- Bioequivalence of a darunavir/cobicistat fixed-dose combination tablet versus single agents and food effect in healthy volunteers.
Bioequivalence of a darunavir/cobicistat fixed-dose combination tablet versus single agents and food effect in healthy volunteers.
Darunavir requires pharmacokinetic enhancement to increase its bioavailability. Cobicistat is potentially an alternative pharmacokinetic booster to ritonavir. Bioequivalence of a darunavir/cobicistat fixed-dose combination (FDC) versus darunavir and cobicistat co-administered as single agents and the effect of a high-fat meal on the pharmacokinetics of the FDC were evaluated. In this Phase I, open-label, randomized, three-panel, crossover study (NCT01619527), healthy volunteers received a single dose of darunavir (800 mg) with cobicistat (150 mg) as either an FDC or as single agents co-administered under fasted (panel 1, n=74) or fed (breakfast, panel 2, n=40) conditions, or as the FDC under fasted versus fed (high-fat breakfast) conditions (panel 3, n=19), with a ≥7 day washout period between treatments. Pharmacokinetic profiles, safety and tolerability were assessed. 90% confidence intervals of the least square mean ratios for darunavir and cobicistat maximum plasma concentration and area under the plasma concentration-time curve (AUC) were all within 80.00% and 125.00% in panels 1 and 2. Administration of the FDC with a high-fat breakfast significantly increased darunavir maximum plasma concentration 2.27-fold and AUC 1.63-1.70-fold, whereas cobicistat pharmacokinetics were unaffected. No volunteers discontinued due to adverse events (AEs). All AEs were grade 1 or 2. Overall, 27 (20%) and 26 (20%) volunteers had ≥1 AE at least possibly related to darunavir and cobicistat, respectively. Bioequivalence of the darunavir/cobicistat 800/150-mg FDC was demonstrated versus darunavir and cobicistat co-administered as single agents under fasted or fed conditions. Food increased darunavir exposure, therefore, darunavir/cobicistat should be administered with food.