Animal Biotechnology 1 2018
DOI: 10.1007/978-3-319-92327-7_8
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Equine Embryo Transfer

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Cited by 4 publications
(10 citation statements)
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“…We successfully employed a modified vitrification protocol to overcome the challenges to cryopreservation typically associated with large diameter and/or high lipid content embryos. The modifications we made to the previously published vitrification protocol (12)(13)(14) included the following: (1) replacement of glucose with galactose in the base medium, (2) replacement of fetal bovine serum with alpaca serum in all solutions containing serum, (3) use of a commercially available embryo holding medium for post-warming/pre-transfer temporary holding, (4) performing asynchronous embryo transfer (no more than 24 h asynchronous; standard operating procedure for embryo transfer on this farm) as is common in pigs (22) and horses (23), and (5) an overnight in vitro culture period to enable post-warming observation of greater duration (because embryos that initially appear viable shortly after warming often fail to produce pregnancies after embryo transfer); this enables a more accurate in vitro assessment of post-warming embryo viability.…”
Section: Discussionmentioning
confidence: 99%
“…We successfully employed a modified vitrification protocol to overcome the challenges to cryopreservation typically associated with large diameter and/or high lipid content embryos. The modifications we made to the previously published vitrification protocol (12)(13)(14) included the following: (1) replacement of glucose with galactose in the base medium, (2) replacement of fetal bovine serum with alpaca serum in all solutions containing serum, (3) use of a commercially available embryo holding medium for post-warming/pre-transfer temporary holding, (4) performing asynchronous embryo transfer (no more than 24 h asynchronous; standard operating procedure for embryo transfer on this farm) as is common in pigs (22) and horses (23), and (5) an overnight in vitro culture period to enable post-warming observation of greater duration (because embryos that initially appear viable shortly after warming often fail to produce pregnancies after embryo transfer); this enables a more accurate in vitro assessment of post-warming embryo viability.…”
Section: Discussionmentioning
confidence: 99%
“…The most appropriate day for embryo collection remains controversial. On one hand, for collections between days 6 and 9 after fertilization, collections made between days 7 and 8 retrieved greater embryo numbers (Cuervo-Arango et al, 2009;Sieme et al, 2018). On the other hand, similar embryo recovery rates could be achieved from days 5 to 8 postovulation (Vogelsang et al, 1985).…”
Section: Introductionmentioning
confidence: 92%
“…The ET makes it possible to obtain foals from aged mares, mares with problems to maintain gestation, and mares under training or competition. This biotechnology also allows obtaining foals of young mares (1 to 2 years) without impairing its development and shortens the generation interval of mares with a promising pedigree (Sieme et al, 2018).…”
Section: Introductionmentioning
confidence: 99%
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“…The reported pregnancy rate in recipient mares ranges between 65 to 85% on day-14 after ovulation [ 31 ]. The factors affecting EET programs include donor factors, embryo factors, recipient factors, male origin factors, and technical factors [ 32 ]. Donor mares’ fertility is affected by age, breed, intrinsic fertility, parity, sports activity, nutritional status, lactational status, and other reproductive pathologies [ 33 ].…”
Section: Introductionmentioning
confidence: 99%