| Abstract: | In this continuing series of studies of implantation in the rhesus monkey, eight specimens, ranging in gestation age from 9.5 days to 16.5 days after ovulation, were examined with a focus on localized modifications in the endometrium as a response to implantation. Additionally, evidence of continuing changes in early pregnancy was provided by three specimens at the end of the first month of gestation (days 24, 28, and 35). The responses of the endometrium to pregnancy start with a localized accumulation of stromal eosinophils, which is rapidly followed by epithelial plaque formation in the basal cells of the luminal epithelium and gland necks. Plaque cells hypertrophy, develop marginal dense granules, and accumulate glycogen. They form a pad underlying the margins but not the central zone of the implantation site. However, some degenerating plaque cells are found as early as day 15; and little more than a region of leukocytic infiltration remains of the plaque by day 35. Shortly after the plaque response is initiated there is a striking subepithelial edema surrounding the plaque, and the venular capillaries enlarge by engorgement and by endothelial hyperplasia. The endothelial cells subsequently hypertrophy, resulting in a largely columnar endothelium. There is a localized decidual cell response, consisting of an increase in rough endoplasmic reticulum and in filaments, but only a moderate amount of hypertrophy of these cells. Endometrial granular cells become more conspicuous in the area as they accumulate glycogen. Patches of large pale cells appear in the lumen and walls of arterioles subjacent to the implantation site, but the cytology of these cells provided insufficient clues to their origin (cytotrophoblast?). Although the endometrial responses described are impressive and diverse, their advantages to the organism are not obvious. The hypertrophy of the anastomotic capillary bed that accompanies plaque formation may well provide an extensive vascular network available to the developing trophoblastic lacunae. The role of endometrial granular cells, decidual cells, and even plaque cells may be more related to their largely unexplored secretory activity than to their physical contribution to the formation of the basal plate. |
