An earlier uterine environment favors the in vivo development of fresh pig morulae and blastocysts transferred by a nonsurgical deep-uterine method.
Angel, Miguel Angel
An earlier uterine environment favors the in vivo development of fresh pig morulae and blastocysts transferred by a nonsurgical deep-uterine method. [electronic resource] - The Journal of reproduction and development 2014 - 371-6 p. digital
Publication Type: Journal Article; Research Support, Non-U.S. Gov't
1348-4400
10.1262/jrd.2014-022 doi
Animals
Blastocyst--physiology
Embryo Transfer--methods
Embryonic Development--physiology
Estrus--physiology
Estrus Synchronization--physiology
Female
Morula--physiology
Pregnancy
Sus scrofa
Uterus--physiology
An earlier uterine environment favors the in vivo development of fresh pig morulae and blastocysts transferred by a nonsurgical deep-uterine method. [electronic resource] - The Journal of reproduction and development 2014 - 371-6 p. digital
Publication Type: Journal Article; Research Support, Non-U.S. Gov't
1348-4400
10.1262/jrd.2014-022 doi
Animals
Blastocyst--physiology
Embryo Transfer--methods
Embryonic Development--physiology
Estrus--physiology
Estrus Synchronization--physiology
Female
Morula--physiology
Pregnancy
Sus scrofa
Uterus--physiology