Study of the effects of ß-myrcene on rat fertility and general reproductive performance

Beta-Myrcene (MYR) is a monoterpene found in the oils of a variety of aromatic plants including lemongrass, verbena, hop, bay, and others. MYR and essential oils containing this terpenoid compound are used in cosmetics, household products, and as flavoring food additives. This study was undertaken to investigate the effects of MYR on fertility and general reproductive performance in the rat. MYR (0, 100, 300 and 500 mg/kg) in peanut oil was given by gavage to male Wistar rats (15 per dose group) for 91 days prior to mating and during the mating period, as well ass to females (45 per dose group) continuously for 21 days before mating, during mating and pregnancy, and throughout the period of lactatiomn up to postnatal day 21. On day 21 of pregnancy one-third of the females of each group were submitted to cesarean section. Resorption, implantation, as well as dead and live fetuses were counted. All fetuses were examined for external malformation, weighed, and cleared and stained with Alizarin Red S for skeleton evaluation. The remaining dams were allowed to give birth to their offspring. The progeny was examined at birth and subsequently up to postnatal day 21. Mortality, weight gain and physical signs of postnatal development were evaluated. Except for an increase in liver and kidney weights, no other sign of toxicity was noted in male and female rats exposed to MYR. MYR did not affect the mating index (proportion of females impregnated by males) or the pregnancy index (ratio of pregnant to sperm-positive females). No sign of maternal toxicity and no increase in externally visible malformations were observed at any dose level. Only at the highest dose tested (500 mg/kg) did MYR induce an increase in the resorption rate and a higher frequency of fetal skeleton anomalies. No adverse effect of MYR on postnatal weight gain was noted but days of appearance of primary coat, incisor eruption and eye opening were slightly delayed in the exposed offspring. On the basis of the data presented in this paper the no-observed-adverse-effect level (NOAEL) for toxic effects on fertility and general reproductive performance can be set at 300 mg of Beta-myrcene/kg body weight by the oral route.

Study of the embryofeto-toxicity of Crown-of-Thorns (Euphorbia milii) latex, a natural molluscicide

The crude latex of Crown-of-Thorns (Euphorbia milii var. Hislopii) is a potent plant molluscicide and a promising alternative to the synthetic molluscicides used in schistosomiasis control. The present study was undertaken to investigate the embryofeto-toxic potential of E. Milii latex. The study is part of a comprehensive safety evaluation of this plant molluscicide. Lyophilized latex (0, 125, 250 and 500 mg/kg body weight) in corn oil was given by gavage to Wistar rats (N = 100) from days 6 to 15 of pregnancy and cesarean sections were performed on day 21 of pegnancy. The numbers of implantation sites, living and dead fetuses, resorptions and corpora lutea were recorded. Fetuses were weighed, examined for external malformations, and fixed for visceral examination, or cleared and stained with Alizarin red S for skeleton evaluation. A reduction of body weight minus uterine weight al term indicated that E. Milii latex was maternally toxic over the dose range tested. No latex-induced embryolethality was noted at the lowest dose (125 mg/kg) but the resorption rate was markedly increased at 250 mg/kg (62.5 percent) and 500 mg/kg (93.4 percent). A higher frequency of fetuses showing signs of delayed ossification (control: 17.4 percent; 125 mg/kg: 27.4 percent and 250 mg/kg: 62.8 percent; P<0.05 vs control) indicated that fetal growth was retarded at doses ³125 mg latex/kg body weight. No increase in the proportion of fetuses with skeletal anomalies was observed at the lowest dose but the incidence of minor skeletal malformations was higher at 250 mg/kg body weight (control: 13.7 percent; 125 mg/kg: 14.8 percent; 250 mg/kg: 45.7 percent; P<0.05 vs control). Since a higher frequency of minor malformations was noted only at very high doses of latex which are embryolethal and maternally toxic, it is reasonable to conclude that this plant molluscicide poses no teratogenic hazard or, at least, that this possibility is of a considerably low order of magnitude.

Embryotoxicity of methanol in well-nourished and malnourished rats

1. The objective of the present study was to investigate whether maternal protein-energy malnutrition alters methanol-induced embryotoxic effects in rats. 2. On day 0 of pregnancy, dams were assigned at random to one of the following treatment groups: well-nourished methanol (WNM), well-nourished control (WNC), malnourished methanol (MNM) and malnourished control (MNC). Malnourished animals received half of the well-nourished food intake (ca 12 g/day) throughout pregnancy. Methanol was adminsitered by gavage (2.5 g/kg body weight) from gestation day 6 to 15. 3. Rats were weighed on days 0,6 to 15, and 21 of pregnancy. On day 21 rats were submitted to cesarean section. The number of implantations, living and dead fetuses, resorptions and corpora lutea was recorded. All fetuses were weighed, examined for externally visible malformations, fixed, and examined for skeletal anomalies after clearing and staining with Alizarin Red S. 4. An increased proportion of fetuses with skeletal malformations, particularly cervical extra ribs, was found in the methanol-treated groups (fetuses with skeletal malformations: WNC = 5.6 percent WNM = 45.4 percent, MNC = 3.8 percent, and MNM = 38.8 percent). Malnutrition produced fetal growth retardation, but did not cause any increase in the occurrence of gross structural malformations. The methanol-induced increase in the proportion of fetuses with extra ribs was not altered by malnutrition, but methanol potentiated the malnutrition-induced increase in the proportion of fetuses with sings of delayed ossification (WNC = 18.6 percent, WNM = 25.4 percent, MNC = 39.7 percent, and MNM = 78.4 percent). 5. These findings suggest that methanol-induced gross structural malformations are not affected by maternal malnutrition, but the delay in ossification caused by malnutrition is aggravated by treatment with methanol