Prenatal developmental toxicity evaluation of 2',3'-dideoxyinosine (ddI) and 2',3'-didehydro-3'-deoxythymidine (d4T) co-administered to Swiss Albino (CD-1) mice.

BACKGROUND: In pregnant women, antiretroviral drugs improve maternal health and reduce vertical transmission of human immunodeficiency virus to the infant. However, few nonclinical studies have examined the potential for adverse drug interactions. METHODS: On gestational days (GD) 6-16, mice were dosed with vehicle, ddI (360, 1440, or 2,880 mg/kg/day, p.o.), d4T (60, 240, or 480), or ddI/d4T combinations (360/60, 1,440/240, or 2,880/480). Daily doses were divided into two equal parts that were administered >or=6-hr apart. Body weight, clinical signs, and feed consumption were monitored. Pregnancies (22-24/group) were confirmed at necropsy. Maternal liver and gravid uterine weights (GUW), uterine implants (resorption, live or dead fetus), fetal body weight, gender, and morphologic anomalies (external, visceral, skeletal) were recorded. RESULTS: Maternal body weight, clinical signs, and GUW were unaffected. Maternal weight change corrected for GUW was greater than controls at 60 and 480 d4T. Relative feed consumption during treatment was increased relative to controls at 1,440 and 2,880 ddI and 2,880/480 ddI/d4T. Relative maternal liver weight was elevated above controls at 240 and 480 d4T and 2,880/480 ddI/d4T, and above the constituent dose of ddI at 1,440/240 and 2,880/480 ddI/d4T. Liver weight was not affected by ddI and there was no significant drug interaction. Prenatal mortality and morphologic anomalies were not increased. Fetal body weight showed only a decreasing trend for ddI/d4T, no effect for ddI or d4T, and no statistically significant drug interaction. CONCLUSIONS: In pregnant mice, ddI/d4T combinations were not associated with well-defined developmental toxicity or adverse drug interactions.

Developmental toxicity evaluation of berberine in rats and mice.

BACKGROUND: Berberine, a plant alkaloid, is found in some herbal teas and health-related products. It is a component of goldenseal, an herbal supplement. Berberine chloride dihydrate (BCD) was evaluated for developmental toxicity in rats and mice. METHODS: Berberine chloride dihydrate was administered in the feed to timed-mated Sprague-Dawley (CD) rats (0, 3,625, 7,250, or 14,500 ppm; on gestational days [GD] 6-20), and Swiss Albino (CD-1) mice (0, 3,500, 5,250, or 7,000 ppm; on GD 6-17). Ingested doses were 0, 282, 531, and 1,313 mg/kg/day (rats) and 0, 569, 841, and 1,155 mg/kg/day (mice). RESULTS: There were no maternal deaths. The rat maternal lowest observed adverse effect level (LOAEL), based on reduced maternal weight gain, was 7,250 ppm. The rat developmental toxicity LOAEL, based on reduced fetal body weight per litter, was 14,500 ppm. In the mouse study, equivocal maternal and developmental toxicity LOAELs were 5,250 ppm. Due to scattering of feed in the high dose groups, a gavage study at 1,000 mg/kg/day was conducted in both species. CONCLUSIONS: In rats, maternal, but not fetal adverse effects were noted. The maternal toxicity LOAEL remained at 7,250 ppm (531 mg/kg/day) based on the feed study and the developmental toxicity NOAEL was raised to 1,000 mg/kg/day BCD based on the gavage study. In the mouse, 33% of the treated females died. Surviving animals had increased relative water intake, and average fetal body weight per litter decreased 5-6% with no change in live litter size. The maternal toxicity LOAEL remained at 5,250 ppm (841 mg/kg/day) BCD, based on increased water consumption. The developmental toxicity LOAEL was raised to 1,000 mg/kg/day BCD based on decreased fetal body weight.

Developmental toxicity evaluation of emodin in rats and mice.

BACKGROUND: Emodin, a widely available herbal remedy, was evaluated for potential effects on pregnancy outcome. METHODS: Emodin was administered in feed to timed-mated Sprague-Dawley (CD) rats (0, 425, 850, and 1700 ppm; gestational day [GD] 6-20), and Swiss Albino (CD-1) mice (0, 600, 2500 or 6000 ppm; GD 6-17). Ingested dose was 0, 31, 57, and approximately 80-144 mg emodin/kg/day (rats) and 0, 94, 391, and 1005 mg emodin/kg/day (mice). Timed-mated animals (23-25/group) were monitored for body weight, feed/water consumption, and clinical signs. At termination (rats: GD 20; mice: GD 17), confirmed pregnant dams (21-25/group) were evaluated for clinical signs: body, liver, kidney, and gravid uterine weights, uterine contents, and number of corpora lutea. Fetuses were weighed, sexed, and examined for external, visceral, and skeletal malformations/variations. RESULTS: There were no maternal deaths. In rats, maternal body weight, weight gain during treatment, and corrected weight gain exhibited a decreasing trend. Maternal body weight gain during treatment was significantly reduced at the high dose. In mice, maternal body weight and weight gain was decreased at the high dose. CONCLUSIONS: Prenatal mortality, live litter size, fetal sex ratio, and morphological development were unaffected in both rats and mice. At the high dose, rat average fetal body weight per litter was unaffected, but was significantly reduced in mice. The rat maternal lowest observed adverse effect level (LOAEL) was 1700 ppm; the no observed adverse effect level (NOAEL) was 850 ppm. The rat developmental toxicity NOAEL was > or =1700 ppm. A LOAEL was not established. In mice, the maternal toxicity LOAEL was 6000 ppm and the NOAEL was 2500 ppm. The developmental toxicity LOAEL was 6000 ppm (reduced fetal body weight) and the NOAEL was 2500 ppm.

Evaluation of the developmental toxicity of formamide in New Zealand white rabbits.

Naturally mated female New Zealand White (NZW) rabbits (24/group) received formamide (35, 70, or 140 mg/kg/day) or vehicle (1 ml/kg deionized/distilled water) by gavage on gestational days (GD) 6 through 29. The study was conducted using a 2-replicate design. Maternal food consumption (absolute and relative), body weight, and clinical signs were monitored at regular intervals throughout gestation. One and four maternal deaths occurred at the low and high doses, respectively. Abortions or early deliveries were noted in 0, 2, 2, and 8 females in the 0, 35, 70, and 140-mg/kg/day dose groups, respectively. Other clinical signs associated with formamide exposure were minimal: primarily reduced or absent fecal output at the high dose (2-13 animals/day). Also at the high dose, maternal body weight was significantly depressed on GD 21, 24, and 27 (87-90% of the control value); maternal body weight gain was significantly reduced for GD 12 to 15, 18 to 21, and 21 to 24 (treated animals gained less than 1 g, or lost up to 100 g). In addition, maternal body weight gain was reduced at the middle dose for GD 18 to 21. Maternal body weight gain, corrected for gravid uterine weight, was unaffected. Relative maternal food consumption in the high-dose group was 34-59% of control intake from GD 12 through GD 24, but was comparable to controls thereafter. At termination (GD 30), confirmed-pregnant females (9-20 per group) were evaluated for clinical status, liver weights, and gestational outcome; live fetuses were examined for external, visceral, and skeletal malformations and variations. Maternal liver weight (absolute or relative to body weight) was unaffected by treatment, but gravid uterine weight at the high dose was 71% of the control value. A significantly increasing trend was noted for the percent non-live implants per litter. In addition, although not statistically significant from the control group, the values for the percent late fetal deaths per litter and percent non-live implants per litter in the 140-mg/kg/day group were higher than maximum historical values, suggesting an increase in late gestational deaths in the surviving high-dose animals. Formamide decreased the mean number of live fetuses per litter at the high dose to 66% of the control value. Mean fetal body weight per litter for males and the sexes combined was significantly decreased at the high dose; mean female fetal body weight was also decreased, although the difference did not reach statistical significance. There was no effect of treatment on the incidence of external, visceral, or skeletal malformations or variations in animals surviving to scheduled necropsy. In summary, the no-observed-adverse-effect level (NOAEL) for maternal toxicity was 70 mg/kg/day and the lowest-observed-adverse-effect level (LOAEL) was 140 mg/kg/day under the conditions of this study. Similarly, the NOAEL for developmental toxicity was 70 mg/kg/day and the LOAEL was 140 mg/kg/day.