1. Academic Validation
  2. Population pharmacokinetics of mavacoxib in osteoarthritic dogs

Population pharmacokinetics of mavacoxib in osteoarthritic dogs

  • J Vet Pharmacol Ther. 2011 Feb;34(1):1-11. doi: 10.1111/j.1365-2885.2010.01183.x.
S R Cox 1 S Liao M Payne-Johnson R J Zielinski M R Stegemann
Affiliations

Affiliation

  • 1 Veterinary Medicine Research and Development, Pfizer Inc., Kalamazoo, MI MI 49001-0199,, USA. steven.r.cox@pfizer.com
Abstract

Mavacoxib (Trocoxil™) is an oral long-acting COX-2 Inhibitor approved for the treatment of osteoarthritis in dogs. Two field trials were conducted in client-owned dogs suffering from osteoarthritis, with dosages of 4 mg/kg body weight (BW) (Study 1) or 2 mg/kg BW (Study 2). Mavacoxib plasma concentrations were determined from trough blood samples and from blood samples collected at 4-10 months after the last dose. A one-compartment linear model was fitted to the concentration data (1317 concentration records from 286 patients), and parameters for oral clearance (Cl/F), apparent volume of distribution (V(d) /F) and their between-subject variabilities (BSV) were estimated. Covariates were included in the model based on the outcomes of stepwise regression procedures. In the final model, the typical value of Cl/F was a function of BW, age and breed. German shepherds and Labrador retrievers were found to have 31% higher values of Cl/F than patients from different breeds with similar ages and BWs. The typical value of V(d) /F was found to be dependent only on BW. The two field studies appeared to differ similarly with respect to Cl/F and V(d) /F. The explanation for this difference is not known, but the difference was accounted for in the final model as a 23.9% lower bioavailability in Study 2. Mavacoxib exhibited relatively broad BSV in Cl/F and V(d) /F, with coefficients of variation of 47% and 19%, respectively. The typical value for mavacoxib's terminal elimination plasma half-life (t(1/2) ) was 44 days, but a minority of patients (approximately 5%) had empirical Bayes estimates of t(1/2) exceeding 80 days. Simulations with the model indicated that the majority of patients treated with mavacoxib 2 mg/kg will maintain trough plasma mavacoxib concentrations associated with efficacy. Results of the population pharmacokinetic analysis helped to reduce the dose from 4 to 2 mg/kg and thus increased the therapeutic index for this molecule.

Figures
Products