based exposure estimates. These approaches complement each other and can give a relatively complete picture of the exposure situation if the results are combined effectively and with an understanding of the strengths and weaknesses of each approach. , With studies such as the National Health and Nutrition Examination Survey (NHANES), the Canadian Health Measures Survey (CHMS), and the European DEMOCOPHES project providing more information, the trend is to put more emphasis on biomonitoring results. In comparison, scenario-based exposure assessments rely mostly on a similar (though expanding) body of literature and equations, often citing each other in the process.…”

Section: An Overview Of International Drivers For Risk Assessment Of ...mentioning

confidence: 99%

Assessing Human Exposure to Chemicals in Materials, Products and Articles: The International Risk Management Landscape for Phthalates

Eichler

Hubal

Little

2019

Environ. Sci. Technol.

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Risk-based chemical safety assessments are increasingly being conducted to support chemical management decisions and informed substitution to protect public health. Rapid evaluation and prioritization of large numbers of chemicals used in materials, products, and other indoor articles has become a major focus of chemical risk management strategies. Internationally, although a shared understanding of the value of rapid risk-based evaluations appears to be emerging, implementation strategies and associated management decisions vary from one agency and jurisdiction to another. This paper highlights the international chemical risk management landscape focusing on phthalates as an example, and reviews how phthalate exposure assessments have been performed, resulting at times in different decisions based on the application of scientific information within different policy contexts. In general, the need for efficient and effective risk-based assessment approaches is driving increased needs for high-quality exposure data and validated, mechanistic exposure models. Further development of mechanistic models and related parameters will reduce uncertainties in exposure estimates and support scientific risk-based evaluations of chemical/product combinations for a variety of decisions.

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“…This is especially true for semivolatile organic compounds (SVOCs) due to their multimedia behavior. Unlike volatile organic compounds (VOCs) or most metals, SVOCs partition among multiple indoor compartments, including people, according to their physicochemical properties. ,− As the number of source/chemical combinations increases steadily, traditional assessment approaches are challenged to keep pace given that key emission and exposure parameters have only been measured for very few combinations that do not necessarily span the full range of exposure conditions. ,, Potential approaches to facilitate the transition from hazard-driven, single-chemical assessments toward rapid, risk-based, high-throughput (HT) prioritization are already being developed and include procedures to estimate exposure, toxicity, and toxicokinetics. ,− For example, HT screening methods allow testing of large numbers of samples with highly automated instruments in combination with advanced data processing software. ,,, Substantial efforts have been made in generating HT hazard information and HT toxicokinetics, but essential information to predict human exposure to chemicals released from indoor sources is frequently missing. , To fully realize the potential of new chemical risk assessment approaches, reliable chemical exposure models need to be coupled with quickly accessible toxicity data. ,− …”

Section: Introductionmentioning

confidence: 99%

Assessing Human Exposure to SVOCs in Materials, Products, and Articles: A Modular Mechanistic Framework

Eichler

Hubal

et al. 2020

Environ. Sci. Technol.

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A critical review of the current state of knowledge of chemical emissions from indoor sources, partitioning among indoor compartments, and the ensuing indoor exposure leads to a proposal for a modular mechanistic framework for predicting human exposure to semivolatile organic compounds (SVOCs). Mechanistically consistent source emission categories include solid, soft, frequent contact, applied, sprayed, and high temperature sources. Environmental compartments are the gas phase, airborne particles, settled dust, indoor surfaces, and clothing. Identified research needs are the development of dynamic emission models for several of the source emission categories and of estimation strategies for critical model parameters. The modular structure of the framework facilitates subsequent inclusion of new knowledge, other chemical classes of indoor pollutants, and additional mechanistic processes relevant to human exposure indoors. The framework may serve as the foundation for developing an open-source community model to better support collaborative research and improve access for application by stakeholders. Combining exposure estimates derived using this framework with toxicity data for different end points and toxicokinetic mechanisms will accelerate chemical risk prioritization, advance effective chemical management decisions, and protect public health.

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Using exposure prediction tools to link exposure and dosimetry for risk-based decisions: A case study with phthalates

Cited by 24 publications

References 47 publications

Physiology-based toxicokinetic modelling in the frame of the European Human Biomonitoring Initiative

Physiology-based toxicokinetic modelling in the frame of the European Human Biomonitoring Initiative

Assessing Human Exposure to Chemicals in Materials, Products and Articles: The International Risk Management Landscape for Phthalates

Assessing Human Exposure to SVOCs in Materials, Products, and Articles: A Modular Mechanistic Framework

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