Population pharmacokinetics of bedaquiline (TMC207), a novel antituberculosis drug

Bedaquiline is a novel agent for the treatment of pulmonary multidrug-resistant Mycobacterium tuberculosis infections, in combination with other agents. The objective of this study was to develop a population pharmacokinetic (PK) model for bedaquiline to describe the concentration-time data from phase I and II studies in healthy subjects and patients with drug-susceptible or multidrug-resistant tuberculosis (TB). A total of 5,222 PK observations from 480 subjects were used in a nonlinear mixed-effects modeling approach. The PK was described with a 4-compartment disposition model with dual zero-order input (to capture dual peaks observed during absorption) and long terminal half-life (t). The model included between-subject variability on apparent clearance (CL/F), apparent central volume of distribution (V/F), the fraction of dose via the first input, and bioavailability (F). Bedaquiline was widely distributed, with apparent volume at steady state of >10,000 liters and low clearance. The long terminal t was likely due to redistribution from the tissue compartments. The final covariate model adequately described the data and had good simulation characteristics. The CL/F was found to be 52.0% higher for subjects of black race than that for subjects of other races, and V/F was 15.7% lower for females than that for males, although their effects on bedaquiline exposure were not considered to be clinically relevant. Small differences in F and CL/F were observed between the studies. The residual unexplained variability was 20.6% and was higher (27.7%) for long-term phase II studies

Long-term suppression of viral replication despite low plasma saquinavir concentrations in the CHEESE Study

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Pharmacokinetics of once-daily saquinavir hard-gelatin capsules and Saquinavir soft-gelatin capsules boosted with Ritonavir in HIV-1-infected subjects

OBJECTIVE: To investigate the pharmacokinetics of once-daily saquinavir (SQV) hard-gelatin capsule (HGC)/ritonavir (RTV), 1600/100 mg, compared with once-daily SQV soft-gelatin capsule (SGC)/RTV, 1600/100 mg. METHODS: We evaluated 13 randomly selected HIV-1-infected subjects taking once-daily SQV SGC/RTV, 1600/100 mg, plus dual nucleoside reverse transcriptase inhibitors (NRTIs) in this pharmacokinetic (PK) substudy. Subjects took 1 week of SQV HGC/RTV and NRTIs, followed by steady-state SQV PK determinations. Subjects then changed to SQV SGC/RTV and NRTIs for 1 week, followed again by steady-state SQV PK determinations. Area under the plasma concentration versus time curve (AUC), maximum concentration (C(max)), minimum concentration (C(min)), time to C(max), and elimination half-life were calculated. RESULTS: There was no significant difference in AUC values between HGCs and SGCs, with a median (plus interquartile range [IQR]) of 50.0 (42.6-71.5) versus 35.5 (28.0-50.2) mg/L/h, respectively ( =.056). Intersubject variability resulted in 4 of 13 subjects on the SQV SGCs and 2 of 13 subjects on the SQV HGCs having a C(min) below the minimum effective concentration of 0.05 mg/L. CONCLUSION: Once-daily SQV HGCs, 1600 mg, boosted with once-daily RTV, 100 mg, resulted in PK parameters that were similar to those observed with 1600 mg of SQV SGC/100 mg RTV once daily. Once-daily SQV HGC/RTV, 1600/100 mg, may be easier to use in developing countries and may increase access where drug costs can be less, the capsule size is smaller, and the need for refrigeration is lessene

Pharmacokinetics of indinavir/ritonavir (800/100 mg) in combination with efavirenz (600 mg) in HIV-1-infected subjects

Background: Addition of efavirenz (600 mg) to indinavir/ritonavir (800/100 mg) results in significant decreases in indinavir levels in healthy volunteers. This study evaluated the steady-state phamacokinetics of indinavir/ritonavir at 800/100 mg twice daily (bid) in combination with efavirenz at 600 mg once daily (qd) in HIV-infected Thai Subjects who used this nucleoside-sparing combination in The HIV Netherlands Australia Thailand Research Collaboration 009 study. Methods: At week 4 of the study, 12-hour pharmacokinetic profiles for indinavir/ritonavir were obtained for 20 HIV-infected subjects. For efavirenz, the concentrations at 12 hours and 24 hours (C-min) after dosing were assessed. Results: All subjects (10 males and 10 females) completed the study. The geometric mean area under the concentration versus time curve, C-min, and maximum plasma concentration of indinavir were 45.7 mg/(L (.) h) (95% confidence interval [CI], 39.8-52.5), 0.32 mg/L (95% CI, 0.24-0.44), and 11.1 mg/L (95% CI, 9.4-13.0), respectively. A > 10-fold variation in indinavir C-min was observed. All subjects had an indinavir C-min that was at least comparable with the reported mean population C-min of indinavir at 800 mg thrice daily without ritonavir (0.15 mg/L). The geometric mean concentration at 12 hours and C-min of efavirenz were 3.1 mg/L (95% CI, 2.5-3.7) and 2.1 mg/L (95% CI, 1.6-2.6), respectively. Conclusions: Despite the known pharmacokinetic interaction between efavirenz and indinavir/ritonavir, the combination of indinavir/ritonavir at 800/100 mg bid and efavirenz at 600 mg qd results in adequate minimum concentrations of both indinavir and efavirenz for treatment-naive patient

The effect of beta-carotene supplementation on the pharmacokinetics of nelfinavir and its active metabolite M8 in HIV-1-infected patients.

Contains fulltext : 109786.pdf (publisher's version ) (Open Access)beta-Carotene supplements are often taken by individuals living with HIV-1. Contradictory results from in vitro studies suggest that beta-carotene may inhibit or induce cytochrome P450 enzymes and transporters. The study objective was to investigate the effect of beta-carotene on the steady-state pharmacokinetics of nelfinavir and its active metabolite M8 in HIV-1 infected individuals. Twelve hour nelfinavir pharmacokinetic analysis was conducted at baseline and after 28 days of beta-carotene supplementation (25,000 IU twice daily). Nelfinavir and M8 concentrations were measured with validated assays. Non-compartmental methods were used to calculate the pharmacokinetic parameters. Geometric mean ratios comparing day 28 to day 1 area under the plasma concentration-time curve (AUC(0-12 h)), maximum (C(max)) and minimum (C(min)) concentrations of nelfinavir and M8 are presented with 90% confidence intervals. Eleven subjects completed the study and were included in the analysis. There were no significant differences in nelfinavir AUC(0-12 h) and C(min) (-10%, +4%) after beta-carotene supplementation. The M8 C(min) was increased by 31% while the M8 AUC(0-12 h) and C(max) were unchanged. During the 28 day period, mean CD4+ % and CD4+:CD8+ ratio increased significantly (p < 0.01). beta-carotene supplementation increased serum carotene levels but did not cause any clinically significant difference in the nelfinavir and M8 exposure