Abstract
Prediction of the extent and time course of drug-drug interactions (DDIs) between the mechanism-based inhibitor diltiazem (DTZ) and the CYP3A4 substrate midazolam (MDZ) is confounded by time- and concentration-dependent clearance of the inhibitor. Semiphysiologically based pharmacokinetic (PBPK) models were developed for DTZ and MDZ with the major metabolite of DTZ, N-desmethyldiltiazem (nd-DTZ), incorporated in the DTZ model. Enzyme kinetic parameters (kinact and KI) for DTZ and nd-DTZ were estimated in vitro and used to model the time course of changes in the amount of CYP3A4 in the liver and gut wall, which in turn, determined the nonlinear elimination of MDZ and DTZ, and the corresponding DDI. The robustness of the model prediction was assessed by comparing the results of the prediction to published DTZ pharmacokinetic and DTZ/MDZ interaction data. A clinical study was conducted to further validate the predicted increase of MDZ exposure after DTZ treatment. The model predicted the nonlinear disposition of DTZ after single and multiple oral doses. The clinical study showed that DTZ treatment resulted in 4.1- and 1.6-fold increases in MDZ exposure after oral and intravenous MDZ administration, respectively, suggesting that the DDI in the gut wall plays an important role in the DTZ/MDZ interaction. The semi-PBPK model incorporating the DDI at the gut wall, and the effect of nd-DTZ successfully predicted the nonlinear disposition of DTZ and its interaction with MDZ. Moreover, model simulation suggested that both DTZ and nd-DTZ contributed to the overall inhibitory effect after DTZ administration, and the values of the in vitro estimated inhibition parameters and CYP3A4 turnover rate are critical for the prediction.
Footnotes
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Article, publication date, and citation information can be found at http://dmd.aspetjournals.org.
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doi:10.1124/dmd.109.026658.
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ABBREVIATIONS: DTZ, diltiazem; nd-DTZ, N-desmethyldiltiazem; AUC, area under the plasma concentration-time curve; AUC0–∞, AUC from 0 to infinity; MDZ, midazolam; DDI, drug-drug interaction; PBPK, physiologically based pharmacokinetic; IR, immediate-release; SR, slow-release; PK, pharmacokinetic; HLM, human liver microsome.
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↵1 Current affiliation: Department of Drug Disposition, Eli Lilly and Company, Indianapolis, Indiana.
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↵2 Current affiliation: Division of Biostatistics, Indiana University School of Medicine, Indianapolis, Indiana.
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↵3 Current affiliation: Mylan Pharmaceuticals, Inc., Morgantown, West Virginia.
- Accepted May 1, 2009.
- Received January 10, 2009.
- The American Society for Pharmacology and Experimental Therapeutics
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