Nonclinical Toxicology Studies with Zidovudine: Reproductive Toxicity Studies in Rats and Rabbits

Abstract

Zidovudine (ZDV) was evaluated for adverse effects on reproduction and fetal development in animal test species. Standard preclinical tests for reproduction and fertility, developmental toxicity, and postnatal toxicity were conducted in CD (Sprague–Dawley) rats and a developmental toxicity study was conducted in New Zealand white rabbits. In an additional study, reproductive outcome was characterized in female rats given ZDV before, during, or after mating and drug levels in the plasma and milk of lactating rats were determined. Finally, drug exposure data including observed peak plasma concentrations (Cmax) and area under the concentration–time curve (AUC) were evaluated for pregnant rats and rabbits. In a reproduction/fertility study in CD rats, toxicity to the early rat embryo, manifested as an increase in early resorptions and a decrease in litter size, was noted following dosage of the parental animals with 75 or 225 mg ZDV/kg bid. A dose of 25 mg/kg bid was a no-effect level in rats. At the time of mating, male rats had been dosed for 85 days, and females had been dosed for 26 days. To further evaluate the effects of ZDV on reproduction, dosing of male rats was continued to 149 days when they were mated a second time to virgin, untreated females. All reproductive parameters were normal in the untreated females from this second mating, indicating that the embryotoxic effect of the drug was not likely mediated by a genotoxic or other effect in the male. A separate study in female CD rats given 225 mg/kg bid for various periods pre- or postconception suggests that the toxic effect of ZDV is primarily to the early rodent embryo. Early embryo death did not occur in rats or rabbits in standard developmental (teratology) studies; however, pregnant New Zealand white rabbits given 250 mg/kg bid during gestation Days 6–18 showed reduced weight gain, anemia, and an increase in late fetal deaths. No other evidence of developmental toxicity was noted in either species, and ZDV was not teratogenic in rats or rabbits given up to 250 mg/kg bid during the period of major organogenesis. At this dose,Cmaxvalues in rats and rabbits were approximately 234 and 150 times higher, respectively, than the mean steady-state serum concentration in adults following chronic oral administration of 250 mg every 4 hr. In both the reproduction/fertility study and a peri- and postnatal study in rats, liveborn offspring showed no adverse effects on survival, growth, or developmental measurements.