J. M. Rowland

Comparative teratogenicity of triamcinolone acetonide, triamcinolone, and cortisol in the rat.

Pregnant rats were injected im with 0.5 mg/kg triamcinolone acetonide (TAC) on day 12, 13, or 14 of gestation and the fetuses were examined for cleft palate on day 20. All three TAC-treated groups showed an increased proportion of fetuses with cleft palate compared to an untreated control group. Only the group treated on day 13 showed a significant increase in the proportion of litters affected. This indicates that day 13 of gestation is the most sensitive day for cleft palate induction by TAC in the rat. Pregnant rats were then treated on day 13 of gestation with either TAC, triamcinolone (TA), or cortisol. TAC was 59 times as potent as TA in inducing cleft palate, with ED50 values of 1.1 mg/kg and 65 mg/kg respectively. Cortisol induced a significant increase in cleft palates at 500 mg/kg, but the efficacy of this compound was too low to calculate an ED50 and relative teratogenic potency value. Other developmental abnormalities including umbilical hernias, resorption, and fetal death resulted from TAC treatment. Fetal growth retardation was produced by all three compounds. The rank order of teratogenic potency was determined to be TAC greater than TA greater than cortisol.

Pharmacokinetics of doxylamine given as bendectin® in the pregnant monkey and baboon

The object of the present study was to determine the maternal plasma pharmacokinetics of doxylamine (the antihistamine component of Bendectin) following Bendectin administration. Bendectin was administered daily, po, at a dosage approximately 10 times the maximum human therapeutic dosage (7 mg/kg/day) throughout organogenesis (approximately days 22 through 50 of gestation) to three cynomolgus monkeys, four rhesus monkeys, and five baboons. Two pharmacokinetic experiments were performed in each animal, one on the first day of treatment and one on the last day of treatment. Although this study was not designed specifically as a teratologic examination, no morphologic abnormalities were observed when the fetuses were examined on approximately day 100 of gestation. A single-compartment, parallel first- and second-order elimination model was used to analyze the data. Although considerable interindividual variation was evident, no significant differences between species were observed when the half-life for the absorption of doxylamine from the gut or the elimination of doxylamine and metabolites from the plasma were compared. The plasma elimination half-lives and the clearance values were not altered by the 29 days of Bendectin treatment for any of the species. Only the half-life for the absorption of doxylamine in the baboon was reduced by daily dosing with Bendectin, but this did not alter doxylamine elimination. Thus, the pharmacokinetics of doxylamine administered as Bendectin were similar in the three nonhuman primate species examined and were not altered by repeated daily administration.

Distribution and metabolism of triamcinolone acetonide in the rat embryomaternal unit during a teratogenically sensitive period

The distribution and metabolism of triamcinolone acetonide (TAC) in the rat embryomaternal unit were investigated during a teratogenically sensitive period. Pregnant rats (Day 12 of gestation) were injected im with 0.125 or 0.5 mg/kg [3H]TAC. Maternal plasma and embryos were collected at selected time points and analyzed by HPLC and liquid scintillation counting. No significant differences in the percentage of total radioactivity representing unchanged TAC, concentration of TAC, or its elimination half-life were detected in either plasma or embryos of the two dose groups. These results provide evidence that the metabolism and distribution of TAC in the rat embryomaternal unit are dose independent over this known teratogenic dose range. To determine whether multiple administration of TAC resulted in any alterations in maternal or embryonal exposure, the same parameters were evaluated following one (Day 12), two (Days 12 and 13), or three (Days 12, 13, and 14) injections of [3H]TAC (0.5 mg/kg, im). The only alterations detected were an increase in the percentage of total radioactivity in maternal plasma representing unchanged TAC at 1 hr following the second or third injection and an increase in the embryonal concentration of TAC at the same time points.

Evaluation of the Teratogenicity and Pharmacokinetics of Diflunisal in Cynomolgus Monkeys

This study examined the pharmacokinetics and potential teratogenicity of the nonsteroidal antiinflammatory drug, diflunisal, in cynomolgus monkeys. Pregnant cynomolgus monkeys were administered 0.5% methyl cellulose, 20 mg/kg/day diflunisal, or 80 mg/kg/day diflunisal on Days 25 to 48 of gestation. There was no evidence of maternal toxicity, increased abortion rate, fetal growth retardation, or malformation. These data demonstrate that diflunisal is not teratogenic in cynomolgus monkeys over a dosage range of 20 to 80 mg/kg/day. Peak plasma levels of diflunisal were found 1 hr after oral administration of [14C]diflunisal at a dosage of 60 mg/kg and declined to low levels by 24 hr. The plasma elimination half-life was calculated to be 10.2 hr over the period of 1 to 8 hr postadministration. Intact diflunisal accounted for 96.4% of total plasma radioactivity at 0.5 hr and declined to a value of 74% at 8 hr. Plasma protein binding averaged greater than 99% over a concentration range of 62.5 to 250 micrograms/ml. Urinary excretion of diflunisal and metabolites averaged 66.5% of the dosage over the first 4 days postadministration, compared with 0.8% in the feces. The majority of activity represented conjugates of diflunisal. Embryo concentrations of diflunisal on Days 35 to 37 of gestation were 0.7 and 1.1% of maternal plasma level at 4 hr postadministration of 20 or 60 mg/kg, respectively.