Placental agenesis, embryonal hydraemia, embryolethality and acute hypervitaminosis A in rats.

Acute maternal hypervitaminosis A established on Day 9 of gestation in Sprague-Dawley-derived rats caused a dose-related increase in the resorption of implants. The median embryolethal dose was 189,000 i.u./kg. In addition to suppression of the allantois leading to placental agenesis, damaged embryos showed retarded somatic development and hydraemia, all apparent 24 h after treatment. At about Day 11 the hydraemia involved the visceral wall of the yolk sac causing death of the embryo soon after. The fluid in the vitelline vessels continued to collect until Day 13 when it absorbed following necrosis of the wall of the yolk sac. Two mechanisms are suggested for the embryonal hydraemia: either the excess fluid resulted from a permeability disorder induced by the vitamin A; or it was retained metabolic water or water specifically absorbed to inflate the allantois and, being unused for this purpose, it pooled in the blood vessels of the embryo. The yolk sac hydraemia is more likely to have followed injury to the proximal endoderm.