Embryotoxicity of phenytoin in adrenalectomized CD-1 mice.

It has been proposed that the anticonvulsant drug phenytoin (PHT) and glucocorticoids induce orofacial clefting by the same mechanism. Previous work had demonstrated that PHT treatment significantly increased endogenous maternal corticosterone concentrations for approximately 48 hr after dosing in A/J mice. The purpose of the present investigation was to determine whether PHT is embryotoxic in the absence of endogenous maternal glucocorticoids. Maternal adrenal glands were removed on Day 7 of gestation, and the incidence of clefting after PHT treatment was determined. There was a high level of maternal toxicity following adrenalectomy (ADX) and PHT treatment at either 60 or 75 mg/kg. This increased toxicity did not appear to be due to altered maternal drug levels in ADX mice. There was a significant increase in the clefting incidence among offspring of ADX dams treated with PHT at 60 mg/kg. This dose of PHT did not elevate maternal corticosterone levels in ADX dams. These data suggest that PHT is capable of producing clefts in the absence of endogenous maternal corticosterone.     

Phenytoin teratogenicity and effects on embryonic and maternal folate metabolism [published errtum appears in Teratology 1986 Dec;34(3):487

It has been postulated that the mechanism of teratogenicity of the anticonvulsant drug phenytoin (PHT), is via a deficiency of folic acid. To test this hypothesis, Swiss Webster mice were administered PHT in the diet prior to and throughout gestation. Animals received a daily dose of approximately 75 mg/kg body weight. The maternal plasma PHT levels were within the therapeutic range for this drug. This dose increased the incidence of malformations, primarily cleft palate, in the absence of embryolethality. There was a decrease in maternal plasma folate levels on day 12 of gestation but no effect on days 10 and 18. Even in the presence of a maternal folate deficiency on day 12, PHT had no effect on total embryonic folate levels on days 10, 12, and 14. Previous experiments have demonstrated that PHT decreases activity of the enzyme 5,10-methylenetetrahydrofolate reductase in the liver of nonpregnant Swiss Webster mice. Data from the current study indicate that this enzyme activity is also decreased in hepatic tissue of pregnant mice, but it is not altered in embryos on the days examined. These data show that a teratogenic dose of PHT affects maternal folate metabolism. However embryonic folate metabolism, when measured in total embryos, was not affected.     

Comparative teratogenicity of phenytoin among several inbred strains of mice

Inbred strains of mice differ in their response to the embryopathic effects of phenytoin (PHT). A/J animals, the most susceptible strain, were mated to C57BL/6J mice, the most resistant strain. The susceptibility of the F1 hybrid offspring was determined by the susceptibility of the mother. B6AF1 animals were as resistant as C57BL/6J parental mice, and AB6F1 hybrids were as susceptible as A/J mice. This was especially evident when orofacial anomalies were tallied. (B6A)F2 hybrid offspring were as resistant as their C57BL/6J grandparents.     

The effect of teratogens on maternal corticosterone levels and cleft incidence in A/J mice.

It is unknown whether orofacial clefting, one consequence of teratogenic exposure, results from a direct interaction between the teratogen and the embryonic palate, or indirectly from maternal alterations caused by the teratogen. In the current study pregnant A/J mice were exposed to one of three cleft-inducing agents in order to examine the relationship between drug-induced clefting and the response of maternal plasma corticosterone to drug administration. The agents used, haloperidol (HAL), 2,4,5-trichlorophenoxyacetic acid (2,4,5-T), or phenytoin (PHT), were administered in teratogenic doses between 0800 and 0930 on gestational day 10 (GD 10). For corticosterone determinations, mice were dosed on GD 10, and blood was collected at 1, 4, 24, or 48 hr after dosing. For fetal evaluation of cleft lip and/or cleft palate, mice were dosed on GD 10 and killed on GD 18. Phenytoin was the most potent inducer of cleft lip and palate and induced a sustained elevation of plasma corticosterone in maternal animals. The other treatments, in order of decreasing potency to induce clefting and/or cause an elevation of corticosterone in plasma were 2,4,5-T > HAL > controls. Correlations between maternal corticosterone levels and clefting incidence were very high at all time points examined; total exposure (area under the curve) was also highly correlated. A linear relationship between drug-induced increases in maternal corticosterone levels and the incidence of clefting in A/J mice was evident. Based on these findings, we believe that increased maternal corticosterone levels may play a role in orofacial clefting in A/J mice.     

Phenytoin-induced cleft palate: evidence for embryonic cardiac bradyarrhythmia due to inhibition of delayed rectifier K+ channels resulting in hypoxia-reoxygenation damage

BACKGROUND: Phenytoin (PHT) teratogenicity has been related to embryonic arrhythmia due to the capacity of PHT to block I(K) channels pharmacologically, resulting in hypoxia-reoxygenation damage. The aim of this study was to further elucidate the proposed mechanism. METHODS: Pregnant CD-1 mice were given PHT (85 mg/kg) or saline intraperitoneally on gestational days 10-11. Embryonic heart rhythm and presence of hemorrhage in orofacial region was recorded on day 12, fetuses were examined for malformations on day 18. Embryonic heart rate was also recorded on individual days after dosing days 9-16. In addition, PHT was given at doses of 10, 25, or 85 mg/kg on day 12 for analysis of plasma concentrations. RESULTS: PTH-induced bradycardia and arrhythmia in approximately 20% of the embryos, 48% showed hemorrhage in the orofacial region; 39% of the fetuses had cleft palate. The region in which hemorrhages were visible in the embryo corresponded with the region where tissue deficiency (cleft palate) was visible in the fetus at term. None of the controls showed hemorrhages, dysrhythmia, or cleft palate. PHT affected embryonic heart rates on days 9-13, but not on days 14-16. Single dose administration on day 12, the most sensitive day, resulted in a dose-dependent decrease in embryonic heart rate (12-34%). Embryonic arrhythmia occurred at 25 and 85, but not at 10 mg/kg or in the controls. Mean maternal free plasma concentrations were 6 and 14 micromol/L in the 10- and 25-mg/kg groups, respectively. CONCLUSIONS: PHT-induced cleft palate was preceded by embryonic dysrhythmia and hemorrhage in the orofacial region. Embryonic heart rhythm was phase specifically affected, as described for selective I(Kr) channel blockers, at clinically relevant concentrations. The results support the idea that PHT teratogenicity is a consequence of pharmacologically induced dysrhythmia and hypoxia-related damage.     

Pathogenesis of median facial clefts in mice treated with methotrexate

Methotrexate (MTX), administered as a single 20 mg/kg intraperitoneal dose to C57Bl/6J mice on their 9th day of pregnancy results in high incidences of median facial clefts in the surviving gestational-day-18 fetuses. We have shown the presence of dilated and congested blood vessels in the frontonasal prominences (FNP) of embryos from treated mothers as early as 3 hours following drug administration. Within 24 hours, large vascular blebs are located in the FNP and the neural tubes appear somewhat distended. By 32 hours after treatment, distention of the neural tube is marked while blebs have become less evident. Subsequent to these changes, FNP mesenchymal deficiency as well as neural tube distention lead to the formation of median facial clefts. It is hypothesized that, as with a number of other teratogenic agents (especially hypoxia), initial fluid imbalance is the primary teratogenic insult.     

Definition of Critical Periods for Hedgehog Pathway Antagonist-Induced Holoprosencephaly,Cleft Lip,and Cleft Palate

The Hedgehog (Hh) signaling pathway mediates multiple spatiotemporally-specific aspects of brain and face development. Genetic and chemical disruptions of the pathway are known to result in an array of structural malformations, including holoprosencephaly (HPE), clefts of the lip with or without cleft palate (CL/P), and clefts of the secondary palate only (CPO). Here, we examined patterns of dysmorphology caused by acute, stage-specific Hh signaling inhibition. Timed-pregnant wildtype C57BL/6J mice were administered a single dose of the potent pathway antagonist vismodegib at discrete time points between gestational day (GD) 7.0 and 10.0, an interval approximately corresponding to the 15^th to 24^th days of human gestation. The resultant pattern of facial and brain dysmorphology was dependent upon stage of exposure. Insult between GD7.0 and GD8.25 resulted in HPE, with peak incidence following exposure at GD7.5. Unilateral clefts of the lip extending into the primary palate were also observed, with peak incidence following exposure at GD8.875. Insult between GD9.0 and GD10.0 resulted in CPO and forelimb abnormalities. We have previously demonstrated that Hh antagonist-induced cleft lip results from deficiency of the medial nasal process and show here that CPO is associated with reduced growth of the maxillary-derived palatal shelves. By defining the critical periods for the induction of HPE, CL/P, and CPO with fine temporal resolution, these results provide a mechanism by which Hh pathway disruption can result in “non-syndromic” orofacial clefting, or HPE with or without co-occurring clefts. This study also establishes a novel and tractable mouse model of human craniofacial malformations using a single dose of a commercially available and pathway-specific drug.     

Abortifacient principle of Achyranthes aspera Linn

Achyranthes apsera is an abundant indigenous herb in India. Extracts of the whole plant had shown an abortifacient effect in mice. Maximal activity was in the benzene extract which was tested. The drug, in olive oil, was given orally to rabbits in doses of 50 mg/kg of body weight on the 8th day postcoitum. Laparotomy was done on the 11th day. No implantation sites were found. However, ovaries contained prominent corpus luteum, indicating that the drug had prevented pregnancy. In rats, the drug was given orally as a single dose of 50 mg/kg of body weight on the 6th or 7th day after mating. No effect was observed. In mice the drug was given at a single dose of either 10, 15, 25, or 50 mg/kg of body weight. For toxicity tests in mice, a single dose of 1000 mg/kg of body weight was given. After 1 month animals were autopsied and the organs examined. The drug was nontoxic. For a chronic toxicity test 75 mg/kg of body weight was given every 21 days. After 6 months of drug treatment, blood and tissue samples were examined. No toxic effects were observed. For a teratogenic study, 15 mated female mice were fed 10 or 25 mg/kg of body weight on Day 6 of gestation. 3 generations of offspring showed no malformations. In mice, abortifacient effects were noted with a maximum activity at 50 mg/kg of body weight. The drug showed no estrogenic, antiestrogenic, or androgenic effects in mice. Progesterone or pituitary extract given along with the drug did not prevent abortions in mice. The drug was species-specific in that no abortifacient effect was found in rats.     

Teratogenic effects of dosage levels and time of administration of carbamazepine, sodium valproate, and diphenylhydantoin on craniofacial development in the CD-1 mouse fetus

The objective of this investigation was to study the teratogenic effects of dosage levels and time of administration of three anticonvulsant drugs (carbamazepine [CMZ], sodium valproate [NaV], and diphenylhydantoin [DPH]) on craniofacial development in the CD-1 mouse fetus. Pregnant females were intubated on each of days 8-10, 11-13, 14-16, and 8-16 of gestation with the following dose levels for each drug: 375, 563, 938 mg/kg CMZ; 225, 338, 563 mg/kg NaV; 50, 75, 125 mg/kg DPH. Appropriate control groups were maintained for each drug. On gestation day 17, pregnant females were killed and implantation sites were recorded as live, dead, or resorbed. All live fetuses were examined for craniofacial defects. Results of examination of 1,398 fetuses indicated that CMZ, NaV, and DPH were teratogenic and embryotoxic at all dose levels. This study indicated that the observed decrease in mean fetal weight was drug-, dose-, and time-dependent. There was a drug-, dose-, and time-dependent increase observed in the number of dead fetuses, whereas the number of resorbed fetuses was observed to be only time-dependent. The observed frequencies of hydrocephalies, secondary palatal clefts, and submucous palatal clefts were significant for all three factors (drug, dose, and time) whereas the observed frequencies of hematomas and exencephalies were significant only for drug and time. Cleft lips were observed only in the highest dose level of DPH. Uterine horn distribution of defects indicated that fetuses located at the proximal end of the horns were less subject to major defects than those fetuses located at the distal end of the uterine horns. Fetuses with craniofacial hematomas were found in the proximal one-third of the uterine horn, resorbed fetuses, and fetuses with submucous palatal clefts in the middle one-third of the uterine horns and dead fetuses and fetuses with exencephalies, cleft lips, and secondary palatal clefts were localized in the distal one-third of the uterine horns. In comparing the effect of drug, dosage, and time on the development of craniofacial malformations in the CD-1 mouse fetus, CMZ was the least teratogenic and embryotoxic of the three anticonvulsant drugs employed in this study.     

Cocaine as a cause of congenital malformations of vascular origin: experimental evidence in the rat

Cocaine hydrochloride was administered to pregnant Sprague-Dawley rats as a single intraperitoneal dose or as two doses 1-4 hours apart. A single dose administered on day 16 of gestation was teratogenic in a dose-dependent manner, with 40 mg/kg being a no-effect dose and 50 mg/kg the lowest teratogenic dose; 80 mg/kg was lethal to the dam. Forty-eight hours after exposure to a teratogenic dose on day 16 of pregnancy, the fetuses showed severe hemorrhage and edema in the their extremities, particularly the footplates, tail, genital tubercle, and upper lip/nose. When the fetuses were examined on day 21 of gestation, the main externally visible malformations were reduction deformities of the limbs and tail. When two doses of cocaine were administered 1-4 hours apart, the incidence of affected fetuses increased as the time interval between the two doses decreased. Two doses of cocaine administered 2 hours apart were not teratogenic on day 9, 10, 11, 12, 13, or 14 of gestation but did induce reduction deformities on days 15, 16, 17, 18, or 19. The same dose administered 1 hour apart was teratogenic on days 14-19. In general, cocaine administration on gestational days 14, 15, or 16 induced more severe and more widespread hemorrhage and edema than administration on days 17, 18, or 19. In the latter cases, damage was restricted to the distal parts of the hindlimb digits and the tail. The results show that in the rat cocaine is only teratogenic during the late organogenic or postorganogenic period.(ABSTRACT TRUNCATED AT 250 WORDS)     

Aspirin dose-dependently reduces alcohol-induced birth defects and prostaglandin E levels in mice.

The purpose of the present study was threefold. The first purpose was to determine if aspirin (ASA) decreases alcohol-induced birth defects in mice in a dose-dependent fashion. The second purpose was to see if the antagonism of alcohol-induced birth defects afforded by ASA pretreatment was related to dose-dependent decreases in prostaglandin E (PGE) levels in uterine/embryo tissue. The third purpose was to determine if ASA pretreatment altered maternal blood alcohol level. In experiments 1 and 2, pregnant C57BL/6J mice were administered ASA (0, 18.75, 37.5, 75, 150, or 300 mg/kg) on gestation day 10. One hour following the subcutaneous injection of ASA, mice received alcohol (5.8 g/kg) or an isocaloric sucrose solution intragastrically. In experiment 1 the incidence of birth defects was assessed in fetuses delivered by caesarean section on gestation day 19. In experiment 2 uterine/embryo tissue samples were collected on gestation day 10 1 hr following alcohol intubation for subsequent PGE analysis. In experiment 3 blood samples were taken at five time points following alcohol intubation from separate groups of alcohol-treated pregnant mice pretreated with 150 mg/kg ASA or vehicle. The results from the three experiments indicated that 1) ASA dose-dependently reduced the frequency of alcohol-induced birth defects in fetuses examined at gestation day 19, (2) ASA decreased the levels of PGE in gestation day 10 uterine/embryo tissue in a similar dose-dependent fashion, and 3) ASA pretreatment did not significantly influence maternal blood alcohol levels. These results provide additional support for the hypothesis that PGs may play an important role in mediating the teratogenic actions of alcohol.     

Marked accumulation of valproic acid in embryonic neuroepithelium of the mouse during early organogenesis

Valproic acid, an antiepileptic drug, causes neural tube defects in mice and man. 14C-labeled valproic acid (sodium-salt) was administered to pregnant mice on days 8 and 9 of gestation (period of high sensitivity in regard to formation of neural tube defects in this species). Two dose levels of valproic acid (1 and 400 mg/kg) were used; in each case the total radioactivity administered was the same: 400 microCi/kg or 14.7 MBq/kg. Autoradiography combined with computerized densitometry revealed that in low-dose animals most of the radioactivity was confined to maternal liver and kidney, while at high doses more activity was observed in soft tissues and fluids, including amniotic fluid. In the embryo, the neuroepithelium showed the highest concentration, irrespective of dose and survival interval (30 min, 3 h, and 6 h). Upon administration of the high dose, up to five times more radioactivity (approximately 2,000 times more valproic acid) was recovered in embryonic tissues than after the low dose. It is concluded that high doses of VPA saturate the capacities of metabolism, excretion, and protein binding in the maternal organism, resulting in a higher proportion of the dose reaching the embryo, allowing more of the drug to be accumulated by the target organ, the neuroepithelium.     

Inhibition of isotretinoin teratogenicity by acetylsalicylic acid pretreatment in mice.

Although isotretinoin (ITR) has been suggested to cause malformations via cytopathic effects on embryonic cells, the molecular mechanisms of ITR cytotoxicity in teratogenesis are not clear. Since ITR undergoes metabolism by prostaglandin synthase to a potentially cytotoxic peroxyl free radical, the possible role of prostaglandin synthase metabolism as a modulator of ITR teratogenicity was evaluated. Craniofacial and limb abnormalities were noted in fetuses on day 18.5 of gestation following administration of ITR to pregnant CD-1 mice in a three dose regimen of 100 mg/kg at 4 hr intervals on day 10.5 of gestation (plug day = day 0.5 of gestation). Mice were also treated with acetylsalicylic acid (ASA), an irreversible inhibitor of the cyclooxygenase component of prostaglandin synthase, at doses of 20 and 60 mg/kg body weight 2 hr prior to each ITR dose. ASA pretreatment of mice receiving ITR treatment showed a dose-dependent decrease in the overall incidence of malformations, number of defects per fetus, and the incidence of specific craniofacial and limb defects. Equivalent doses of ASA given to control mice did not cause malformations or alter the incidence of resorptions. These results demonstrate that ASA is able to ameliorate the teratogenic effects of ITR observed in fetal mice near term and indicate that prostaglandin metabolism could play a mechanistic role in ITR teratogenicity.     

Antiabortifacient action of dibenzyloxyindanpropionic acid in mice

DIPA [5,6-bis(dibenzyloxy)-1-oxo-2-propyl-2-indanpropionic acid] was evaluated for its antiabortifacient action in mice. PGF_2α administered intramuscularly twice daily at 525 μg/kg per dose starting on day-17 of gestation resulted in premature delivery (prior to day-19 of gestation) in 55% of the animals. This constituted an ED₅₀ abortifacient dosage schedule of PGF_2α. Intramuscular administration of DIPA at a dose of 50 mg/kg twice daily, starting on day-15 of gestation, protected the mice against the premature delivery induced by the ED₅₀ dosage schedule of PGF_2α in that only 20% of the animals delivered prematurely. In saline-treated controls, none of the animals delivered prior to day-19 of gestation. Thus, DIPA appears to be an effective antiabortifacient agent.     

Placental changes due to administration of diethylstilbestrol (DES)

Pregnant mice were injected with 12.5 micrograms DES/kg body weight or 25 micrograms DES/kg body weight daily from gestation day 9 through day 12 or 16 and sacrificed on day 13 or 17. Placentas of DES treated animals were smaller than controls, the effect being dose dependent. Histologic changes in 13 gestation day placentas regional thinning of the labyrinth associated with an apparent inhibition of trophoblast maturation and development of fetal blood vessels. Knots of mononuclear cells form in the labyrinthine region of 13 day placentas exposed to the higher dose of DES. By 17 days gestation, coagulative necrosis is common in the decidua basalis, being most severe in those animals receiving 25 micrograms DES/kg. In many placentas the labyrinthine region is absent. The only remaining elements are trophoblast cells, giant cells and glycogen-containing cells. Fetal deaths associated with the lower dose of DES increased with time whereas 100% fetal mortality was associated with the higher dose.     

Chemotherapeutic efficacy of ascofuranone in Trypanosoma vivax-infected mice without glycerol

Ascofuranone, an antibiotic isolated from Ascochyta visiae, showed trypanocidal activity in Trypanosoma vivax-infected mice. A single dose of 50 mg/kg ascofuranone effectively cured the mice without the help of glycerol. Repeated administrations of this drug further enhanced its chemotherapeutic effect. After two, three, and four consecutive days treatment, the doses needed to cure the infection decreased to 25, 12, and 6 mg/kg, so that the total doses administered were 50, 36 and 24 mg/kg, respectively. Ascofuranone (50 mg/kg) also had a prophylactic effect against T. vivax infection within the first two days after administration. This prophylactic activity diminished to 80% by day 3 and completely disappeared four days after administration. Of particular interest in this study was that ascofuranone had trypanocidal activity in T. vivax-infected mice in the absence of glycerol, whereas co-administration of glycerol or repeated administrations of this drug are needed for Trypanosoma brucei brucei infection. Our present results strongly suggest that ascofuranone is also an effective tool in chemotherapy against African trypanosomiasis in domestic animals.     

Reduction of caffeine teratogenicity in mice by inducing maternal drug metabolism with beta-naphthoflavone

The effect of stimulating maternal drug metabolism on caffeine teratogenicity was investigated in C57BL/6J (cytochrome P1-450 inducible) and AKR/J (cytochrome P1-450 noninducible) mice. The inducing agent, beta-naphthoflavone (beta-NF) in corn oil, was administered intraperitoneally (IP) to dams at 20 or 80 mg/kg/d on days 9 and 10 of gestation. Teratogenic injections of 175 mg/kg/d caffeine in deionized water were administered IP on days 11 and 12 of gestation. All dams were sacrificed on day 18 of gestation, and fetuses were fixed for razor blade sectioning and skeletal examination. Caffeine, without maternal metabolism stimulation, caused similar types and rates of malformations in both strains of mice. Inducing drug metabolism during pregnancy with beta-NF protected the embryos from the congenital toxicities of large injections of caffeine. Reductions in embryolethality, limb malformations, and hematoma formation were evident in the inducible strain but not in the strain incapable of being induced. A dosage of eighty mg/kg/d was more effective than 20 mg/kg/d beta-NF in decreasing malformations, suggesting that stimulation of metabolism and caffeine-induced teratogenicity are inversely related. Rapid elimination of caffeine resulting from increasing drug metabolism with the concomitant decrease in toxicity would indicate that caffeine, and not a metabolite, is the toxicant.     

The effects of prenatal tertiary butanol administration in CBA/J and C57BL/6J mice

Pregnant mice of the CBA/J and C57BL/6J strains were given either tertiary butanol (10.5 mmoles/kg, p.o.) or an equivalent volume of tap water twice daily from day 6 through day 18 of gestation. Examination on day 18 revealed significantly more resorptions per litter in the t-butanol-treated animals but no interstrain difference. Tertiary butanol did not significantly affect the body weight of the survivors nor produce significant abnormalities in either strain. Subsequent blood concentration profiles in female C57BL/6J mice indicated that the treatment regimen produced blood levels equivalent to teratogenic ethanol treatment. Mice receiving 3 days of t-butanol treatment did not eliminate the drug more rapidly than control animals, indicating that tolerance was not a factor in the treatment regimen. Since t-butanol shares membrane disordering effects with ethanol but is not metabolized by the same pathway, a role for acetaldehyde or the process of ethanol metabolism is suggested in ethanol teratogenicity.     

Results of an experimental study of the pharmacokinetics of polymyxin B sulfate]

Pharmacokinetics of polymyxin B sulfate of Soviet production was studied in various species of animals with the use of different administration routes and dosage. After a single intramuscular administration of the drug to dogs in doses of 1.1 and 2.2 mg/kg the antibiotic was detected within 5 hours at the maximum level during the 1st hour. A two-fold increase of the dose was accompanied by 1.5 times increase in the antibiotic level. Repeated administrations of polymyxin B sulfate in a dose of 4.5 mg/kg did not result in an increase in the blood level as compared to a single use of the drug. When polymyxin B sulfate was administered intravenously, the concentration peak was observed in 15 minutes independent of the dosage. Later the antibiotic level decreased. The maximum level of the drug in the mice was observed 1 hour after its intramuscular administration in a dose of 8 mg/kg, the highest levels being registered in the kidney tissues and urine.     

A teratogenicity study on hydroxyurea and diphenylhydantoin in cats

Hydroxyurea, an antitumor drug and known teratogen in rat, miniature swine and dog, and diphenylhydantoin, a teratogen in mouse and rat, were assessed for teratogenic effects in cat. Pregnancies were induced, by synchronizing gonadotropin-stimulated estrus and ovulation with natural copulations. Hydroxyurea at 50 or 100 mg/kg, and sodium diphenylhydantoin at 1 or 2 mg/kg dosages, were administered orally in single daily doses from gestation days 10-22. Appropriate controls given empty capsules, were included for each drug. Cats were necropsied on gestation day 43. Fetuses were examined for external, visceral and skeletal malformations. Hydroxyurea at 50 mg/kg dose produced a low teratogenic activity and at 100 mg/kg a high incidence of non-pregnancy and resorptions with, consequently, fewer live fetuses. Diphenylhydantoin gave no clear evidence of teratogenicity at any test dose but was embryolethal at the maternally toxic dose of 2 mg/kg. So far, studies conducted suggest that the cat is a useful species for screening drugs and chemicals for their teratogenic potential.