Prediction of human pharmacokinetics of panipenem-betamipron, a new carbapenem, from animal data.

The pharmacokinetic behavior of panipenem (PAPM)-betamipron (BP), a new carbapenem, in humans was successfully predicted from data collected from six animal species. PAPM and BP were biphasically eliminated from plasma after intravenous (i.v.) administration of PAPM-BP to mice, guinea pigs, rats, rabbits, monkeys, and dogs. Elimination rates of PAPM and BP were correlated with animal size: the larger the animal was, the slower the elimination was. As for PAPM and BP, log-log plots of total plasma clearance (CLtot) versus body weight and log-log plots of distribution volume at steady state (VSS) versus body weight for six animal species were linear, with high correlation coefficients. These allometric equations were extrapolated to predict CLtot and VSS for PAPM and BP in humans. In addition, concentration in plasma-time profiles for humans were predicted by using two-exponent equations fitted to the complex Dedrick plot of animal data. Predicted values for CLtot and VSS for PAPM and BP in humans agreed well with observed values in humans given 750/750 mg of PAPM-BP as an i.v. drip infusion for 30 min. Predicted concentration in plasma-time profiles for humans approximated observed profiles. Thus, the pharmacokinetics of PAPM-BP extrapolated well from animal species to humans when allometric equations and the complex Dedrick plot were used.     

Interspecies scaling of inhalational anesthetic potency minimum alveolar concentration (MAC): application of a correction factor for the prediction of MAC in humans.

The objective of this study was to predict minimum alveolar concentration (MAC) of inhalational anesthetics in humans from animal data. The MAC of 10 anesthetics was obtained from the literature. At least three animal species (excluding humans) were used in the scaling. Interspecies scaling of MAC was performed in two ways: (1) using the traditional allometric approach, the MAC of each drug was plotted against the body weight of the species on a log-log scale, and MAC in humans was predicted from the resultant equation; and (2) MAC in each species was multiplied by a correction factor obtained by adjusting the lung weight of the species based on per kg body weight. The product of the correction factor and the MAC was then plotted against body weight as described in the traditional approach. Predicted MAC values in humans from animal data using simple allometry produced comparatively more error than the prediction made by incorporating the correction factor into the scaling. The results of this study indicate that MAC may not be predicted in humans from animal data using simple allometry; however, applying a correction factor may significantly improve the prediction of MAC in humans from animal data.     

Population pharmacokinetics of ethambutol in South African tuberculosis patients

Ethambutol, one of four drugs in the first-line antitubercular regimen, is used to protect against rifampin resistance in the event of preexisting resistance to isoniazid. The population pharmacokinetics of ethambutol in South African patients with pulmonary tuberculosis were characterized using nonlinear mixed-effects modeling. Patients from 2 centers were treated with ethambutol (800 to 1,500 mg daily) combined with standard antitubercular medication. Plasma concentrations of ethambutol were measured following multiple doses at steady state and were determined using a validated high-pressure liquid chromatography-tandem mass spectrometric method. The data comprised 189 patients (54% male, 12% HIV positive) weighing 47 kg, on average (range, 29 to 86 kg), and having a mean age of 36 years (range, 16 to 72 years). The estimated creatinine clearance was 79 ml/min (range, 23 to 150 ml/min). A two-compartment model with one transit compartment prior to first-order absorption and allometric scaling by body weight on clearance and volume terms was selected. HIV infection was associated with a 15% reduction in bioavailability. Renal function was not related to ethambutol clearance in this cohort. Interoccasion variability exceeded interindividual variability for oral clearance (coefficient of variation, 36 versus 20%). Typical oral clearance in this analysis (39.9 liters/h for a 50-kg individual) was lower than that previously reported, a finding partly explained by the differences in body weight between the studied populations. In summary, a population model describing the pharmacokinetics of ethambutol in South African tuberculosis patients was developed, but additional studies are needed to characterize the effects of renal function.     

Allometric extrapolation of factors VII,VIII and IX clearance in children from adults

Summary. Background: There are situations where a pharmacokinetic (PK) study may not be possible in children, especially in neonates and infants. Under these circumstances, one would like to extrapolate PK parameters from adults or older children to neonates and infants. Allometric scaling is a method which can be used for PK extrapolation from adults to children. Objectives: The objective of this study was to evaluate the predictive performance of an allometric model for the prediction of clearance of three coagulation factors in children from adult clearance. Methods: Clearance values for three coagulation factors (rVIIa, rVIII and rIX) for adults and children were obtained from the literature. The allometric model was developed from adult data and then the model was used to predict clearance of the coagulation factors in individual child. The predicted clearance value was then compared with the observed clearance value in that child. Results: The results of the study indicated that the CL of the three coagulation factors tested in this study could be predicted with accuracy (≤ 30% prediction error) in most of the children from the allometric model developed from adults. Conclusions: The study indicated that allometric scaling could be applied to predict the CL of coagulation factors in children from adults with accuracy. The predicted clearance can then be used to select a dose to initiate a clinical trial (pharmacokinetics, safety and efficacy) in children.     

Phencyclidine pharmacokinetic scaling among species

Interspecies pharmacokinetic parameters (y) for phencyclidine [1-(1-phenylcyclohexyl)piperidine] were correlated with body weight (B) using linear regression and the allometric equation of the form y = aBx (which also may be written as the linear regression equation, log y = x log B + log a). The data were obtained from previously reported pharmacokinetic studies in mammals (i.e., humans, monkey, dog, rat and mouse) and new pharmacokinetic data for the pigeon. The animal body weights ranged from 32.5 to 77,000 g and included 6 animal species from 2 vertebrate classes. The pharmacokinetic parameters correlated with body weight were T1/2 (T1/2 = 126B0.32, r2 = 0.799), volume of distribution (V beta = 10B0.96, r2 = 0.966) and systemic clearance (CLs = 50B0.64, r2 = 0.891). In addition, clearance values were multiplied by the maximum lifespan potential (MLP) of each animal and correlated with body weight [CLs X MLP = (3.3 X 10(5))B1.0, r2 = 0.991]. This helped normalize for species differences in systemic clearance, which correlated with species longevity. These allometric equations should provide the information for scaling phencyclidine pharmacokinetic data among diverse species.     

The effect of endotoxin administration on the pharmacokinetics of chlorzoxazone in humans

OBJECTIVE: Inflammation induced by Escherichia coli lipopolysaccharide alters the clearance of several hepatically eliminated drugs. Extensive rat liver research has shown CYP2E1 down-regulation after lipopolysaccharide administration. To further investigate this phenomenon in humans, lipopolysaccharide was administered to healthy male volunteers and chlorzoxazone was used as a CYP2E1 probe drug. METHODS: Twelve healthy men were given 500 mg oral chlorzoxazone after two daily lipopolysaccharide doses (20 endotoxin units/kg/day) and again after administration of saline solution in this balanced crossover study. Serum and urine chlorzoxazone and 6-hydroxychlorzoxazone were quantified, as well as cytokine and C-reactive protein levels. RESULTS: Lipopolysaccharide produced the expected induction of the acute-phase response shown by elevations in tumor necrosis factor, interleukin-6, C-reactive protein, and temperature. Lipopolysaccharide treatment failed to produce a significant change in the chlorzoxazone oral clearance (4.4 +/- 0.9 mL/min/kg for lipopolysaccharide versus 4.2 +/- 1.4 mL/min/kg for control) or the 6-hydroxychlorzoxazone formation clearance (2.8 +/- 0.65 mL/min/kg for lipopolysaccharide versus 2.5 +/- 0.9 mL/min/kg for control). The high intersubject variabilities in oral clearance and formation clearance were not accounted for by changes in protein binding, cytokine, or C-reactive protein values. In contrast, a significant increase in the 6-hydroxychlorzoxazone glucuronide renal clearance was observed (7.5 +/- 1.37 mL/min/kg for lipopolysaccharide versus 6.1 +/- 1.7 mL/min/kg for control). CONCLUSIONS: This study showed that the inflammatory response to lipopolysaccharide (20 endotoxin units/kg/day for 2 days) in humans does not consistently alter chlorzoxazone hepatic metabolism. However, the significant increase in renal clearance of the glucuronidated metabolite suggests that renal tubular secretion may be increased in humans with acute endotoxemia.     

Pharmacokinetics of (-)-2'-3'-dideoxy-3'-thiacytidine in woodchucks.

The woodchuck (Marmota monax) has proven to be a suitable animal model for studying hepatitis B virus (HBV) infection owing to similarities in the course of infection between woodchuck hepatitis virus (WHV) in woodchucks and HBV in humans. (-)-beta-L-2',3'-Dideoxy-3'-thiacytidine (3TC; lamivudine) is a nucleoside analog which has demonstrated antiviral activity against HBV as well as human immunodeficiency virus (HIV). The purpose of the present investigation was to characterize the pharmacokinetics of 3TC following intravenous and oral administration of 20 mg of 3TC per kg of body weight to woodchucks. Following intravenous administration, the concentrations of 3TC in plasma declined, with a terminal half-life of 2.84 +/- 0.85 h (mean +/- standard deviation). The systemic clearance and steady-state volume of distribution of 3TC were 0.22 +/- 0.078 liters/h/kg and 0.75 +/- 0.13 liters/kg, respectively. The renal clearance of the nucleoside analog was 0.063 +/- 0.016 liters/h/kg. The oral bioavailability of 3TC ranged from 18 to 54%. Allometric relationships between pharmacokinetic parameters and body weight developed by Hussey et al. (E.K. Hussey, K.H. Donn, M.J. Daniel, S.T. Hall, A.J. Harker, and G.L. Evans, J. Clin. Pharmacol. 34:975-977, 1994) were augmented by including data from woodchucks, monkeys (S.M. Blaney, M.J. Daniel, A.J. Harker, K. Godwin, and F.M. Balis, Antimicrob. Agents Chemother. 39:2779-2782, 1995), and additional data from rats (P. Rajagopalan, L. Moore, C.K. Chu, R.F. Schinazi, and F.D. Boudinot, submitted for publication). Interspecies scaling of the pharmacokinetic parameters of 3TC demonstrated a good correlation between clearance (0.74 . W0.76 [where W is body weight]; r = 0.93; P < 0.025), apparent volume of distribution (1.62 . W0.81; r = 0.98; P < 0.005), and steady-state volume of distribution (1.09 . W0.94; r = 0.99; P < 0.05) and species body weight. The allometric relationships for clearance and volume of distribution at steady state predicted the observed pharmacokinetic parameters in humans quite well; however, the apparent volume of distribution was underestimated in humans. Thus, the pharmacokinetic data obtained with the woodchuck HBV animal model should be useful for designing clinical trials.     

Pharmacokinetics of trimethoprim-sulfamethoxazole in critically ill and non-critically ill AIDS patients.

Current dosage regimens of trimethoprim-sulfamethoxazole used to treat Pneumocystis carinii pneumonia in AIDS patients have been based on data from healthy subjects or patients without AIDS. The clearance and absorption characteristics of the drugs may potentially be different between patients with and without AIDS. This study was conducted to assess the pharmacokinetics of trimethoprim-sulfamethoxazole in critically ill and non-critically ill AIDS patients treated for P. carinii pneumonia. Patients received trimethoprim at 15 mg/kg of body weight and sulfamethoxazole at 75 mg/kg of body weight daily intravenously in three to four divided doses and were switched to the oral route when the regimen was tolerated. Serum samples for determination of drug concentrations were obtained over 12 h after intravenous and oral dosing. The pharmacokinetics of trimethoprim and sulfamethoxazole were compared in eight critically ill versus nine non-critically ill male patients and were as follows, respectively: clearance, 1.88 +/- 0.44 versus 1.73 +/- 0.64 ml/min/kg for trimethoprim and 0.40 +/- 0.12 versus 0.34 +/- 0.11 ml/min/kg for sulfamethoxazole; volume of distribution, 1.6 +/- 0.5 versus 1.5 +/- 0.5 liters/kg for trimethoprim and 0.5 +/- 0.3 versus 0.4 +/- 0.1 liters/kg for sulfamethoxazole; and half-life, 10.9 +/- 7.4 versus 11.3 +/- 4.0 h for trimethoprim, and 15.5 +/- 9.5 versus 14.3 +/- 4.7 h for sulfamethoxazole. No significant differences (P > 0.05) were observed between patient groups, although there was wide intersubject variability. Absorption appeared to be similar between the critically ill and non-critically patients: bioavailability was 97.5% +/- 22.4% versus 101.8% +/- 22.7% for trimethoprim and 86.2% +/- 17.9% versus 99.1% +/- 20.5% for sulfamethoxazole, respectively. Because of the similar pharmacokinetics of trimethoprim-sulfamethoxazole in critically ill and non-critically ill AIDS patients, the two groups of patients may receive similar dosages. Dosage adjustment does not appear to be required when switching from the intravenous to the oral route.     

Comparative pharmacokinetics of Racivir, (+/-)-beta-2',3'-dideoxy-5-fluoro-3'-thiacytidine in rats, rabbits, dogs, monkeys and HIV-infected humans

Racivir is a 50:50 racemic mixture of the (-)- and (+)-beta-enantiomers of 2'-deoxy-3'-thia-5-fluorocytosine (FTC), which is being developed for the treatment of HIV and hepatitis B virus (HBV). The (+)-enantiomer of FTC is approximately 10-20-fold less potent than (-)-FTC, but it selects for a different HIV mutation in human lymphocytes. Plasma concentrations from a group of 54 rats, 12 pregnant rabbits and 60 dogs enrolled in large toxicity studies using a wide variety of oral doses, were compared using non-compartment pharmacokinetic modelling versus dose, treatment duration, species and gender. The pharmacokinetics of Racivir were also compared with those of a previously published pharmacokinetic study in rhesus monkeys and with data from HIV-infected human male volunteers. The (+)-FTC, but not the (-)-enantiomer, can be deaminated to the non-toxic inactive metabolite (+)-FTU. Therefore, the plasma exposure to (+)-FTU was also determined. The order of relative plasma exposure to (+)-FTU was rhesus monkeys > humans > pregnant rabbits > dogs > rats. Allometric scaling was performed to relate systemic clearance/fraction of drug absorbed (Cl/F) and terminal phase volume of distribution (Vbeta/F) versus species body weights. No individual animal species mimicked the Cl/F values in humans. However, allometric scaling using a combination of rats, pregnant rabbits and monkeys predicted the mean human Cl/F value better than a combination of rats and rabbits only (within 0.24 and SD of mean vs 0.81 SD of the observed mean value). Similarly, human Vbeta/F values were best predicted using a combination of rat and monkey data (within 0.64 SD of mean value). Species demonstrating greater deamination to (+)-FTU tended to have greater than predicted Cl/F values. The Cmax values of dogs were the closest to humans, but were statistically different. This study highlights the importance of selecting animal species that demonstrate similar cytidine deaminase activity to humans when performing preclinical dosing studies on Racivir and other antiviral agents that are substrates for mammalian cytidine deaminases.     

Forecasting cephalosporin and monobactam antibiotic half-lives in humans from data collected in laboratory animals.

The postdistribution half-lives of 10 cephalosporin and 2 monobactam antibiotics in humans were predicted from data obtained in other mammals. This forecasting was accomplished with the allometric equation t1/2 = aWb, where a is the y intercept and b is the slope obtained from the log-log plot of antibiotic half-life (t1/2) versus body weight (W). Dimensionless similarity criteria were used to produce a biological clock for ceftizoxime elimination. The creation of the biological clock, which measured physiologic time (heartbeats) rather than chronologic time (minutes), demonstrated that ceftizoxime half-life was identical in five mammals. This methodology will contribute to infectious disease research through a greater understanding of pharmacokinetic scaling in mammals.     

Optimal dosing of miltefosine in children and adults with visceral leishmaniasis

Only anecdotal data are available on the pharmacokinetics (PK) of miltefosine in children suffering from visceral leishmaniasis (VL). While failure rates were higher in children with VL, steady-state concentrations appeared lower than those seen with adults. We hypothesized that the current linear dosage (in milligrams per kilogram of body weight) is too low for children and that a new dosing algorithm based on an appropriate body size model would result in an optimal exposure. A population PK analysis was performed on three historic pooled data sets, including Indian children, Indian adults, and European adults. Linear and allometric scaling of PK parameters by either body weight or fat-free mass (FFM) was evaluated for body size models. Based on the developed PK model, a dosing algorithm for miltefosine in children and adults was proposed and evaluated in silico. The population PK model employing allometric scaling fitted best to the pooled miltefosine data. Allometric scaling by FFM reduced between-subject variability, e.g., for drug clearance, from 49.6% to 32.1%. A new allometric miltefosine dosing algorithm was proposed. Exposure to miltefosine was lower in children than adults receiving 2.5 mg/kg/day: a C(max) of 18.8 μg/ml was reached by 90% of adults and 66.7% of children. The allometric daily dose resulted in similar levels of exposure to miltefosine for adults and children. The use of a new allometric dosing algorithm for miltefosine in VL patients results in optimal exposure to miltefosine in both adults and children and might improve clinical outcome in children.     

Developmental pharmacokinetics of lamivudine in 580 pediatric patients ranging from neonates to adolescents

Lamivudine concentration-time courses were described for a very large range of ages to study the effects of body weight and maturation on lamivudine pharmacokinetics and to check the consistency of dosing recommendations. Lamivudine concentrations were monitored on a routine basis to produce concentrations similar to the known values in adults. Concentrations were measured in 580 children from 2 days to 18 years old. A total of 2,106 plasma lamivudine concentrations were measured, and a population pharmacokinetic analysis was performed using the stochastic approximation expectation maximization algorithm implemented in MONOLIX 3.1 software. A two-compartment model adequately described the data. After standardization for a mean standard body weight by using an allometric model, age also had a significant effect on clearance maturation. Typical population estimates (percent interindividual variability) standardized for 70 kg of the apparent clearance, including central and peripheral volumes of distribution, intercompartmental clearance, and absorption rate constant, were 31 liters · h(-1) (32%), 76.4 liters (77%), 129 liters, 5.83 liters · h(-1), and 0.432 h(-1), respectively. According to the model, elimination clearance (liters/h/70 kg) increases gradually during the first years of life. Theoretical doses needed to reach the range of 24 h of exposure observed in adults were calculated: to be closer to adult exposure, children should receive 4 mg/kg/day from birth to 8 weeks of age, 5 mg/kg/day from 8 to 16 weeks of age, 6 mg/kg from 16 to 25 weeks of age, 8 mg/kg/day from 25 weeks of age to 14 kg of body weight, 150 mg/day from 14 to 25 kg of body weight, 225 mg/day from 25 to 35 kg of body weight, and 300 mg/day thereafter.     

Age-related differences in hepatic drug clearance in children: studies with lorazepam and antipyrine

The disposition of intravenous antipyrine and lorazepam, administered as model substrates for hepatic oxidative metabolism and conjugation, was evaluated in 50 children (mean age, 7.8 years; range, 2.3 to 17.8 years) with acute lymphocytic leukemia in complete remission and compared with a group of ten healthy adults. Antipyrine clearance normalized to body weight was significantly greater in children than in adults (0.91 versus 0.59 ml/min/kg; p = 0.012), but was not different when normalized to body surface area. In contrast, lorazepam total clearance (CL) and unbound clearance (CLu) normalized to body weight were not significantly different between children and adults but were smaller in children when normalized to body surface area (CL = 31.9 versus 40.6 ml/min/m2, p = 0.036; CLu = 352 versus 485 ml/min/m2, p = 0.010). The mean lorazepam fraction unbound in children was 0.087, which was not different from adult volunteers (0.084). This study has identified significant differences between children and adults in the disposition of these two compounds, with higher milliliter per minute per kilogram clearance for antipyrine but not lorazepam.     

Prediction equation estimates of creatinine clearance in the intensive care unit

Objective To assess the accuracy of 4 mathematical equations used to estimate creatinine clearance versus the 24-h creatinine clearance in ICU patients.Design Prospective study of renal function prediction.Setting The general adult ICUs of 3 metropolitan hospitals.Patients 199 critically ill patients with indwelling foley catheters.Intervention and measurements Routine 24 h creatinine clearances were evaluated only in patients whose urine volume recorded by the nurses was within 10% of the laboratory's measured volume. Four mathematical equations utilizing age, sex, body weight, height, and plasma creatinine were used as a comparison. There was no difference in estimated creatinine clearance by 3 published methods when the 24 h creatinine clearance exceeded 100 ml/min. When the 24 h creatinine clearance was less than 100 ml/min, however, one prediction equation adjusted for lean body weight (LBW), was the most accurate. This equation accurately predicted creatinine clearance in the range of 30–100 ml/min and slightly overestimated creatinine clearance at 0–30 ml/min (p<0.01, ANOVA all groups,p<0.05 Fisher and Scheffé post-hoc tests) with a mean difference ±95% confidence interval of –5±3.1 ml/min.Conclusion An initial rapid estimate of creatinine clearance in critically ill ICU patients with reduced renal function can be determined by an equation adjusted for LBW.     

Developmental changes in pharmacokinetics and pharmacodynamics of warfarin enantiomers in Japanese children

OBJECTIVE: To clarify developmental changes in the pharmacokinetics and dynamics of warfarin enantiomers to establish rational pediatric dosage. METHODS: Plasma concentrations of unbound warfarin enantiomers, vitamin K1 and vitamin K-dependent proteins (that is, prothrombin fragments 1+2, protein C, and the protein-induced by vitamin K absence) and international normalized ratio were measured in 38 prepubertal (1 to 11 years), 15 pubertal (12 to 18 years), and 81 adult (37 to 76 years) patients given long-term warfarin therapy. Unbound oral clearance values for warfarin enantiomers and its body weight-, body surface area-, and liver weight-normalized values, as well as the pharmacodynamic parameters, were compared among the groups. RESULTS: The prepubertal, pubertal, and adult patients exhibited comparable mean plasma concentrations of unbound warfarin enantiomers for pharmacologically more active (S)-warfarin. Although the unbound oral clearance of (S)-warfarin for the prepubertal patients was significantly (P < .01) less than that for the adult group (346 versus 637 mL/min), the body weight-normalized unbound oral clearance for the prepubertal patients was significantly (P < .01) greater than that for the adults and showed a negative correlation (P < .05) with age. In contrast, no differences were observed in the liver weight-normalized unbound oral clearance for (S)-warfarin between the prepubertal and adult groups. The prepubertal patients showed significantly (P < .01 or .05) lower plasma concentrations of protein C and prothrombin fragments 1+2 and greater international normalized ratio and international normalized ratio/dose than the adults. In contrast, the pubertal patients showed largely similar pharmacokinetic and pharmacodynamic properties to adults. CONCLUSION: Liver weight may be a better parameter than body weight for estimating the warfarin doses for prepubertal patients on the basis of the corresponding adult values. Augmented responses to warfarin in children should also be taken into account for estimating warfarin doses for children.     

Population pharmacokinetics of stavudine (d4T) in patients with AIDS or advanced AIDS-related complex.

The population pharmacokinetics and bioavailability of oral stavudine (d4T; 2',3'-dideoxy-3'-deoxythymidine) was determined in 81 patients with AIDS or AIDS-related complex (ARC) enrolled in phase I and phase I/II dose-ranging trials. Each patient underwent inpatient pharmacokinetic studies following administration of the first oral stavudine dose; 59 patients were restudied after chronic therapy for an average of 19 days. Thirty-three of these patients also received a single intravenous stavudine dose prior to starting an oral regimen. A two-compartment model with first-order absorption and elimination was used as the structural pharmacokinetic model. A basic model provided the following population parameter estimates (interpatient variability expressed in parentheses as percent coefficient of variation): clearance/bioavailability = 30.9 (24.5%) liters/h; volume of distribution/bioavailability = 8.42 (not modeled) liters; volume of distribution at steady state/bioavailability = 68.9 (105%) liters; intercompartmental clearance/bioavailability = 12.4 (26%) liters/h; and first-order absorption rate constant = 1.32 (78.9%) liters/h. In the subset of 33 patients receiving both intravenous and oral doses, the bioavailability of stavudine was estimated to be 99.1% (18.5%). Total body weight, stage of disease (AIDS versus ARC), and an oral stavudine dose of > or = 200 mg were found to have a statistically significant but a clinically marginal effect on the estimate of the oral clearance of stavudine. This analysis shows the high degree of bioavailability of stavudine in patients with AIDS and ARC and the relatively low degree of interpatient variability in oral drug clearance compared with those of other nucleosides. Population pharmacokinetic analysis is a useful tool for assessing the combined effects of several patient variables on the pharmacokinetic properties of drugs in human immunodeficiency virus-infected patients.     

Effect of rifampin on the pharmacokinetics of rosiglitazone in healthy subjects

BACKGROUND AND OBJECTIVE: Rifampin (INN, rifampicin) causes several drug interactions with coadministered antidiabetic drugs. Rosiglitazone is a novel thiazolidinedione antidiabetic drug, but little is known about the drug interaction between rifampin and rosiglitazone. Our objective was to investigate the effect of rifampin on the pharmacokinetics of rosiglitazone in humans. METHOD: In an open-label, randomized, 2-way crossover study, 10 healthy Korean male subjects were treated once daily for 6 days with 600 mg rifampin or with placebo. On day 7, a single dose of 8 mg rosiglitazone was administered orally. Plasma rosiglitazone concentrations were measured. RESULTS: Rifampin significantly decreased the mean area under the plasma concentration-time curve for rosiglitazone by 65% (2947.9 ng. h/mL versus 991.5 ng. h/mL, P <.001) and the mean elimination half-life from 3.9 to 1.5 hours (P <.001). The peak plasma concentration of rosiglitazone was significantly decreased by rifampin (537.7 ng/mL versus 362.3 ng/mL, P <.01). The apparent oral clearance of rosiglitazone increased about 3-fold after rifampin treatment (2.8 L/h versus 8.5 L/h, P <.001). CONCLUSION: This study showed that rifampin affected the disposition of rosiglitazone in humans, probably by the induction of cytochrome P450 (CYP) 2C8 and, to a lesser extent, CYP2C9. Therefore caution should be exercised during the coadministration of rifampin and rosiglitazone.     

Effects of chronic phenobarbital on verapamil disposition in humans

Very little is known about the effects of hepatic enzyme induction with phenobarbital on the disposition of high clearance drugs in humans. Our study was undertaken to investigate the effect of phenobarbital on both alpha-1 acid glycoprotein concentrations and total and free verapamil and its metabolites. Single oral, single i.v., and multiple oral verapamil administrations were evaluated before and after 21 days of phenobarbital treatment in healthy caucasian male volunteers. Significant changes in the pharmacokinetics of total and free verapamil and its metabolites occurred in a predictable manner. Mean total apparent oral clearance after a single dose of verapamil was increased after phenobarbital treatment (75.1 +/- 49.2 vs. 376.2 +/- 221.8 ml/min/kg, P less than .05). Clearance of free drug increased to a similar magnitude. Mean total verapamil systemic clearance was increased (9.95 +/- 1.3 vs. 18.9 +/- 8.7 ml/min/kg, P less than .05); however free drug clearance was not altered. After multiple oral administration, total verapamil apparent oral clearance was increased after phenobarbital pretreatment (21.2 +/- 9.8 vs. 91.2 +/- 28.5 ml/min/kg, P less than .05). Free drug clearance was increased similarly. Finally, the pharmacokinetic theories derived for hepatic extraction of drugs subject to a high metabolic clearance can be successfully applied to men after liver enzyme induction with phenobarbital.