Abstract
To enable clinical development of ibudilast for new indications, its pharmacokinetics were characterized in mice, rats, rabbits, dogs, cynomolgus monkeys, and minipigs. Animal pharmacokinetics were compared with a separate study in healthy volunteers.
Following oral dosing, the dose-normalized area under the curve (AUC) (DN-AUC24h) in humans is 896 ((ng•h ml−1)/(mg kg−1)), and in animals ranges from 0.3 to 87. The variability among species cannot be explained by intrinsic clearance, which in intravenous dosing experiments shows only moderate interspecies variation (13–41 l h−1 m−2). A portal vein rat pharmacokinetics model suggested that differences in first-pass gut clearance may explain some of the interspecies variation in oral bioavailability. Ibudilast shows auto-induction of metabolism in some animals, but not in humans. Plasma protein binding in humans and some animals is greater than or equal to 95%. The primary metabolite 6,7-dihyrdodiol-ibudilast is measurable and has been quantitated in plasma from animals and humans. Finally, biodistribution studies show that ibudilast distributes rapidly, extensively, and reversibly to the central nervous system.
Acknowledgements
L. M. Sanftner and J. A. Gibbons contributed equally to this work.
Declaration of interest: M. Gross and K. Johnson are employed by, and possess stock options for, Avigen, Inc., the developer of ibudilast (AV411). L. M. Sanftner and B. Suzuki are past Avigen employees; and J. A. Gibbons and F. Gaeta were paid consultants for Avigen. Authors were either employees or consultants implementing broad drug research and development and were not specially incentivized for this particular research or communication.