The effects of an advanced uterine environment on embryonic survival in the mare

Summary Reasons for performing the study: During embryo transfer (ET) the equine embryo can tolerate a wide degree of negative asynchrony but positive asynchrony of >2 days usually results in embryonic death. There is still confusion over whether this is due to the inability of the embryo to indu...

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Bibliographic Details
Published in:Equine veterinary journal 2012-07, Vol.44 (4), p.432-439
Main Authors: WILSHER, S., LEFRANC, A.-C., ALLEN, W. R.
Format: Article
Language:English
Subjects:
Animals
Cleavage Stage, Ovum - cytology
Cleavage Stage, Ovum - physiology
Cleavage Stage, Ovum - transplantation
Diestrus
embryo transfer
Embryo Transfer - veterinary
Embryo, Mammalian
Embryonic Development
embryonic loss
Embryos
Estrus Synchronization
Female
horse
Horses - embryology
mare
Pregnancy
superfetation
Tissue Donors
Transplantation
uterine environment
Uterus - physiology
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Summary:Summary Reasons for performing the study: During embryo transfer (ET) the equine embryo can tolerate a wide degree of negative asynchrony but positive asynchrony of >2 days usually results in embryonic death. There is still confusion over whether this is due to the inability of the embryo to induce luteostasis or to an inappropriate uterine environment. Objectives: To assess embryo survival and development in an advanced uterine environment. Hypothesis: Embryo–uterine asynchrony, not the embryo's inability to induce luteostasis, is responsible for embryonic death in recipient mares with a >2 days chronologically advanced uterus. Methods: Experiment 1: Thirteen Day 7 embryos were transferred to the uteri of recipient mares with luteal prolongation, occasioned by manual crushing of their own conceptus, such that donor–recipient asynchrony was between +13 and +49 days. Experiment 2: Day 7 embryos were transferred to recipient mares carrying their own conceptus at Days 18 (n = 2), 15 (n = 2), 14 (n = 4), 12 (n = 4) or 11 (n = 4) of gestation. In addition, Day 8 embryos were transferred to 4 pregnant recipient mares on Day 11 of gestation. Results: No pregnancies resulted following transfer of Day 7 embryos to recipients in prolonged dioestrus with asynchronies between +13 and +49 days. However, the use of early pregnant mares as recipients resulted in 5/20 (25%) twin pregnancies, 4 of which came from the transfer of a Day 8 embryo to a Day 11 recipient. All transferred embryos showed retarded growth, with death occurring in 4/5 (80%). Conclusions and potential relevance: The results emphasise the importance of an appropriate uterine environment for embryo growth and the inability of equine embryos to survive transfer to a uterus >2 days advanced even when luteostasis is achieved. It is possible that in normal, non‐ET equine pregnancy, embryo–uterine asynchrony may account for some cases of embryonic death.
ISSN:0425-1644
2042-3306
DOI:10.1111/j.2042-3306.2011.00473.x