Population Pharmacokinetics of Doripenem Based on Data from Phase 1 Studies with Healthy Volunteers and Phase 2 and 3 Studies with Critically Ill Patients

Abstract

ABSTRACT A population pharmacokinetic model of doripenem was constructed using data pooled from phase 1, 2, and 3 studies utilizing nonlinear mixed effects modeling. A 2-compartment model with zero-order input and first-order elimination best described the log-transformed concentration-versus-time profile of doripenem. The model was parameterized in terms of total clearance (CL), central volume of distribution ( V c ), peripheral volume of distribution ( V p ), and distribution clearance between the central and peripheral compartments ( Q ). The final model was described by the following equations (for j th subject): CL j (liters/h) = 13.6·(CL CR j /98 ml/min) 0.659 ·(1 + CL race j [0 for Caucasian]); V c j (liters) = 11.6·(weight j /73 kg) 0.596 ; Q j (liters/h) = 4.74·(weight j /73) 1.06 ; and V p j (liters) = 6.04·(CL CR j /98 ml/min) 0.417 ·(weight j /73 kg) 0.840 ·(age j /40 years) 0.307 . According to the final model, population mean parameter estimates and interindividual variability (percent coefficient of variation [% CV]) for CL (liters/h), V c (liters), V p (liters), and Q (liters/h) were 13.6 (19%), 11.6 (19%), 6.0 (25%), and 4.7 (42%), respectively. Residual variability, estimated using three separate additive residual error models, was 0.17 standard deviation (SD), 0.55 SD, and 0.92 SD for phase 1, 2, and 3 data, respectively. Creatinine clearance was the most significant predictor of doripenem clearance. Mean Bayesian clearance was approximately 33%, 55%, and 76% lower for individuals with mild, moderate, or severe renal impairment, respectively, than for those with normal renal function. The population pharmacokinetic model based on healthy volunteer data and patient data informs us of doripenem disposition in a more general population as well as of the important measurable intrinsic and extrinsic factors that significantly influence interindividual pharmacokinetic differences.