Journal
BRITISH JOURNAL OF PHARMACOLOGY
Volume 171, Issue 4, Pages 1043-1053Publisher
WILEY-BLACKWELL
DOI: 10.1111/bph.12533
Keywords
in vivo' K-i; physiologically based pharmacokinetic modelling; dabigatran etexilate; P-glycoprotein; digoxin
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Background and purposeIn vitro inhibitory potency (K-i)-based predictions of P-glycoprotein (P-gp)-mediated drug-drug interactions (DDIs) are hampered by the substantial variability in inhibitory potency. In this study, in vivo-based [I]/K-i values were used to predict the DDI risks of a P-gp substrate dabigatran etexilate (DABE) using physiologically based pharmacokinetic (PBPK) modelling. Experimental approachA baseline PBPK model was established with digoxin, a known P-gp substrate. The K-m (P-gp transport) of digoxin in the baseline PBPK model was adjusted to K-m(i) to fit the change of digoxin pharmacokinetics in the presence of a P-gp inhibitor. Then in vivo' [I]/K-i of this P-gp inhibitor was calculated using K-m(i)/K-m. Baseline PBPK model was developed for DABE, and the in vivo' [I]/K-i was incorporated into this model to simulate the static effect of P-gp inhibitor on DABE pharmacokinetics. This approach was verified by comparing the observed and the simulated DABE pharmacokinetics in the presence of five different P-gp inhibitors. Key resultsThis approach accurately predicted the effects of five P-gp inhibitors on DABE pharmacokinetics (98-133% and 89-104% for the ratios of AUC and C-max respectively). The effects of 16 other P-gp inhibitors on the pharmacokinetics of DABE were also confidently simulated. Conclusions and implicationsIn vivo' [I]/K-i and PBPK modelling, used in combination, can accurately predict P-gp-mediated DDIs. The described framework provides a mechanistic basis for the proper design of clinical DDI studies, as well as avoiding unnecessary clinical DDI studies.
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