An Earlier Uterine Environment Favors the In Vivo Development of Fresh Pig Morulae and Blastocysts Transferred by a Nonsurgical Deep-uterine Method

This study aimed to evaluate the effect of recipient-donor estrous cycle synchrony on recipient reproductive performance after nonsurgical deep-uterine (NsDU) embryo transfer (ET). The transfers (N=132) were conducted in recipients sows that started estrus 24 h before (–24 h; N=9) or 0 h (synchronou...

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Autores principales: ANGEL, Miguel Angel, GIL, Maria Antonia, CUELLO, Cristina, SANCHEZ-OSORIO, Jonatan, GOMIS, Jesus, PARRILLA, Inmaculada, VILA, Jordi, COLINA, Ignacio, DIAZ, Marta, REIXACH, Josep, VAZQUEZ, Jose Luis, VAZQUEZ, Juan Maria, ROCA, Jordi, MARTINEZ, Emilio A.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Society for Reproduction and Development 2014
Materias:
Original Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4219994/
https://www.ncbi.nlm.nih.gov/pubmed/25030061
http://dx.doi.org/10.1262/jrd.2014-022
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author ANGEL, Miguel Angel
GIL, Maria Antonia
CUELLO, Cristina
SANCHEZ-OSORIO, Jonatan
GOMIS, Jesus
PARRILLA, Inmaculada
VILA, Jordi
COLINA, Ignacio
DIAZ, Marta
REIXACH, Josep
VAZQUEZ, Jose Luis
VAZQUEZ, Juan Maria
ROCA, Jordi
MARTINEZ, Emilio A.
author_facet ANGEL, Miguel Angel
GIL, Maria Antonia
CUELLO, Cristina
SANCHEZ-OSORIO, Jonatan
GOMIS, Jesus
PARRILLA, Inmaculada
VILA, Jordi
COLINA, Ignacio
DIAZ, Marta
REIXACH, Josep
VAZQUEZ, Jose Luis
VAZQUEZ, Juan Maria
ROCA, Jordi
MARTINEZ, Emilio A.
author_sort ANGEL, Miguel Angel
collection PubMed
description This study aimed to evaluate the effect of recipient-donor estrous cycle synchrony on recipient reproductive performance after nonsurgical deep-uterine (NsDU) embryo transfer (ET). The transfers (N=132) were conducted in recipients sows that started estrus 24 h before (–24 h; N=9) or 0 h (synchronous; N=31), 24 h (+24 h; N=74) or 48 h (+48 h; N=18) after the donors. A total of 30 day 5 morulae or day 6 blastocysts (day 0=onset of estrus) were transferred per recipient. The highest farrowing rates (FRs) were achieved when estrus appeared in recipients 24 h later than that in the donors (81.1%), regardless of the embryonic stage used for the transfers. The FR notably decreased (P<0.05) when recipients were –24 h asynchronous (0%), synchronous (61.3%) or +48 h asynchronous (50%) relative to the donors. No differences in litter size (LS) and piglet birth weights were observed among the synchronous and +24 h or +48 h asynchronous groups. While a +24 h asynchronous recipient was suitable for transfers performed with either morulae (FR, 74.3%; LS, 9.2 ± 0.6 piglets) or blastocysts (FR, 84.6%; LS, 9.8 ± 0.6 piglets), a + 48 h asynchronous recipient was adequate for blastocysts (FR, 87.5%; LS, 10.4 ± 0.7 piglets) but not for morulae (FR, 30.0%; LS, 7.3 ± 2.3 piglets). In conclusion, this study confirms the effectiveness of the NsDU-ET technology and shows that porcine embryos tolerate better a less advanced uterine environment if they are nonsurgically transferred deep into the uterine horn.
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spelling pubmed-42199942014-11-05 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 GIL, Maria Antonia CUELLO, Cristina SANCHEZ-OSORIO, Jonatan GOMIS, Jesus PARRILLA, Inmaculada VILA, Jordi COLINA, Ignacio DIAZ, Marta REIXACH, Josep VAZQUEZ, Jose Luis VAZQUEZ, Juan Maria ROCA, Jordi MARTINEZ, Emilio A. J Reprod Dev Original Article This study aimed to evaluate the effect of recipient-donor estrous cycle synchrony on recipient reproductive performance after nonsurgical deep-uterine (NsDU) embryo transfer (ET). The transfers (N=132) were conducted in recipients sows that started estrus 24 h before (–24 h; N=9) or 0 h (synchronous; N=31), 24 h (+24 h; N=74) or 48 h (+48 h; N=18) after the donors. A total of 30 day 5 morulae or day 6 blastocysts (day 0=onset of estrus) were transferred per recipient. The highest farrowing rates (FRs) were achieved when estrus appeared in recipients 24 h later than that in the donors (81.1%), regardless of the embryonic stage used for the transfers. The FR notably decreased (P<0.05) when recipients were –24 h asynchronous (0%), synchronous (61.3%) or +48 h asynchronous (50%) relative to the donors. No differences in litter size (LS) and piglet birth weights were observed among the synchronous and +24 h or +48 h asynchronous groups. While a +24 h asynchronous recipient was suitable for transfers performed with either morulae (FR, 74.3%; LS, 9.2 ± 0.6 piglets) or blastocysts (FR, 84.6%; LS, 9.8 ± 0.6 piglets), a + 48 h asynchronous recipient was adequate for blastocysts (FR, 87.5%; LS, 10.4 ± 0.7 piglets) but not for morulae (FR, 30.0%; LS, 7.3 ± 2.3 piglets). In conclusion, this study confirms the effectiveness of the NsDU-ET technology and shows that porcine embryos tolerate better a less advanced uterine environment if they are nonsurgically transferred deep into the uterine horn. The Society for Reproduction and Development 2014-07-15 2014-10 /pmc/articles/PMC4219994/ /pubmed/25030061 http://dx.doi.org/10.1262/jrd.2014-022 Text en ©2014 Society for Reproduction and Development http://creativecommons.org/licenses/by-nc-nd/3.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution Non-Commercial No Derivatives (by-nc-nd) License.
spellingShingle Original Article
ANGEL, Miguel Angel
GIL, Maria Antonia
CUELLO, Cristina
SANCHEZ-OSORIO, Jonatan
GOMIS, Jesus
PARRILLA, Inmaculada
VILA, Jordi
COLINA, Ignacio
DIAZ, Marta
REIXACH, Josep
VAZQUEZ, Jose Luis
VAZQUEZ, Juan Maria
ROCA, Jordi
MARTINEZ, Emilio A.
An Earlier Uterine Environment Favors the In Vivo Development of Fresh Pig Morulae and Blastocysts Transferred by a Nonsurgical Deep-uterine Method
title An Earlier Uterine Environment Favors the In Vivo Development of Fresh Pig Morulae and Blastocysts Transferred by a Nonsurgical Deep-uterine Method
title_full An Earlier Uterine Environment Favors the In Vivo Development of Fresh Pig Morulae and Blastocysts Transferred by a Nonsurgical Deep-uterine Method
title_fullStr An Earlier Uterine Environment Favors the In Vivo Development of Fresh Pig Morulae and Blastocysts Transferred by a Nonsurgical Deep-uterine Method
title_full_unstemmed An Earlier Uterine Environment Favors the In Vivo Development of Fresh Pig Morulae and Blastocysts Transferred by a Nonsurgical Deep-uterine Method
title_short An Earlier Uterine Environment Favors the In Vivo Development of Fresh Pig Morulae and Blastocysts Transferred by a Nonsurgical Deep-uterine Method
title_sort earlier uterine environment favors the in vivo development of fresh pig morulae and blastocysts transferred by a nonsurgical deep-uterine method
topic Original Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4219994/
https://www.ncbi.nlm.nih.gov/pubmed/25030061
http://dx.doi.org/10.1262/jrd.2014-022
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