Malformations and minor anomalies in children whose mothers had prenatal diagnosis: comparison between CVS and amniocentesis.

The frequency of abortion following chorionic villus sampling (CVS) is similar to that following amniocentesis. However, there is no information on long-term effects, such as malformations in liveborn children exposed to CVS. We evaluated 189 infants whose mothers had either CVS or amniocentesis as participants in the Canadian Collaborative Randomized Trial, a prospective assessment of the safety of CVS compared with amniocentesis. The participation rate of children who could be contacted was 95%. Ninety-five of the 189 infants (50.2%) had been exposed to CVS, 87 (46%) to amniocentesis, and 7 (3.8%) to both. (The latter group was excluded from calculations.) One hundred twenty-eight (128) children had greater than or equal to one minor anomalies but no major abnormalities: 58 of 95 (60%) in the CVS and 70 of 87 (80%) in the amniocentesis group. Twenty-six children had malformations: 17 (17.8%) in the CVS and 9 (10.3%) in the amniocentesis group. Only one anomaly, Sturge-Weber dysplasia (amniocentesis group), was potentially severe and none were life-threatening. Superficial cavernous hemangiomas (strawberry nevi) were noted more frequently in children in the CVS group (12.6%) than in the amniocentesis group (3.4%), but only slightly higher than in the general public. We conclude that exposure to CVS is not associated with an increased frequency of malformations or minor anomalies in infants compared with amniocentesis although we observed a higher frequency of superficial cavernous (strawberry) hemangiomas in the children in the CVS group.

Excitotoxic lesions of the nucleus paragigantocellularis facilitate male sexual behavior but attenuate female sexual behavior in rats.

Little is known regarding the descending inhibitory control of genital reflexes such as ejaculation and vaginal contractions. The brainstem nucleus paragigantocellularis (nPGi) projects bilaterally to the lumbosacral motoneuron pools that innervate the genital musculature of both male and female rats. Electrolytic nPGi lesions facilitate ejaculation in males, leading to the hypothesis that the nPGi is the source of descending inhibition to genital reflexes. However, the function of the nPGi in female sexual behavior remains to be elucidated. To this end, male and female rats received bilateral excitotoxic fiber-sparing lesions of the nPGi, and sexual behavior and sexual behavior-induced Fos expression were examined. In males, nPGi lesions facilitated copulation, supporting the hypothesis that the nPGi, and not fibers-of-passage, is the source of descending inhibition of genital reflexes in male rats. nPGi lesions in males did not alter sexual behavior-induced Fos expression in any brain region examined. nPGi-lesioned females spent significantly less time mating with stimulus males and had significantly longer ejaculation-return latencies compared to baseline. These results did not significantly differ from control females, but this trend warranted further analysis of the reinforcing value of sexual behavior. Both lesioned and non-lesioned females formed a conditioned place preference (CPP) for artificial vaginocervical stimulation (aVCS). However, post-reinforcement, nPGi-lesioned females did not differ in the percentage of time spent in the non-reinforced chamber versus the reinforced chamber, suggesting a weakened CPP for aVCS. nPGi lesions in females reduced sexual behavior-induced Fos expression throughout the hypothalamus and amygdala. Taken together, these results suggest that while nPGi lesions in males facilitate copulation, such lesions in females attenuate several aspects of sexual behavior resulting in a reduction in the rewarding value of copulation that may be mediated by nPGi control of genital reflexes. This work has important implications for the understanding and treatment of sexual dysfunction in people including delayed/premature ejaculation, involuntary vaginal spasms, and pain during intercourse.