Abstract
Physiologically based pharmacokinetic modeling of the parent chemical primidone and its two metabolites phenobarbital and phenylethylmalonamide (PEMA) was applied to investigate the differences of primidone metabolism among humans, rats, and mice. The model simulated previously published pharmacokinetic data of the parent chemical and its metabolites in plasma and brain tissues from separate studies of the three species. Metabolism of primidone and its metabolites varied widely among a sample of three human subjects from two separate studies. Estimated primidone metabolism, as expressed by the maximal velocity Vmax, ranged from 0 to 0.24 mg·min−1·kg−1 for the production of phenobarbital and from 0.003 to 0.02 mg·min−1·kg−1 for the production of PEMA among three human subjects. Further model simulations indicated that rats were more efficient at producing and clearing phenobarbital and PEMA than mice. However, the overall metabolism profile of primidone and its metabolites in mice indicated that mice were at higher risk of toxicity owing to higher residence of phenobarbital in their tissues and owing to the carcinogenic potential of phenobarbital as illustrated in long-term bioassays. This result was in agreement with a recently finished National Toxicology Program (NTP) carcinogenicity study of primidone in rats and mice.
Footnotes
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Send reprint requests to: Hisham A. El-Masri, MD A3-06, Laboratory of Computational Biology and Risk Analysis, National Institute of Environmental Health Sciences, P.O. Box 12233, Research Triangle Park, NC 27709.
- Abbreviations used are::
- PEMA
- phenylethylmalonamide
- PBPK
- physiologically based pharmacokinetic
- GI
- gastrointestinal
- Received November 10, 1997.
- Accepted February 20, 1998.
- The American Society for Pharmacology and Experimental Therapeutics
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