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Endometrial gland surface density and hyperaemia of the endometrium during early pregnancy in the mare
Author(s) -
Lefranc A.C.,
Allen W. R.
Publication year - 2007
Publication title -
equine veterinary journal
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.82
H-Index - 87
eISSN - 2042-3306
pISSN - 0425-1644
DOI - 10.2746/042516407x235821
Subject(s) - conceptus , ovulation , endometrium , uterine horns , baboon , gestation , uterus , pregnancy , medicine , biology , andrology , endocrinology , hormone , genetics
Summary Reasons for performing study : The morphology and surface density of endometrial glands responsible for the nutrition of the placenta requires further study employing computer assisted morphometric analysis. Objective : To analyse changes in the morphology and surface density of endometrial glands situated adjacent to, and remote from, the conceptus during the first 30 days of gestation. Methods : Endometrial biopsies were recovered, under videoendoscopic control, from both nonpregnant and pregnant mares 12 days after ovulation, as well as from pregnant mares on Days 16, 20, 25 and 30 of gestation. One biopsy was taken at the base of the nongravid uterine horn and the other from beneath the conceptus at the base of the gravid horn. The samples were evaluated by computer‐assisted morphometric analysis to determine the surface area per unit volume (Sv) of endometrial glands in the stratum spongiosum.Results : No differences in morphology or density of the glands were discernable between pregnant and nonpregnant mares on Day 12 day after ovulation. On Day 16, however, the glands beneath the conceptus appeared to be at a significantly lower density than the clearly more tortuous glands at the base of the nongravid horn. Between Days 20 and 30 of gestation the endometrium in direct contact with the conceptus was visibly more reddened and hyperaemic than elsewhere in the uterus. However, the Sv of glands beneath the conceptus had now increased again so they appeared similar to those in the nongravid horn, due mainly to a reduction in the level of stromal oedema in the former. Conclusion and potential relevance : The embryo‐maternal interactions that are vital during early pregnancy to suppress the cyclical luteolytic cascade and support nidation of the conceptus, were characterised here with local endometrial hyperaemia, histotroph production and a decrease in endometrial gland Sv at the commencement of the stationary phase. Both the components secreted by the endometrial glands and the factors liberated by the conceptus during early pregnancy need further investigation.