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Population pharmacokinetics of ondansetron: a covariate analysis
Authors:D. P. de Alwis,L. Aarons,&   J. L. Palmer
Affiliation:School of Pharmacy and Pharmaceutical Sciences, University of Manchester, M13 9PL,;Clinical Pharmacology Division, GlaxoWellcome Research and Development, UK
Abstract:Aims To construct a population model to account for the variability in ondansetron pharmacokinetics and to evaluate methods for the efficient development of population models.
Methods Population models were developed using 99 subjects consisting of paediatric patients, young, elderly and aged volunteers. A two compartment pharmacokinetic model with a zero order input was used to describe the pharmacokinetics of ondansetron. Three stepwise methods were proposed and used alongside a three step approach to develop population models with both rich and sparse data sets. The stepwise methods were based on obtaining empirical Bayes posterior estimates of pharmacokinetic parameters within a nonlinear mixed effect modelling (NONMEM) program. The parameters were then regressed against covariates in a stepwise procedure. Variance parameters were obtained by fitting the proposed population model to the data in one further NONMEM run. The population model was validated against a test data set of 54 subjects, including children, young and elderly patients and volunteers.
Results The population model adequately described the differences in ondansetron pharmacokinetics between paediatric patients, young, elderly and aged volunteers. Different covariates were identified by the various methods. Weight was found to have a strong positive linear relationship with all four pharmacokinetic parameters. Clearance showed a weak negative relationship with age. Males were found to have a greater clearance than females after weight adjustment.
Conclusions The stepwise search procedures potentially are capable of considerably reducing the time required to develop population pharmacokinetic models. The model developed for ondansetron gave accurate predictions of both the concentration-time profile and variability in an independent data set.
Keywords:ondansetron    population pharmacokinetics    NONMEM    covariate analysis
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