Varix of the fetal intra-abdominal umbilical vein: prenatal sonographic diagnosis and suggested in utero management.

Varix of the fetal intra-abdominal umbilical vein (FIUV) is a rare entity. We describe an ultrasound diagnosis of this condition together with a review of the literature relating to its prognosis and management. Our conclusion is that close fetal monitoring should be performed, and delivery should be induced when lung maturity has been accomplished or any fetal distress is apparent.

Pregnancy and amyloidogenesis: I. Offspring of amyloidotic mice are not predisposed to develop amyloidosis.

Amyloid enhancing factor (AEF) is a substance formed during amyloidogenesis that accelerates amyloid deposition in tissues. The administration of AEF followed by AgNO3 (inflammatory stimulus) to mice results in amyloidosis within 6 days. The purpose of the study was to determine whether the offspring of amyloidotic mice are exposed to maternal AEF during pregnancy and therefore become predisposed to the development of amyloidosis on inflammatory stimulus. To that end female mice were made amyloidotic by the administration of AEF and AgNO3, made pre-amyloidotic (a condition associated with self-generation of AEF) with a short course of casein, or treated with exogenous AEF without AgNO3; then mating and conception took place. The possible priming of offspring with maternal AEF was studied by the administration of AgNO3 alone (without AEF) to the offspring and the determination of the presence of amyloid deposits in their spleens. Despite the long-term effect of AEF and its high activity, amyloidosis did not develop in any of the studied offspring, implying that the newborn mice were not primed by maternal AEF. These findings suggest that amyloidotic mothers do not predispose their offspring to the risk of developing amyloidosis, probably because maternal AEF does not cross the placenta.

Glyburide crosses the placenta in vivo in pregnant rats.

Non-insulin-dependent diabetes mellitus (NIDDM) is normally treated by oral hypoglycaemic agents, but their use is excluded during pregnancy because of their potential teratogenic and hypoglycaemic effects on the fetus. This caveat was recently questioned as glyburide was shown to cross an isolated cotyledon in vitro in insignificant amounts. In the present study, placental transport of glyburide in vivo was examined as an indispensable step towards clinical trials. Tritiated glyburide, C14 albumin or C14-labelled diazepam were injected into 13, 9 and 11 pregnant rats, respectively and the radioactivity was measured thereafter in maternal blood and in whole fetal extracts. The ratios between radioactivity in fetal tissue to that in maternal blood for glyburide (0.535 +/- 0.068) were similar to those of diazepam (0.641 +/- 0.057) which readily crosses the placenta. However, they differed significantly from those for albumin (0.048 +/- 0.0004) which does not cross. Moreover, glyburide in fetal tissue consistently reflected its concentration in maternal blood when measured at consecutive intervals after intravenous injection in the mother. In contrast, albumin in fetal tissue was low at all time points regardless of its levels in maternal blood when measured at different times after injection. These data suggest that glyburide crosses the placenta of pregnant rats and should therefore be considered with caution as a hypoglycaemic agent in the treatment of gestational diabetes.