Title of article
Mode of action and tissue dosimetry in current and future risk assessments
Author/Authors
Melvin E. Andersen ، نويسنده , , James E. Dennison، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2001
Pages
14
From page
1
To page
14
Abstract
Two fundamental concepts have emerged to organize contemporary approaches to chemical risk assessment
mode of action and tissue dosimetry. Mode of action specifies the nature of the interactions between the chemical
and the body that lead to toxic responses and should, under optimal circumstances, also specify the form of the tissue
dose that leads to these effects. This paper highlights recent development of biologically based dose response
ŽBBDR. models for specific toxic endpoints that use knowledge on mode of action to specify measures of dose. These
dose measures then are used to support low dose and interspecies extrapolations. We first focus on a series of dose
response models developed for several compounds that produce nasal toxicity. These examples demonstrate a range
of model structures from simple dosimetry models Žmethylmethacrylate. to linkage of dosimetry with specific
biological processes involved in carcinogenesis Žformaldehyde.. Two BBDR models with dioxin illustrate the
organization of biological and dosimetry information into specific testable hypotheses that could distinguish these
different models and lead to a more uniform approach to risk assessment for this compound. A final section discusses
the impact of molecular biology and the genomic revolution in relation to development of BBDR models for specific
toxic endpoints.
Keywords
proteomics , genomics , Pharmacokinetics , risk assessment , Methylene chloride , Vinyl chloride , Vinyl acetate , dioxin , Methyl methacrylate , Inhaled organic esters , Pharmacodynamic modeling , BBDR Modeling
Journal title
Science of the Total Environment
Serial Year
2001
Journal title
Science of the Total Environment
Record number
982651
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