Whole-body physiologically based pharmacokinetic population modelling of oral drug administration: inter-individual variability of cimetidine absorption

西咪替丁 药代动力学 吸收(声学) 药理学 口服 人口 药品 胃排空 体内 溶解试验 化学 生物利用度 医学 生物 生物化学 材料科学 生物技术 生物制药分类系统 环境卫生 复合材料
作者
Stefan Willmann,Andrea N. Edginton,Marcus Kleine-Besten,Ekarat Jantratid,Kirstin Thelen,Jennifer B. Dressman
出处
期刊:Journal of Pharmacy and Pharmacology [Oxford University Press]
卷期号:61 (7): 891-899 被引量:25
标识
DOI:10.1211/jpp.61.07.0008
摘要

Inter-individual variability of gastrointestinal physiology and transit properties can greatly influence the pharmacokinetics of an orally administered drug in vivo. To predict the expected range of pharmacokinetic plasma concentrations after oral drug administration, a physiologically based pharmacokinetic population model for gastrointestinal transit and absorption was developed and evaluated.Mean values and variability measures of model parameters affecting the rate and extent of cimetidine absorption, such as gastric emptying, intestinal transit times and effective surface area of the small intestine, were obtained from the literature. Various scenarios incorporating different extents of inter-individual physiological variability were simulated and the simulation results were compared with experimental human study data obtained after oral cimetidine administration of four different tablets with varying release kinetics.The inter-individual variability in effective surface area was the largest contributor to absorption variability. Based on in-vitro dissolution profiles, the mean plasma cimetidine concentration-time profiles as well as the inter-individual variability could be well described for three cimetidine formulations. In the case of the formulation with the slowest dissolution kinetic, model predictions on the basis of the in-vitro dissolution profile underestimated the plasma exposure.The model facilitates predictions of the inter-individual pharmacokinetic variability after oral drug administration for immediate and extended-release formulations of cimetidine, given reasonable in-vitro dissolution kinetics.
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