Pharmacokinetics of fluoxetine in pregnant baboons (Papio spp.).

Fluoxetine is used to treat a number of psychiatric conditions in humans and behavioral problems in animals. Its use in pregnancy must balance maternal benefit with potential risk to the fetus. Knowledge of adult and fetal drug disposition can assist clinicians in selecting therapy that minimizes adverse effects to the fetus. Nonhuman primate models are used frequently in drug dose-translation studies, and pregnancy in baboons has many similarities to human pregnancy. Accordingly, pharmacokinetic analysis of a series of fluoxetine and norfluoxetine administrations to pregnant baboons was performed. The mean maternal baboon steady-state clearance of fluoxetine (42 mL/min/kg) was considerably higher than that in humans. Norfluoxetine, the major active metabolite, had a higher metabolite-to-drug ratio (8.7) than that found in humans, particularly with oral dosing. These results are consistent with more extensive metabolism in baboons than in humans and leads to a higher clearance than would be expected from allometric scaling. Fetal-to-maternal fluoxetine and norfluoxetine ratios under steady-state conditions were similar to those in humans, with fetal concentrations of fluoxetine 42% and norfluoxetine 47% of maternal concentrations. The fetal clearance of fluoxetine (303 ± 176 mL/min) and norfluoxetine (450 mL/min) exceeded reported placental blood flow. Understanding these species-associated differences in metabolism is a prerequisite to extrapolating data between species. Nonetheless, nonhuman primates are likely to remain valuable models for pharmacokinetic studies during pregnancy, particularly those directed toward fetal neurodevelopmental effects. Our results also are applicable to determining appropriate dosing of nonhuman primates in clinical settings.