Interindividual variations in efavirenz (EFV) plasma concentrations are extensive, but paediatric data on its consequences for viral control are scarce. The aim of this study was to explore the role of genetic variation in achieving therapeutic efavirenz plasma concentrations in a cohort of Ugandan children and the linkage between genetic CYP2B6 variants, EFV plasma variability, viral resistance and viral outcome. Ninety-nine treatment-naïve children, aged 3-12 years and living with HIV, were followed for 24 weeks after ART initiation assessing mid-dose efavirenz plasma concentrations, HIV RNA, HIV drug resistance and adherence. Polymorphisms in genes coding for drug-metabolizing enzymes were genotyped. Efavirenz concentrations were determined by liquid chromatography coupled with high-resolution tandem mass spectrometry. Metabolizer phenotype was predicted from composite genotypes of CYP2B6 (c.516G>T and c.983 T>C). A mixed effects restricted maximum likelihood regression model was used to identify important factors for efavirenz exposure. Efavirenz plasma concentrations were below the therapeutic interval (1000-4000 mg/mL) in 12-17% and above in 21-24% of measurements. Eight children had persisting subtherapeutic concentrations, five of which failed virologically and three acquired at least one new resistant mutation. Multivariate modelling explained 70% of interindividual variation in plasma concentration, with treatment duration, adherence, CYP2B6c.136A>G, and metabolizer phenotype as independent predictors of EFV concentration. In univariate analysis, metabolizer phenotype explained 50% of interindividual variation. Metabolizer phenotype explained 50% of interindividual variation in efavirenz plasma concentration. Autoinduction was not confirmed and >33% of the concentrations were outside the therapeutic interval. Subtherapeutic concentrations worsened virological resistance and outcomes. Genotype-based dosing may help avert both sub- and supratherapeutic efavirenz plasma concentrations in Ugandan children.
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