Population pharmacokinetic analysis of interaction between dolutegravir and rifampin

Pharmacokinetic AnalysisPharmacokinetic parameters including but not limited to apparent Clearance, apparent volume of distribution will be determined using a compartmental modelling analysis with the computer program NONMEM 7.4 developed by Beal and Sheiner.Pharmacokinetic analysis will be carried out using actual sampling times as availed in the dataset from the CSDR website Population Pharmacokinetic model building: Modelling will account for fixed effects as well as unexplainable between-and within-subject effects (random effects), A stepwise procedure will be used to find the model that best fits the data. Diagnostic graphical analysis will be performed using R (version 3.6.1).   Different compartmental models including a one and two-compartment structural model will be fitted to the data on both linear scale and log domain    The structural model may further be optimized with the incorporation of an oral bioavailability fraction- F, an absorption lag time or transit compartments   Inter-individual variability for each model element will be modelled by assuming an exponential error function which maintains positive pharmacokinetic parameters.   Inter-individual variability will be assumed to be log-normally distributed with mean zero and variance omega.    The residual error will be modelled by an additive and proportional error structure.Handling concentrations below the limit of quantification. Concentration values that are below the level of quantification (BLQ) will be set to 1/2 of the lower limit of quantification (LLOQ). If there is a series of BLQ datapoints, the last one before the Cmax and the first one after the Cmax will be kept.Assessment of model adequacy. Evaluation of model adequacy and the assumptions used in building the model will be assessed at different stages of model development using the criteria below and model diagnostics• Successful minimization of the model runs• Likelihood ratio test• Inspection of graphical and numerical diagnostics including    Assessment of shrinkage of ETA(η) and EPSILON(ε)   Observations vs. population predicted value (PRED)in both linear and log scales with a line of identity and a regression line    Observations vs. individual PRED in both linear and log scales with a line of identity and a regression line    Weighted residuals (WRES) or Conditional WRES vs. Population predicted value    Absolute individual WRES (|IWRES|) vs. individual Predictions    conditional WRES vs. time or time after dose    individual predictioons    visual predictive checks A non-parametric bootstrap method or sampling importance resampling (SIR) method will be used to evaluate the degree of bias in the model parameters and generate confidence intervals.Covariate model. Prior to testing of covariates in the model, preliminary plots of the covariates against the parameters will be analysed in R software for possible relationships between the parameters and covariates. Potential covariates to be tested in the model include gender, rifampicin co-administration, age, body weight and ethnicity. The choice for potential covariates is based on biological plausibility, graphical exploration for trends using plots of parameters versus covariates and previously reported covariates in literature.