Meta-analysis of steady-state pharmacokinetics of troglitazone and its metabolites.

The object of this study is to evaluate the effects of age, gender, age-by-gender interaction, Type II diabetes, body weight, race, smoking, and formulation on steady-state pharmacokinetics of troglitazone, Metabolite 1 (sulfate conjugate), and Metabolite 3 (quinone metabolite) following multiple-dose oral administration of troglitazone. Pharmacokinetic parameter estimates [Cl/F (apparent oral clearance), AUC0-24 (area under plasma concentration-time curve), and ratio of AUC for troglitazone to Metabolite 1 and to Metabolite 3] obtained from 84 healthy volunteers and 171 patients with Type II diabetes in 8 studies were analyzed using a graphical method (for race and smoking) or a weighted ANCOVA model incorporating gender, health status (healthy vs Type II diabetes), and formulation as main effects; age, age-by-gender interaction, and body weight as continuous covariates. Ratio of AUC for troglitazone to metabolites was also examined by inspection of log-probit plots. Age, gender, age-by-gender, Type II diabetes, and formulation had negligible effects on troglitazone Cl/F, AUC0-24 (all analytes), and AUC ratio of troglitazone to metabolites. Race and smoking did not appear to influence steady-state pharmacokinetics of troglitazone and its metabolites. Although body weight was a significant covariate for AUC0-24 and Cl/F, the explanatory power of the overall model was weak (R2 < 0.2). Log-probit plots did not reveal a polymorphic distribution in AUC ratio of troglitazone to Metabolite 1 or Metabolite 3. Based on pharmacokinetics, dose adjustment for troglitazone in relation to the demographic factors examined is not required due to their poor predictive ability on steady-state pharmacokinetics of troglitazone and its metabolites.

Steady-state pharmacokinetics and dose proportionality of troglitazone and its metabolites.

This study evaluated the steady-state pharmacokinetics and dose proportionality of troglitazone, metabolite 1 (sulfate conjugate), and metabolite 3 (quinone metabolite) following administration of daily oral doses of 200, 400, and 600 mg troglitazone for 7 days (per dosing period) to 21 subjects. During each dosing period, plasma samples were collected predose on days 1, 5, 6 and 7 and serially for 24 hours on day 7. Steady-state plasma concentrations for troglitazone, metabolite 1, and metabolite 3 were achieved by day 7. Troglitazone was rapidly absorbed with mean tmax values of 2.7 to 2.9 hours. Mean Cmax and AUC(0-24) values for troglitazone, metabolite 1, and metabolite 3 increased proportionally with increasing troglitazone doses over the clinical dose range of 200 mg to 600 mg administered once daily. Mean troglitazone CL/F, percent fluctuation, and AUC ratios of metabolite 1 and metabolite 3 to troglitazone were similar across dose groups. These data suggest that the pharmacokinetics and disposition of troglitazone and its metabolites are independent of dose over the dose range studied. Thus, troglitazone, metabolite 1, and metabolite 3 displayed linear pharmacokinetics at steady-state.

Drug interactions with clinafloxacin.

Many fluoroquinolone antibiotics are inhibitors of cytochrome P450 enzyme systems and may produce potentially important drug interactions when administered with other drugs. Studies were conducted to determine the effect of clinafloxacin on the pharmacokinetics of theophylline, caffeine, warfarin, and phenytoin, as well as the effect of phenytoin on the pharmacokinetics of clinafloxacin. Concomitant administration of 200 or 400 mg of clinafloxacin reduces mean theophylline clearance by approximately 50 and 70%, respectively, and reduces mean caffeine clearance by 84%. (R)-Warfarin concentrations in plasma during clinafloxacin administration are 32% higher and (S)-warfarin concentrations do not change during clinafloxacin treatment. An observed late pharmacodynamic effect was most likely due to gut flora changes. Phenytoin has no effect on clinafloxacin pharmacokinetics, while phenytoin clearance is 15% lower during clinafloxacin administration.