Single-dose pharmacokinetics of pediatric and adult formulations of etravirine and swallowability of the 200-mg tablet: results from three Phase 1 studies.

OBJECTIVES: Three studies were conducted to assess the pharmacokinetics, methods of administration and ease of swallowability of etravirine tablets. METHODS: Two randomized studies in healthy adults investigated the single-dose pharmacokinetics of etravirine in various dosage strengths and the effects of dispersion in water and film-coating. A third study explored swallowability of etravirine 200-mg tablets in HIV-infected patients. First study: 37 volunteers received 1 × 100-mg non-coated tablet (reference), 4 × 25-mg noncoated tablets and 1 × 100-mg non-coated tablet dispersed in 100 ml water. Second study: 24 volunteers received 2 × 100-mg non-coated tablets (reference), 2 × 100-mg coated tablets, 1 × 200-mg non-coated and 1 × 200-mg coated tablet. Pharmacokinetic parameters were determined using non-compartmental analysis and least square means (LSM) ratios and 90% confidence intervals (CI) were calculated. Third study: 49 virologically-suppressed patients already on an etravirine-containing regimen rated the swallowability of two etravirine formulations (200-mg non-coated and 200-mg coated tablets). RESULTS: In the first study LSM ratios (90% CI) for the etravirine area under the plasma concentration-time curve (AUC) administered either as 4 × 25-mg tablets or 100-mg tablet dispersed were: 0.91 (0.85 to 0.98) and 0.97 (0.90 to 1.03), respectively. In the second study, when comparing a 200-mg non-coated and coated tablet to 2 × 100-mg non-coated tablets, LSM ratios for etravirine AUC were 98 to 99%. In the third study, more patients rated the 200-mg than the 100-mg tablets as acceptable to swallow (70% vs. 43%). CONCLUSIONS: Comparable etravirine exposures were observed regardless of formulation or method of administration (i.e., dispersion); 200-mg tablets were rated as easier to swallow than 100-mg tablets.

Pharmacokinetics and short-term safety and tolerability of etravirine in treatment-experienced HIV-1-infected children and adolescents.

OBJECTIVES: To evaluate the pharmacokinetics, weight-based dose selection and short-term safety and tolerability of etravirine in HIV-1-infected children and adolescents. DESIGN: Phase I, nonrandomized, open-label study in two stages. METHODS: Children and adolescents aged at least 6 years to 17 years or less on a stable lopinavir/ritonavir-based antiretroviral regimen with HIV-1 RNA plasma viral load less than 50 copies/ml were enrolled. In both stages, etravirine (4 mg/kg twice daily in stage I, 5.2 mg/kg twice daily in stage II), added to the existing antiretroviral regimen, was administered for 7 days followed by a morning dose and 12-h pharmacokinetic assessment on day 8. Pharmacokinetic parameters were determined using noncompartmental analysis. Data were compared with those previously established in HIV-1-infected adults on a similar etravirine (200 mg twice daily) combination antiretroviral regimen. RESULTS: Twenty-one patients were recruited to each stage; 19 and 20 had evaluable pharmacokinetics in stages I and II, respectively. Mean (SD) maximum plasma concentrations in stages I and II were 495 (453) and 757 ng/ml (680), respectively; area under the plasma concentration-time curve over 12 h was 4050 (3602) and 6141 ng h/ml (5586), respectively. Statistical/qualitative comparisons showed comparable exposures with adults in stage II; however, the upper 90% confidence interval fell outside the predefined range. Plasma viral load remained undetectable on day 8 in all patients, and etravirine was well tolerated at both doses. CONCLUSION: Etravirine 5.2 mg/kg was well tolerated in this study and this dose was selected for further investigation in clinical trials.

Physicochemical properties of the amorphous drug, cast films, and spray dried powders to predict formulation probability of success for solid dispersions: etravirine.

Solid dispersion technology represents an enabling approach to formulate poorly water-soluble drugs. While providing for a potentially increased oral bioavailability secondary to an increased drug dissolution rate, amorphous dispersions can be limited by their physical stability. The ability to assess formulation risk in this regard early in development programs can not only help in guiding development strategies but can also point to critical design elements in the configuration of the dosage form. Based on experience with a recently approved solid dispersion-based product, Intelence® (etravirine), a three part strategy is suggested to predict early formulate-ability of these systems. The components include an assessment of the amorphous form, a study of binary drug/carrier cast films and the evaluation of a powder of the drug and polymer processed in a manner relevant to the intended final dosage form. A variety of thermoanalytical, spectroscopic, and spectrophotometric approaches were applied to study the prepared materials. The data suggest a correlation between the glass forming ability and stability of the amorphous drug and the nature of the final formulation. Cast films can provide early information on miscibility and stabilization and assessment of processed powders can help define requirements and identify issues with potential final formulations.

An investigation into the crystallisation behaviour of an amorphous cryomilled pharmaceutical material above and below the glass transition temperature.

The aim of this study was to evaluate the glass transition and recrystallisation of a cryomilled drug, TMC125 (Etravirine), with particular emphasis on assessing the physical stability of the drug above and below the glass transition temperature. DSC (conventional, fast and modulated temperature) and variable temperature ATR-FTIR spectroscopy were employed to monitor the glass transition and crystallisation behaviour of the material. The isothermal crystallisation behaviour was investigated at temperatures below T(g). The humidity-induced crystallisation behaviour of the material was evaluated using dynamic vapour sorption (DVS). The glass transition (99 degrees C) was measured in isolation from the crystallisation process using fast DSC, while ATR-FTIR allowed identification of the polymorph formed on recrystallisation. At a heating rate of 0.2 degrees C/min, the onset temperature of the crystallisation exotherm (67 degrees C) was 32 degrees C below T(g). Evidence is presented for incomplete crystallisation under isothermal conditions. In conclusion, the study has ascertained the crystallisation profile of cryomilled Etravirine under both isothermal and scanning conditions, with the material showing marked physical instability below the measured T(g).

Effects of different meal compositions and fasted state on the oral bioavailability of etravirine.

STUDY OBJECTIVE: To determine the effects of various meal compositions and the fasted state on the pharmacokinetics of etravirine, a nonnucleoside reverse transcriptase inhibitor. DESIGN: Phase I, open-label, randomized, repeated single-dose, three-period crossover trial. SETTING: Clinical pharmacology unit. PARTICIPANTS: Two parallel panels of 12 human immunodeficiency virus (HIV)-negative, healthy, male volunteers. Twenty volunteers completed the study; three withdrew consent, and one was lost to follow-up. Intervention. Panel 1 received a single dose of etravirine 100 mg after a standard breakfast, in the fasted state, and after a light breakfast (croissant). Panel 2 received the same treatment after a standard breakfast, after an enhanced-fiber breakfast, and after a high-fat breakfast. Each treatment was separated by a washout period of at least 14 days. MEASUREMENTS AND MAIN RESULTS: For each treatment, full pharmacokinetic profiles of etravirine were determined up to 96 hours after dosing. Pharmacokinetic parameters were determined by noncompartmental methods and analyzed using a linear mixed-effects model for a crossover design. The least-squares mean ratio for the area under the plasma concentration-time curve from time of administration to the last time point with a measurable concentration after dosing (AUClast) was 0.49 (90% confidence interval [CI] 0.39-0.61) for the fasted state compared with dosing after a standard breakfast. When dosing occurred after a light or enhanced-fiber breakfast, the corresponding values were 0.80 (90% CI 0.69-0.94) and 0.75 (90% CI 0.63-0.90), respectively. When administered after a high-fat breakfast the least-squares mean ratio of AUC(last) was 1.09 (0.84-1.41), compared with dosing after a standard breakfast. Adverse events were also assessed. Under all conditions, single doses of etravirine 100 mg were generally safe and well tolerated. CONCLUSION: Administration of etravirine in a fasted state resulted in 51% lower mean exposure compared with dosing after a standard breakfast. Etravirine should be administered following a meal to improve bioavailability; however, differences in exposure after a standard breakfast versus a high-fat, enhanced-fiber, or light breakfast (croissant) were not considered clinically relevant.