Population pharmacokinetics of halofantrine in healthy volunteers and patients with symptomatic falciparum malaria
Article first published online: 9 JUL 2012
© 2012 The Authors. JPP © 2012 Royal Pharmaceutical Society
Journal of Pharmacy and Pharmacology
Volume 64, Issue 11, pages 1603–1613, November 2012
How to Cite
Klein, K., Aarons, L., ter Kuile, F. O., Nosten, F., White, N. J., Edstein, M. D. and Teja-Isavadharm, P. (2012), Population pharmacokinetics of halofantrine in healthy volunteers and patients with symptomatic falciparum malaria. Journal of Pharmacy and Pharmacology, 64: 1603–1613. doi: 10.1111/j.2042-7158.2012.01554.x
- Issue published online: 12 OCT 2012
- Article first published online: 9 JUL 2012
- Received January 3, 2012; Accepted May 13, 2012
- Bayesian modelling;
- non-linear mixed effects modelling;
- population pharmacokinetics
Aims To investigate the population pharmacokinetics of the antimalarial halofantrine (HF) in healthy volunteers and patients with symptomatic falciparum malaria.
Methods Healthy volunteer data were obtained from six volunteers who received three different doses of HF (250, 500 and 1000 mg) after an overnight fast with a washout period of at least 6 weeks between doses. Patient data (n = 188) were obtained from randomised controlled trials conducted on the Thai–Burmese border in the early 1990s. They were either assigned to receive a total HF dose of 24 mg/kg (8 mg/kg every 6 h for 24 h) or 72 mg/kg (8 mg/kg every 6 to 10 h for 3 days). The population pharmacokinetics of HF were evaluated using non-linear mixed effects modelling with a two-compartment model with first-order absorption.
Key findings The population estimates of apparent clearance (CL), volume of compartment one (V1), distributional clearance (CLD) and volume of compartment two (V2) of HF in healthy volunteers were 2453 l/day (102 l/h), 2386 l, 716 l/day (29.8 l/h) and 2641 l, respectively. The population estimates of the PK parameters in patients were 429 l/day (17.9 l/h), 729 l, 178 l/day (7.42 l/h) and 1351 l, respectively. All PK parameters were significantly related to body weight and some were related to sex, sampling method, pre-treatment parasite density and whether patients vomited or not. When the two datasets were analysed jointly using a maximum likelihood method, the population estimates in patients were 196 l/day (8.17 l/h), 161 l, 65 l/day (2.71 l/h) and 89 l, respectively, and the parameters were significantly related to body weight and sex. Bayesian analysis of the patient data, with a diffuse prior based on the healthy volunteer data analysis results, yielded the population estimates 354 l/day (14.8 l/h), 728 l, 162 l/day (6.75 l/h) and 1939 l, respectively.
Conclusions The pharmacokinetic properties of HF in patients with malaria are affected by several demographic variables as well as other relevant covariates. Apparent differences between the healthy volunteer and the patient data analysis results are not entirely due to differences in bioavailability. For the patient data analysis, the Bayesian method was preferred, as the fitting procedure was more stable, allowing random effects to be estimated for all four dispositional parameters.