Your search keyword '"Cuello, C."' showing total 48 results

1. The Cryotop vitrification system is competent for the simultaneous cryopreservation of large numbers of pig in vitro-produced blastocysts

Author

Gonzalez-Plaza, A., Garcia-Canovas, M., Parrilla, I., Rodriguez-Martinez, Heriberto, Gil, M. A., Martinez, E. A., Cuello, C., Gonzalez-Plaza, A., Garcia-Canovas, M., Parrilla, I., Rodriguez-Martinez, Heriberto, Gil, M. A., Martinez, E. A., and Cuello, C.

Abstract

This study aimed to compare the effectiveness, in terms of viability and quality post-warming, when vitrifying in vitro-produced (IVP) pig blastocysts with either a modified Cryotop (n = 161; 20 blastocysts/device) or the conventional Superfine Open Pulled Straw (SOPS; n=160; 5-6 blastocysts/device systems. Blastocyst viability, morphology, and apoptosis parameters were evaluated after 24 h of in vitro culture. The Cryotop system yields better results in terms of higher embryo viability and total cell numbers (p < .05) and lower apoptosis (p < .05) parameters than the SOPS procedure, defining a high effectiveness to simultaneously vitrify 20 pig IVP blastocysts at one time, thus increasing the yield of IVP blastocysts readily available for embryo transfer., Funding Agencies|Ministerio de Ciencia e Innovacin [MCIN/AEI/10.13039/501100011033, PID2022-138666OB-I00]; MCIN-FEDER [2019-00288]; Research Council FORMAS, Stockholm, Sweden

Published

2024

2. N-(2-mercaptopropionyl)-glycine enhances in vitro pig embryo production and reduces oxidative stress

Author

Cambra, J. M., Martinez Serrano, Cristina, Rodriguez-Martinez, Heriberto, Martinez, E. A., Cuello, C., Gil, M. A., Cambra, J. M., Martinez Serrano, Cristina, Rodriguez-Martinez, Heriberto, Martinez, E. A., Cuello, C., and Gil, M. A.

Abstract

This study evaluated the effects of different concentrations (1, 10, 25, 50, and 100 mu M) of the antioxidant N-(2-mercaptopropionyl)-glycine (NMPG), during the culture of in vitro-fertilized porcine oocytes. While the highest concentrations of NMPG (50 and 100 mu M) were toxic to the developing embryos during the first two days of culture, 25 mu M NMPG achieved cleavage rates that were similar to those achieved by the control but did not sustain blastocyst production by Day 7 of culture. Compared to the control culture medium, the culture medium supplemented with 10 mu M NMPG increased (P<0.05) the rates of blastocyst formation, decreased (P<0.05) the intracellular levels of reactive oxygen substances, and downregulated (P<0.05) the expression of the oxidative stress related gene GPX1. In conclusion, these results demonstrated that supplementation of porcine embryo culture medium with 10 M NMPG can attenuate oxidative stress and increase the yield of in vitro production of blastocysts., Funding Agencies|Ministry of Science, Innovation and Universities/the European Regional Development Fund, Madrid, Spain [RTI2018-093525-B-I00]; European UnionEuropean Union (EU) [891663]; Seneca Foundation, Murcia, SpainFundacion Seneca [19892/GERM/15, 20780/PD/18]; Research Council FORMAS, Stockholm, Sweden [2017-00946, 2019-00288]

Published

2020

3. N-(2-mercaptopropionyl)-glycine enhances in vitro pig embryo production and reduces oxidative stress

Author

Cambra, J. M., Martinez Serrano, Cristina, Rodriguez-Martinez, Heriberto, Martinez, E. A., Cuello, C., Gil, M. A., Cambra, J. M., Martinez Serrano, Cristina, Rodriguez-Martinez, Heriberto, Martinez, E. A., Cuello, C., and Gil, M. A.

Abstract

This study evaluated the effects of different concentrations (1, 10, 25, 50, and 100 mu M) of the antioxidant N-(2-mercaptopropionyl)-glycine (NMPG), during the culture of in vitro-fertilized porcine oocytes. While the highest concentrations of NMPG (50 and 100 mu M) were toxic to the developing embryos during the first two days of culture, 25 mu M NMPG achieved cleavage rates that were similar to those achieved by the control but did not sustain blastocyst production by Day 7 of culture. Compared to the control culture medium, the culture medium supplemented with 10 mu M NMPG increased (P<0.05) the rates of blastocyst formation, decreased (P<0.05) the intracellular levels of reactive oxygen substances, and downregulated (P<0.05) the expression of the oxidative stress related gene GPX1. In conclusion, these results demonstrated that supplementation of porcine embryo culture medium with 10 M NMPG can attenuate oxidative stress and increase the yield of in vitro production of blastocysts., Funding Agencies|Ministry of Science, Innovation and Universities/the European Regional Development Fund, Madrid, Spain [RTI2018-093525-B-I00]; European UnionEuropean Union (EU) [891663]; Seneca Foundation, Murcia, SpainFundacion Seneca [19892/GERM/15, 20780/PD/18]; Research Council FORMAS, Stockholm, Sweden [2017-00946, 2019-00288]

Published

2020

4. The cytokine platelet factor 4 successfully replaces bovine serum albumin for the in vitro culture of porcine embryos

Author

Cambra, J. M., Martinez-Serrano, Cristina, Maside, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., Gil, M. A., Cuello, C., Cambra, J. M., Martinez-Serrano, Cristina, Maside, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., Gil, M. A., and Cuello, C.

Abstract

The cytokine platelet factor 4 (PF4) enhances differentiation and cell viability of different stem cells lines in vitro. This study investigated whether PF4 addition to customary pig embryo semi-defined culture media can improve their developmental outcome (Experiment 1) and ultimately replace the need for bovine serum albumin (BSA, Experiment 2). Experiment 1 added PF4 (100-1000 ng/mL, 0 = control) to NCSU-23 with 0.4 mg/mL BSA culturing 3430 presumptive zygotes. Experiment 2 added PF4 (100 -1000 ng/mL, 0 = Control-PVA) to a BSA-free medium (NCSU-23 with 0.3 mg/mL PVA) culturing 3820 presumptive zygotes. Zygote culture in NCSU-23 with 0.4 mg/mL BSA was used as overall control. All groups of Experiment 1 displayed similar rates of day 2-cleavage (range: 65.0 +/- 10.9 to 70.0 +/- 5.8%); of day 7-blastocyst rates (range: 46.6 +/- 10.0 to 56.4 +/- 8.2%) and of total day 7-blastocyst efficiency (range: 32.3 +/- 8.3 to 37.2 +/- 7.3%). Addition of PF4 did not affect total cell numbers of day 7 blastocysts (range: 44.1 +/- 23.2 to 50.5 +/- 26.4). In Experiment 2, PF4 accelerated embryo development, increasing (P < 0.01) blastocyst yield compared to 0-PF4, and blastocyst formation by day 5 adding PF4 100-500 ng/mL (range: 29.9 +/- 7.8 to 31.8 +/- 5.5%; P < 0.05) compared with BSA-control (17.2 +/- 8.2%) and PF4 1000 ng/mL (15.5 +/- 7.9%); showing similar blastocyst rates (range: 42.0 +/- 11.5 to 49.3 +/- 10.0%), total efficiency (28.0 +/- 8.2 to 32.3 +/- 7.1%) total cell numbers (range: 42.6 +/- 19.3 to 45.7 +/- 23.9) as BSA-controls. In conclusion, although PF4 did not show additive improvement under usual semi-defined, BSA-supplemented embryo media, it successfully replaced BSA sustaining porcine blastocyst production in chemically defined conditions. (C) 2019 Elsevier Inc. All rights reserved., Funding Agencies|Ministry of Science, Innovation and Universities-ERDF, Madrid, Spain [RTI2018-093525-B-I00]; Seneca Foundation, Murcia, SpainFundacion Seneca [19892/GERM/15]; Research Council FORMAS, Stockholm, Sweden [2017e00946]

Published

2020

5. The cytokine platelet factor 4 successfully replaces bovine serum albumin for the in vitro culture of porcine embryos

Author

Cambra, J. M., Martinez-Serrano, Cristina, Maside, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., Gil, M. A., Cuello, C., Cambra, J. M., Martinez-Serrano, Cristina, Maside, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., Gil, M. A., and Cuello, C.

Abstract

The cytokine platelet factor 4 (PF4) enhances differentiation and cell viability of different stem cells lines in vitro. This study investigated whether PF4 addition to customary pig embryo semi-defined culture media can improve their developmental outcome (Experiment 1) and ultimately replace the need for bovine serum albumin (BSA, Experiment 2). Experiment 1 added PF4 (100-1000 ng/mL, 0 = control) to NCSU-23 with 0.4 mg/mL BSA culturing 3430 presumptive zygotes. Experiment 2 added PF4 (100 -1000 ng/mL, 0 = Control-PVA) to a BSA-free medium (NCSU-23 with 0.3 mg/mL PVA) culturing 3820 presumptive zygotes. Zygote culture in NCSU-23 with 0.4 mg/mL BSA was used as overall control. All groups of Experiment 1 displayed similar rates of day 2-cleavage (range: 65.0 +/- 10.9 to 70.0 +/- 5.8%); of day 7-blastocyst rates (range: 46.6 +/- 10.0 to 56.4 +/- 8.2%) and of total day 7-blastocyst efficiency (range: 32.3 +/- 8.3 to 37.2 +/- 7.3%). Addition of PF4 did not affect total cell numbers of day 7 blastocysts (range: 44.1 +/- 23.2 to 50.5 +/- 26.4). In Experiment 2, PF4 accelerated embryo development, increasing (P < 0.01) blastocyst yield compared to 0-PF4, and blastocyst formation by day 5 adding PF4 100-500 ng/mL (range: 29.9 +/- 7.8 to 31.8 +/- 5.5%; P < 0.05) compared with BSA-control (17.2 +/- 8.2%) and PF4 1000 ng/mL (15.5 +/- 7.9%); showing similar blastocyst rates (range: 42.0 +/- 11.5 to 49.3 +/- 10.0%), total efficiency (28.0 +/- 8.2 to 32.3 +/- 7.1%) total cell numbers (range: 42.6 +/- 19.3 to 45.7 +/- 23.9) as BSA-controls. In conclusion, although PF4 did not show additive improvement under usual semi-defined, BSA-supplemented embryo media, it successfully replaced BSA sustaining porcine blastocyst production in chemically defined conditions. (C) 2019 Elsevier Inc. All rights reserved., Funding Agencies|Ministry of Science, Innovation and Universities-ERDF, Madrid, Spain [RTI2018-093525-B-I00]; Seneca Foundation, Murcia, SpainFundacion Seneca [19892/GERM/15]; Research Council FORMAS, Stockholm, Sweden [2017e00946]

Published

2020

6. Three-to-5-day weaning-to-estrus intervals do not affect neither efficiency of collection nor in vitro developmental ability of in vivo-derived pig zygotes

Author

Martinez, C. A., Cambra, J. M., Parrilla, I., Lucas, X., Rodriguez-Martinez, Heriberto, Martinez, E. A., Izpisua, J. C., Cuello, C., Gil, M. A., Martinez, C. A., Cambra, J. M., Parrilla, I., Lucas, X., Rodriguez-Martinez, Heriberto, Martinez, E. A., Izpisua, J. C., Cuello, C., and Gil, M. A.

Abstract

An efficient system to collect large numbers of vital zygotes is a pre-requisite for application of zygote genome-editing technology, including development of efficient models for xenotransplantation using pigs. Owing to the sub-optimal in vitro production of zygotes in pigs, efficient collection of in vivo developed zygotes is required. Timing of ovulation is a key factor to sustain efficiency since the interval between pronuclear formation and the first division is very short in pigs. The weaning-to-estrus interval can, due to its inverse relation with length of estrus and time of ovulation, interfere with ovulation and make it asynchronous, which reduces the probability of obtaining zygotes. This retrospective study compared the effects of three weaning-to-estrus intervals of 3, 4 or 5 days on zygote collection efficiency in a total of 17 trials over a 3-year period including 223 sows. Donor sows in groups of 10-15 animals were super-ovulated with eCG 24 h after weaning and those in estrus at 48-72 h post-eCG were immediately treated with hCG, followed by insemination 6 and 24 h thereafter. Collected structures during laparotomy on Day 2 (Day 0: onset of estrus) were morphologically evaluated and only those with a single cell and two visible polar bodies were considered as zygotes. Zygotes were injected with CRISPRCas9 editor mixture and cultured for 6 days to evaluate their developmental ability against non-injected control zygotes. Of all recovered structures (N = 5,468), 67.4%, 30.8% and 1.8% were zygotes, 2-cell embryos and oocytes-degenerated embryos, respectively. The different weaning-to-estrus intervals did not affect either the percentages of collected zygotes (range: 64.1%-70.0%) or the percentages of sows with zygotes at collection time (range: 69.0%-73.3%). The weaning-to-estrus intervals did not affect the in vitro developmental ability of zygotes. After 24 h of culture, 78.1 +/- 2.0% and 95.1 +/- 0.6 (P amp;lt; 0.05) of injected (N = 2,345) and non, Funding Agencies|Seneca Foundation, Murcia, SpainFundacion Seneca [19892/GERM/15]; UCAM (Murcia, Spain) [27094]

Published

2020

7. Three-to-5-day weaning-to-estrus intervals do not affect neither efficiency of collection nor in vitro developmental ability of in vivo-derived pig zygotes

Author

Martinez, C. A., Cambra, J. M., Parrilla, I., Lucas, X., Rodriguez-Martinez, Heriberto, Martinez, E. A., Izpisua, J. C., Cuello, C., Gil, M. A., Martinez, C. A., Cambra, J. M., Parrilla, I., Lucas, X., Rodriguez-Martinez, Heriberto, Martinez, E. A., Izpisua, J. C., Cuello, C., and Gil, M. A.

Abstract

An efficient system to collect large numbers of vital zygotes is a pre-requisite for application of zygote genome-editing technology, including development of efficient models for xenotransplantation using pigs. Owing to the sub-optimal in vitro production of zygotes in pigs, efficient collection of in vivo developed zygotes is required. Timing of ovulation is a key factor to sustain efficiency since the interval between pronuclear formation and the first division is very short in pigs. The weaning-to-estrus interval can, due to its inverse relation with length of estrus and time of ovulation, interfere with ovulation and make it asynchronous, which reduces the probability of obtaining zygotes. This retrospective study compared the effects of three weaning-to-estrus intervals of 3, 4 or 5 days on zygote collection efficiency in a total of 17 trials over a 3-year period including 223 sows. Donor sows in groups of 10-15 animals were super-ovulated with eCG 24 h after weaning and those in estrus at 48-72 h post-eCG were immediately treated with hCG, followed by insemination 6 and 24 h thereafter. Collected structures during laparotomy on Day 2 (Day 0: onset of estrus) were morphologically evaluated and only those with a single cell and two visible polar bodies were considered as zygotes. Zygotes were injected with CRISPRCas9 editor mixture and cultured for 6 days to evaluate their developmental ability against non-injected control zygotes. Of all recovered structures (N = 5,468), 67.4%, 30.8% and 1.8% were zygotes, 2-cell embryos and oocytes-degenerated embryos, respectively. The different weaning-to-estrus intervals did not affect either the percentages of collected zygotes (range: 64.1%-70.0%) or the percentages of sows with zygotes at collection time (range: 69.0%-73.3%). The weaning-to-estrus intervals did not affect the in vitro developmental ability of zygotes. After 24 h of culture, 78.1 +/- 2.0% and 95.1 +/- 0.6 (P amp;lt; 0.05) of injected (N = 2,345) and non, Funding Agencies|Seneca Foundation, Murcia, SpainFundacion Seneca [19892/GERM/15]; UCAM (Murcia, Spain) [27094]

Published

2020

8. N-(2-mercaptopropionyl)-glycine enhances in vitro pig embryo production and reduces oxidative stress

Author

Cambra, J. M., Martinez Serrano, Cristina, Rodriguez-Martinez, Heriberto, Martinez, E. A., Cuello, C., Gil, M. A., Cambra, J. M., Martinez Serrano, Cristina, Rodriguez-Martinez, Heriberto, Martinez, E. A., Cuello, C., and Gil, M. A.

Abstract

This study evaluated the effects of different concentrations (1, 10, 25, 50, and 100 mu M) of the antioxidant N-(2-mercaptopropionyl)-glycine (NMPG), during the culture of in vitro-fertilized porcine oocytes. While the highest concentrations of NMPG (50 and 100 mu M) were toxic to the developing embryos during the first two days of culture, 25 mu M NMPG achieved cleavage rates that were similar to those achieved by the control but did not sustain blastocyst production by Day 7 of culture. Compared to the control culture medium, the culture medium supplemented with 10 mu M NMPG increased (P<0.05) the rates of blastocyst formation, decreased (P<0.05) the intracellular levels of reactive oxygen substances, and downregulated (P<0.05) the expression of the oxidative stress related gene GPX1. In conclusion, these results demonstrated that supplementation of porcine embryo culture medium with 10 M NMPG can attenuate oxidative stress and increase the yield of in vitro production of blastocysts., Funding Agencies|Ministry of Science, Innovation and Universities/the European Regional Development Fund, Madrid, Spain [RTI2018-093525-B-I00]; European UnionEuropean Union (EU) [891663]; Seneca Foundation, Murcia, SpainFundacion Seneca [19892/GERM/15, 20780/PD/18]; Research Council FORMAS, Stockholm, Sweden [2017-00946, 2019-00288]

Published

2020

9. The cytokine platelet factor 4 successfully replaces bovine serum albumin for the in vitro culture of porcine embryos

Author

Cambra, J. M., Martinez-Serrano, Cristina, Maside, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., Gil, M. A., Cuello, C., Cambra, J. M., Martinez-Serrano, Cristina, Maside, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., Gil, M. A., and Cuello, C.

Abstract

The cytokine platelet factor 4 (PF4) enhances differentiation and cell viability of different stem cells lines in vitro. This study investigated whether PF4 addition to customary pig embryo semi-defined culture media can improve their developmental outcome (Experiment 1) and ultimately replace the need for bovine serum albumin (BSA, Experiment 2). Experiment 1 added PF4 (100-1000 ng/mL, 0 = control) to NCSU-23 with 0.4 mg/mL BSA culturing 3430 presumptive zygotes. Experiment 2 added PF4 (100 -1000 ng/mL, 0 = Control-PVA) to a BSA-free medium (NCSU-23 with 0.3 mg/mL PVA) culturing 3820 presumptive zygotes. Zygote culture in NCSU-23 with 0.4 mg/mL BSA was used as overall control. All groups of Experiment 1 displayed similar rates of day 2-cleavage (range: 65.0 +/- 10.9 to 70.0 +/- 5.8%); of day 7-blastocyst rates (range: 46.6 +/- 10.0 to 56.4 +/- 8.2%) and of total day 7-blastocyst efficiency (range: 32.3 +/- 8.3 to 37.2 +/- 7.3%). Addition of PF4 did not affect total cell numbers of day 7 blastocysts (range: 44.1 +/- 23.2 to 50.5 +/- 26.4). In Experiment 2, PF4 accelerated embryo development, increasing (P < 0.01) blastocyst yield compared to 0-PF4, and blastocyst formation by day 5 adding PF4 100-500 ng/mL (range: 29.9 +/- 7.8 to 31.8 +/- 5.5%; P < 0.05) compared with BSA-control (17.2 +/- 8.2%) and PF4 1000 ng/mL (15.5 +/- 7.9%); showing similar blastocyst rates (range: 42.0 +/- 11.5 to 49.3 +/- 10.0%), total efficiency (28.0 +/- 8.2 to 32.3 +/- 7.1%) total cell numbers (range: 42.6 +/- 19.3 to 45.7 +/- 23.9) as BSA-controls. In conclusion, although PF4 did not show additive improvement under usual semi-defined, BSA-supplemented embryo media, it successfully replaced BSA sustaining porcine blastocyst production in chemically defined conditions. (C) 2019 Elsevier Inc. All rights reserved., Funding Agencies|Ministry of Science, Innovation and Universities-ERDF, Madrid, Spain [RTI2018-093525-B-I00]; Seneca Foundation, Murcia, SpainFundacion Seneca [19892/GERM/15]; Research Council FORMAS, Stockholm, Sweden [2017e00946]

Published

2020

10. Three-to-5-day weaning-to-estrus intervals do not affect neither efficiency of collection nor in vitro developmental ability of in vivo-derived pig zygotes

Author

Martinez, C. A., Cambra, J. M., Parrilla, I., Lucas, X., Rodriguez-Martinez, Heriberto, Martinez, E. A., Izpisua, J. C., Cuello, C., Gil, M. A., Martinez, C. A., Cambra, J. M., Parrilla, I., Lucas, X., Rodriguez-Martinez, Heriberto, Martinez, E. A., Izpisua, J. C., Cuello, C., and Gil, M. A.

Abstract

An efficient system to collect large numbers of vital zygotes is a pre-requisite for application of zygote genome-editing technology, including development of efficient models for xenotransplantation using pigs. Owing to the sub-optimal in vitro production of zygotes in pigs, efficient collection of in vivo developed zygotes is required. Timing of ovulation is a key factor to sustain efficiency since the interval between pronuclear formation and the first division is very short in pigs. The weaning-to-estrus interval can, due to its inverse relation with length of estrus and time of ovulation, interfere with ovulation and make it asynchronous, which reduces the probability of obtaining zygotes. This retrospective study compared the effects of three weaning-to-estrus intervals of 3, 4 or 5 days on zygote collection efficiency in a total of 17 trials over a 3-year period including 223 sows. Donor sows in groups of 10-15 animals were super-ovulated with eCG 24 h after weaning and those in estrus at 48-72 h post-eCG were immediately treated with hCG, followed by insemination 6 and 24 h thereafter. Collected structures during laparotomy on Day 2 (Day 0: onset of estrus) were morphologically evaluated and only those with a single cell and two visible polar bodies were considered as zygotes. Zygotes were injected with CRISPRCas9 editor mixture and cultured for 6 days to evaluate their developmental ability against non-injected control zygotes. Of all recovered structures (N = 5,468), 67.4%, 30.8% and 1.8% were zygotes, 2-cell embryos and oocytes-degenerated embryos, respectively. The different weaning-to-estrus intervals did not affect either the percentages of collected zygotes (range: 64.1%-70.0%) or the percentages of sows with zygotes at collection time (range: 69.0%-73.3%). The weaning-to-estrus intervals did not affect the in vitro developmental ability of zygotes. After 24 h of culture, 78.1 +/- 2.0% and 95.1 +/- 0.6 (P amp;lt; 0.05) of injected (N = 2,345) and non, Funding Agencies|Seneca Foundation, Murcia, SpainFundacion Seneca [19892/GERM/15]; UCAM (Murcia, Spain) [27094]

Published

2020

11. N-(2-mercaptopropionyl)-glycine enhances in vitro pig embryo production and reduces oxidative stress

Author

Cambra, J. M., Martinez Serrano, Cristina, Rodriguez-Martinez, Heriberto, Martinez, E. A., Cuello, C., Gil, M. A., Cambra, J. M., Martinez Serrano, Cristina, Rodriguez-Martinez, Heriberto, Martinez, E. A., Cuello, C., and Gil, M. A.

Abstract

This study evaluated the effects of different concentrations (1, 10, 25, 50, and 100 mu M) of the antioxidant N-(2-mercaptopropionyl)-glycine (NMPG), during the culture of in vitro-fertilized porcine oocytes. While the highest concentrations of NMPG (50 and 100 mu M) were toxic to the developing embryos during the first two days of culture, 25 mu M NMPG achieved cleavage rates that were similar to those achieved by the control but did not sustain blastocyst production by Day 7 of culture. Compared to the control culture medium, the culture medium supplemented with 10 mu M NMPG increased (P<0.05) the rates of blastocyst formation, decreased (P<0.05) the intracellular levels of reactive oxygen substances, and downregulated (P<0.05) the expression of the oxidative stress related gene GPX1. In conclusion, these results demonstrated that supplementation of porcine embryo culture medium with 10 M NMPG can attenuate oxidative stress and increase the yield of in vitro production of blastocysts., Funding Agencies|Ministry of Science, Innovation and Universities/the European Regional Development Fund, Madrid, Spain [RTI2018-093525-B-I00]; European UnionEuropean Union (EU) [891663]; Seneca Foundation, Murcia, SpainFundacion Seneca [19892/GERM/15, 20780/PD/18]; Research Council FORMAS, Stockholm, Sweden [2017-00946, 2019-00288]

Published

2020

12. The cytokine platelet factor 4 successfully replaces bovine serum albumin for the in vitro culture of porcine embryos

Author

Cambra, J. M., Martinez-Serrano, Cristina, Maside, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., Gil, M. A., Cuello, C., Cambra, J. M., Martinez-Serrano, Cristina, Maside, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., Gil, M. A., and Cuello, C.

Abstract

The cytokine platelet factor 4 (PF4) enhances differentiation and cell viability of different stem cells lines in vitro. This study investigated whether PF4 addition to customary pig embryo semi-defined culture media can improve their developmental outcome (Experiment 1) and ultimately replace the need for bovine serum albumin (BSA, Experiment 2). Experiment 1 added PF4 (100-1000 ng/mL, 0 = control) to NCSU-23 with 0.4 mg/mL BSA culturing 3430 presumptive zygotes. Experiment 2 added PF4 (100 -1000 ng/mL, 0 = Control-PVA) to a BSA-free medium (NCSU-23 with 0.3 mg/mL PVA) culturing 3820 presumptive zygotes. Zygote culture in NCSU-23 with 0.4 mg/mL BSA was used as overall control. All groups of Experiment 1 displayed similar rates of day 2-cleavage (range: 65.0 +/- 10.9 to 70.0 +/- 5.8%); of day 7-blastocyst rates (range: 46.6 +/- 10.0 to 56.4 +/- 8.2%) and of total day 7-blastocyst efficiency (range: 32.3 +/- 8.3 to 37.2 +/- 7.3%). Addition of PF4 did not affect total cell numbers of day 7 blastocysts (range: 44.1 +/- 23.2 to 50.5 +/- 26.4). In Experiment 2, PF4 accelerated embryo development, increasing (P < 0.01) blastocyst yield compared to 0-PF4, and blastocyst formation by day 5 adding PF4 100-500 ng/mL (range: 29.9 +/- 7.8 to 31.8 +/- 5.5%; P < 0.05) compared with BSA-control (17.2 +/- 8.2%) and PF4 1000 ng/mL (15.5 +/- 7.9%); showing similar blastocyst rates (range: 42.0 +/- 11.5 to 49.3 +/- 10.0%), total efficiency (28.0 +/- 8.2 to 32.3 +/- 7.1%) total cell numbers (range: 42.6 +/- 19.3 to 45.7 +/- 23.9) as BSA-controls. In conclusion, although PF4 did not show additive improvement under usual semi-defined, BSA-supplemented embryo media, it successfully replaced BSA sustaining porcine blastocyst production in chemically defined conditions. (C) 2019 Elsevier Inc. All rights reserved., Funding Agencies|Ministry of Science, Innovation and Universities-ERDF, Madrid, Spain [RTI2018-093525-B-I00]; Seneca Foundation, Murcia, SpainFundacion Seneca [19892/GERM/15]; Research Council FORMAS, Stockholm, Sweden [2017e00946]

Published

2020

13. Three-to-5-day weaning-to-estrus intervals do not affect neither efficiency of collection nor in vitro developmental ability of in vivo-derived pig zygotes

Author

Martinez, C. A., Cambra, J. M., Parrilla, I., Lucas, X., Rodriguez-Martinez, Heriberto, Martinez, E. A., Izpisua, J. C., Cuello, C., Gil, M. A., Martinez, C. A., Cambra, J. M., Parrilla, I., Lucas, X., Rodriguez-Martinez, Heriberto, Martinez, E. A., Izpisua, J. C., Cuello, C., and Gil, M. A.

Abstract

An efficient system to collect large numbers of vital zygotes is a pre-requisite for application of zygote genome-editing technology, including development of efficient models for xenotransplantation using pigs. Owing to the sub-optimal in vitro production of zygotes in pigs, efficient collection of in vivo developed zygotes is required. Timing of ovulation is a key factor to sustain efficiency since the interval between pronuclear formation and the first division is very short in pigs. The weaning-to-estrus interval can, due to its inverse relation with length of estrus and time of ovulation, interfere with ovulation and make it asynchronous, which reduces the probability of obtaining zygotes. This retrospective study compared the effects of three weaning-to-estrus intervals of 3, 4 or 5 days on zygote collection efficiency in a total of 17 trials over a 3-year period including 223 sows. Donor sows in groups of 10-15 animals were super-ovulated with eCG 24 h after weaning and those in estrus at 48-72 h post-eCG were immediately treated with hCG, followed by insemination 6 and 24 h thereafter. Collected structures during laparotomy on Day 2 (Day 0: onset of estrus) were morphologically evaluated and only those with a single cell and two visible polar bodies were considered as zygotes. Zygotes were injected with CRISPRCas9 editor mixture and cultured for 6 days to evaluate their developmental ability against non-injected control zygotes. Of all recovered structures (N = 5,468), 67.4%, 30.8% and 1.8% were zygotes, 2-cell embryos and oocytes-degenerated embryos, respectively. The different weaning-to-estrus intervals did not affect either the percentages of collected zygotes (range: 64.1%-70.0%) or the percentages of sows with zygotes at collection time (range: 69.0%-73.3%). The weaning-to-estrus intervals did not affect the in vitro developmental ability of zygotes. After 24 h of culture, 78.1 +/- 2.0% and 95.1 +/- 0.6 (P amp;lt; 0.05) of injected (N = 2,345) and non, Funding Agencies|Seneca Foundation, Murcia, SpainFundacion Seneca [19892/GERM/15]; UCAM (Murcia, Spain) [27094]

Published

2020

14. N-(2-mercaptopropionyl)-glycine enhances in vitro pig embryo production and reduces oxidative stress

Author

Cambra, J. M., Martinez Serrano, Cristina, Rodriguez-Martinez, Heriberto, Martinez, E. A., Cuello, C., Gil, M. A., Cambra, J. M., Martinez Serrano, Cristina, Rodriguez-Martinez, Heriberto, Martinez, E. A., Cuello, C., and Gil, M. A.

Abstract

This study evaluated the effects of different concentrations (1, 10, 25, 50, and 100 mu M) of the antioxidant N-(2-mercaptopropionyl)-glycine (NMPG), during the culture of in vitro-fertilized porcine oocytes. While the highest concentrations of NMPG (50 and 100 mu M) were toxic to the developing embryos during the first two days of culture, 25 mu M NMPG achieved cleavage rates that were similar to those achieved by the control but did not sustain blastocyst production by Day 7 of culture. Compared to the control culture medium, the culture medium supplemented with 10 mu M NMPG increased (P<0.05) the rates of blastocyst formation, decreased (P<0.05) the intracellular levels of reactive oxygen substances, and downregulated (P<0.05) the expression of the oxidative stress related gene GPX1. In conclusion, these results demonstrated that supplementation of porcine embryo culture medium with 10 M NMPG can attenuate oxidative stress and increase the yield of in vitro production of blastocysts., Funding Agencies|Ministry of Science, Innovation and Universities/the European Regional Development Fund, Madrid, Spain [RTI2018-093525-B-I00]; European UnionEuropean Union (EU) [891663]; Seneca Foundation, Murcia, SpainFundacion Seneca [19892/GERM/15, 20780/PD/18]; Research Council FORMAS, Stockholm, Sweden [2017-00946, 2019-00288]

Published

2020

15. The cytokine platelet factor 4 successfully replaces bovine serum albumin for the in vitro culture of porcine embryos

Author

Cambra, J. M., Martinez-Serrano, Cristina, Maside, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., Gil, M. A., Cuello, C., Cambra, J. M., Martinez-Serrano, Cristina, Maside, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., Gil, M. A., and Cuello, C.

Abstract

The cytokine platelet factor 4 (PF4) enhances differentiation and cell viability of different stem cells lines in vitro. This study investigated whether PF4 addition to customary pig embryo semi-defined culture media can improve their developmental outcome (Experiment 1) and ultimately replace the need for bovine serum albumin (BSA, Experiment 2). Experiment 1 added PF4 (100-1000 ng/mL, 0 = control) to NCSU-23 with 0.4 mg/mL BSA culturing 3430 presumptive zygotes. Experiment 2 added PF4 (100 -1000 ng/mL, 0 = Control-PVA) to a BSA-free medium (NCSU-23 with 0.3 mg/mL PVA) culturing 3820 presumptive zygotes. Zygote culture in NCSU-23 with 0.4 mg/mL BSA was used as overall control. All groups of Experiment 1 displayed similar rates of day 2-cleavage (range: 65.0 +/- 10.9 to 70.0 +/- 5.8%); of day 7-blastocyst rates (range: 46.6 +/- 10.0 to 56.4 +/- 8.2%) and of total day 7-blastocyst efficiency (range: 32.3 +/- 8.3 to 37.2 +/- 7.3%). Addition of PF4 did not affect total cell numbers of day 7 blastocysts (range: 44.1 +/- 23.2 to 50.5 +/- 26.4). In Experiment 2, PF4 accelerated embryo development, increasing (P < 0.01) blastocyst yield compared to 0-PF4, and blastocyst formation by day 5 adding PF4 100-500 ng/mL (range: 29.9 +/- 7.8 to 31.8 +/- 5.5%; P < 0.05) compared with BSA-control (17.2 +/- 8.2%) and PF4 1000 ng/mL (15.5 +/- 7.9%); showing similar blastocyst rates (range: 42.0 +/- 11.5 to 49.3 +/- 10.0%), total efficiency (28.0 +/- 8.2 to 32.3 +/- 7.1%) total cell numbers (range: 42.6 +/- 19.3 to 45.7 +/- 23.9) as BSA-controls. In conclusion, although PF4 did not show additive improvement under usual semi-defined, BSA-supplemented embryo media, it successfully replaced BSA sustaining porcine blastocyst production in chemically defined conditions. (C) 2019 Elsevier Inc. All rights reserved., Funding Agencies|Ministry of Science, Innovation and Universities-ERDF, Madrid, Spain [RTI2018-093525-B-I00]; Seneca Foundation, Murcia, SpainFundacion Seneca [19892/GERM/15]; Research Council FORMAS, Stockholm, Sweden [2017e00946]

Published

2020

16. Three-to-5-day weaning-to-estrus intervals do not affect neither efficiency of collection nor in vitro developmental ability of in vivo-derived pig zygotes

Author

Martinez, C. A., Cambra, J. M., Parrilla, I., Lucas, X., Rodriguez-Martinez, Heriberto, Martinez, E. A., Izpisua, J. C., Cuello, C., Gil, M. A., Martinez, C. A., Cambra, J. M., Parrilla, I., Lucas, X., Rodriguez-Martinez, Heriberto, Martinez, E. A., Izpisua, J. C., Cuello, C., and Gil, M. A.

Abstract

An efficient system to collect large numbers of vital zygotes is a pre-requisite for application of zygote genome-editing technology, including development of efficient models for xenotransplantation using pigs. Owing to the sub-optimal in vitro production of zygotes in pigs, efficient collection of in vivo developed zygotes is required. Timing of ovulation is a key factor to sustain efficiency since the interval between pronuclear formation and the first division is very short in pigs. The weaning-to-estrus interval can, due to its inverse relation with length of estrus and time of ovulation, interfere with ovulation and make it asynchronous, which reduces the probability of obtaining zygotes. This retrospective study compared the effects of three weaning-to-estrus intervals of 3, 4 or 5 days on zygote collection efficiency in a total of 17 trials over a 3-year period including 223 sows. Donor sows in groups of 10-15 animals were super-ovulated with eCG 24 h after weaning and those in estrus at 48-72 h post-eCG were immediately treated with hCG, followed by insemination 6 and 24 h thereafter. Collected structures during laparotomy on Day 2 (Day 0: onset of estrus) were morphologically evaluated and only those with a single cell and two visible polar bodies were considered as zygotes. Zygotes were injected with CRISPRCas9 editor mixture and cultured for 6 days to evaluate their developmental ability against non-injected control zygotes. Of all recovered structures (N = 5,468), 67.4%, 30.8% and 1.8% were zygotes, 2-cell embryos and oocytes-degenerated embryos, respectively. The different weaning-to-estrus intervals did not affect either the percentages of collected zygotes (range: 64.1%-70.0%) or the percentages of sows with zygotes at collection time (range: 69.0%-73.3%). The weaning-to-estrus intervals did not affect the in vitro developmental ability of zygotes. After 24 h of culture, 78.1 +/- 2.0% and 95.1 +/- 0.6 (P amp;lt; 0.05) of injected (N = 2,345) and non, Funding Agencies|Seneca Foundation, Murcia, SpainFundacion Seneca [19892/GERM/15]; UCAM (Murcia, Spain) [27094]

Published

2020

17. Porcine blastocyst viability and developmental potential is maintained for 48 h of liquid storage at 25 degrees C without CO2 gassing

Author

Martinez, C. A., Cambra, J. M., Nohalez, A., Parrilla, I., Sanchez-Osorio, J., Roca, J., Rodriguez-Martinez, Heriberto, Gil, M. A., Martinez, E. A., Cuello, C., Martinez, C. A., Cambra, J. M., Nohalez, A., Parrilla, I., Sanchez-Osorio, J., Roca, J., Rodriguez-Martinez, Heriberto, Gil, M. A., Martinez, E. A., and Cuello, C.

Abstract

Short- and medium-term storage of pig embryos has become relevant for commercial application of nonsurgical deep uterine embryo transfer (NsDU-ET) in the light of the strict legal and administrative requirements posed by the International Association for Air Transport (IATA) to allow shipment of liquid nitrogen (LN2) containers and the technical drawbacks when using vitrified embryos. Therefore, this study developed an efficient method for the liquid storage of in vivo-derived porcine blastocysts for a moderate duration (48 h) without controlled CO2 gassing. We evaluated two storage temperatures (25 degrees C and 37 degrees C) and three HEPES-supplemented media: the chemically defined media TL-PVA and NCSU-PVA and the semi-defined medium NCSU-BSA. We observed no differences in survival, hatching rate or final developmental stage between the two temperatures, but storage at 25 degrees C was more efficient to preserve zona pellucida (ZP) integrity. Blastocysts were successfully stored for 24 h in a chemically defined medium. Yet, only 48 h storage in NCSU-BSA medium supported blastocyst development. Although all storage conditions resulted in an embryonic developmental delay, blastocysts stored in NCSU-BSA at either tested temperature could hatch and attain the same final developmental stage as control blastocysts when cultured under standard conditions after storage. Moreover, blastocysts stored at 25 degrees C for 48 h in NCSU-BSA medium could produce pregnancies after surgical transfer. In conclusion, porcine blastocysts maintain their viability and developmental potential after storage in the semi-defined medium NCSU-BSA for at least 48 hat 25 degrees C. (C) 2019 Elsevier Inc. All rights reserved., Funding Agencies|Ministry of Economy and Competitiveness/the European Regional Development Fund [RTC-2016-5448-2, AGL2015-69735-R]; Seneca Foundation, Murcia, Spain [19892/GERM/15]; Research Council FORMAS, Stockholm, Sweden [2017-00946]

Published

2019

18. Porcine blastocyst viability and developmental potential is maintained for 48 h of liquid storage at 25 degrees C without CO2 gassing

Author

Martinez, C. A., Cambra, J. M., Nohalez, A., Parrilla, I., Sanchez-Osorio, J., Roca, J., Rodriguez-Martinez, Heriberto, Gil, M. A., Martinez, E. A., Cuello, C., Martinez, C. A., Cambra, J. M., Nohalez, A., Parrilla, I., Sanchez-Osorio, J., Roca, J., Rodriguez-Martinez, Heriberto, Gil, M. A., Martinez, E. A., and Cuello, C.

Abstract

Short- and medium-term storage of pig embryos has become relevant for commercial application of nonsurgical deep uterine embryo transfer (NsDU-ET) in the light of the strict legal and administrative requirements posed by the International Association for Air Transport (IATA) to allow shipment of liquid nitrogen (LN2) containers and the technical drawbacks when using vitrified embryos. Therefore, this study developed an efficient method for the liquid storage of in vivo-derived porcine blastocysts for a moderate duration (48 h) without controlled CO2 gassing. We evaluated two storage temperatures (25 degrees C and 37 degrees C) and three HEPES-supplemented media: the chemically defined media TL-PVA and NCSU-PVA and the semi-defined medium NCSU-BSA. We observed no differences in survival, hatching rate or final developmental stage between the two temperatures, but storage at 25 degrees C was more efficient to preserve zona pellucida (ZP) integrity. Blastocysts were successfully stored for 24 h in a chemically defined medium. Yet, only 48 h storage in NCSU-BSA medium supported blastocyst development. Although all storage conditions resulted in an embryonic developmental delay, blastocysts stored in NCSU-BSA at either tested temperature could hatch and attain the same final developmental stage as control blastocysts when cultured under standard conditions after storage. Moreover, blastocysts stored at 25 degrees C for 48 h in NCSU-BSA medium could produce pregnancies after surgical transfer. In conclusion, porcine blastocysts maintain their viability and developmental potential after storage in the semi-defined medium NCSU-BSA for at least 48 hat 25 degrees C. (C) 2019 Elsevier Inc. All rights reserved., Funding Agencies|Ministry of Economy and Competitiveness/the European Regional Development Fund [RTC-2016-5448-2, AGL2015-69735-R]; Seneca Foundation, Murcia, Spain [19892/GERM/15]; Research Council FORMAS, Stockholm, Sweden [2017-00946]

Published

2019

19. Porcine blastocyst viability and developmental potential is maintained for 48 h of liquid storage at 25 degrees C without CO2 gassing

Author

Martinez, C. A., Cambra, J. M., Nohalez, A., Parrilla, I., Sanchez-Osorio, J., Roca, J., Rodriguez-Martinez, Heriberto, Gil, M. A., Martinez, E. A., Cuello, C., Martinez, C. A., Cambra, J. M., Nohalez, A., Parrilla, I., Sanchez-Osorio, J., Roca, J., Rodriguez-Martinez, Heriberto, Gil, M. A., Martinez, E. A., and Cuello, C.

Abstract

Short- and medium-term storage of pig embryos has become relevant for commercial application of nonsurgical deep uterine embryo transfer (NsDU-ET) in the light of the strict legal and administrative requirements posed by the International Association for Air Transport (IATA) to allow shipment of liquid nitrogen (LN2) containers and the technical drawbacks when using vitrified embryos. Therefore, this study developed an efficient method for the liquid storage of in vivo-derived porcine blastocysts for a moderate duration (48 h) without controlled CO2 gassing. We evaluated two storage temperatures (25 degrees C and 37 degrees C) and three HEPES-supplemented media: the chemically defined media TL-PVA and NCSU-PVA and the semi-defined medium NCSU-BSA. We observed no differences in survival, hatching rate or final developmental stage between the two temperatures, but storage at 25 degrees C was more efficient to preserve zona pellucida (ZP) integrity. Blastocysts were successfully stored for 24 h in a chemically defined medium. Yet, only 48 h storage in NCSU-BSA medium supported blastocyst development. Although all storage conditions resulted in an embryonic developmental delay, blastocysts stored in NCSU-BSA at either tested temperature could hatch and attain the same final developmental stage as control blastocysts when cultured under standard conditions after storage. Moreover, blastocysts stored at 25 degrees C for 48 h in NCSU-BSA medium could produce pregnancies after surgical transfer. In conclusion, porcine blastocysts maintain their viability and developmental potential after storage in the semi-defined medium NCSU-BSA for at least 48 hat 25 degrees C. (C) 2019 Elsevier Inc. All rights reserved., Funding Agencies|Ministry of Economy and Competitiveness/the European Regional Development Fund [RTC-2016-5448-2, AGL2015-69735-R]; Seneca Foundation, Murcia, Spain [19892/GERM/15]; Research Council FORMAS, Stockholm, Sweden [2017-00946]

Published

2019

20. Porcine blastocyst viability and developmental potential is maintained for 48 h of liquid storage at 25 degrees C without CO2 gassing

Author

Martinez, C. A., Cambra, J. M., Nohalez, A., Parrilla, I., Sanchez-Osorio, J., Roca, J., Rodriguez-Martinez, Heriberto, Gil, M. A., Martinez, E. A., Cuello, C., Martinez, C. A., Cambra, J. M., Nohalez, A., Parrilla, I., Sanchez-Osorio, J., Roca, J., Rodriguez-Martinez, Heriberto, Gil, M. A., Martinez, E. A., and Cuello, C.

Abstract

Short- and medium-term storage of pig embryos has become relevant for commercial application of nonsurgical deep uterine embryo transfer (NsDU-ET) in the light of the strict legal and administrative requirements posed by the International Association for Air Transport (IATA) to allow shipment of liquid nitrogen (LN2) containers and the technical drawbacks when using vitrified embryos. Therefore, this study developed an efficient method for the liquid storage of in vivo-derived porcine blastocysts for a moderate duration (48 h) without controlled CO2 gassing. We evaluated two storage temperatures (25 degrees C and 37 degrees C) and three HEPES-supplemented media: the chemically defined media TL-PVA and NCSU-PVA and the semi-defined medium NCSU-BSA. We observed no differences in survival, hatching rate or final developmental stage between the two temperatures, but storage at 25 degrees C was more efficient to preserve zona pellucida (ZP) integrity. Blastocysts were successfully stored for 24 h in a chemically defined medium. Yet, only 48 h storage in NCSU-BSA medium supported blastocyst development. Although all storage conditions resulted in an embryonic developmental delay, blastocysts stored in NCSU-BSA at either tested temperature could hatch and attain the same final developmental stage as control blastocysts when cultured under standard conditions after storage. Moreover, blastocysts stored at 25 degrees C for 48 h in NCSU-BSA medium could produce pregnancies after surgical transfer. In conclusion, porcine blastocysts maintain their viability and developmental potential after storage in the semi-defined medium NCSU-BSA for at least 48 hat 25 degrees C. (C) 2019 Elsevier Inc. All rights reserved., Funding Agencies|Ministry of Economy and Competitiveness/the European Regional Development Fund [RTC-2016-5448-2, AGL2015-69735-R]; Seneca Foundation, Murcia, Spain [19892/GERM/15]; Research Council FORMAS, Stockholm, Sweden [2017-00946]

Published

2019

21. Porcine blastocyst viability and developmental potential is maintained for 48 h of liquid storage at 25 degrees C without CO2 gassing

Author

Martinez, C. A., Cambra, J. M., Nohalez, A., Parrilla, I., Sanchez-Osorio, J., Roca, J., Rodriguez-Martinez, Heriberto, Gil, M. A., Martinez, E. A., Cuello, C., Martinez, C. A., Cambra, J. M., Nohalez, A., Parrilla, I., Sanchez-Osorio, J., Roca, J., Rodriguez-Martinez, Heriberto, Gil, M. A., Martinez, E. A., and Cuello, C.

Abstract

Short- and medium-term storage of pig embryos has become relevant for commercial application of nonsurgical deep uterine embryo transfer (NsDU-ET) in the light of the strict legal and administrative requirements posed by the International Association for Air Transport (IATA) to allow shipment of liquid nitrogen (LN2) containers and the technical drawbacks when using vitrified embryos. Therefore, this study developed an efficient method for the liquid storage of in vivo-derived porcine blastocysts for a moderate duration (48 h) without controlled CO2 gassing. We evaluated two storage temperatures (25 degrees C and 37 degrees C) and three HEPES-supplemented media: the chemically defined media TL-PVA and NCSU-PVA and the semi-defined medium NCSU-BSA. We observed no differences in survival, hatching rate or final developmental stage between the two temperatures, but storage at 25 degrees C was more efficient to preserve zona pellucida (ZP) integrity. Blastocysts were successfully stored for 24 h in a chemically defined medium. Yet, only 48 h storage in NCSU-BSA medium supported blastocyst development. Although all storage conditions resulted in an embryonic developmental delay, blastocysts stored in NCSU-BSA at either tested temperature could hatch and attain the same final developmental stage as control blastocysts when cultured under standard conditions after storage. Moreover, blastocysts stored at 25 degrees C for 48 h in NCSU-BSA medium could produce pregnancies after surgical transfer. In conclusion, porcine blastocysts maintain their viability and developmental potential after storage in the semi-defined medium NCSU-BSA for at least 48 hat 25 degrees C. (C) 2019 Elsevier Inc. All rights reserved., Funding Agencies|Ministry of Economy and Competitiveness/the European Regional Development Fund [RTC-2016-5448-2, AGL2015-69735-R]; Seneca Foundation, Murcia, Spain [19892/GERM/15]; Research Council FORMAS, Stockholm, Sweden [2017-00946]

Published

2019

22. Porcine blastocyst viability and developmental potential is maintained for 48 h of liquid storage at 25 degrees C without CO2 gassing

Author

Martinez, C. A., Cambra, J. M., Nohalez, A., Parrilla, I., Sanchez-Osorio, J., Roca, J., Rodriguez-Martinez, Heriberto, Gil, M. A., Martinez, E. A., Cuello, C., Martinez, C. A., Cambra, J. M., Nohalez, A., Parrilla, I., Sanchez-Osorio, J., Roca, J., Rodriguez-Martinez, Heriberto, Gil, M. A., Martinez, E. A., and Cuello, C.

Abstract

Short- and medium-term storage of pig embryos has become relevant for commercial application of nonsurgical deep uterine embryo transfer (NsDU-ET) in the light of the strict legal and administrative requirements posed by the International Association for Air Transport (IATA) to allow shipment of liquid nitrogen (LN2) containers and the technical drawbacks when using vitrified embryos. Therefore, this study developed an efficient method for the liquid storage of in vivo-derived porcine blastocysts for a moderate duration (48 h) without controlled CO2 gassing. We evaluated two storage temperatures (25 degrees C and 37 degrees C) and three HEPES-supplemented media: the chemically defined media TL-PVA and NCSU-PVA and the semi-defined medium NCSU-BSA. We observed no differences in survival, hatching rate or final developmental stage between the two temperatures, but storage at 25 degrees C was more efficient to preserve zona pellucida (ZP) integrity. Blastocysts were successfully stored for 24 h in a chemically defined medium. Yet, only 48 h storage in NCSU-BSA medium supported blastocyst development. Although all storage conditions resulted in an embryonic developmental delay, blastocysts stored in NCSU-BSA at either tested temperature could hatch and attain the same final developmental stage as control blastocysts when cultured under standard conditions after storage. Moreover, blastocysts stored at 25 degrees C for 48 h in NCSU-BSA medium could produce pregnancies after surgical transfer. In conclusion, porcine blastocysts maintain their viability and developmental potential after storage in the semi-defined medium NCSU-BSA for at least 48 hat 25 degrees C. (C) 2019 Elsevier Inc. All rights reserved., Funding Agencies|Ministry of Economy and Competitiveness/the European Regional Development Fund [RTC-2016-5448-2, AGL2015-69735-R]; Seneca Foundation, Murcia, Spain [19892/GERM/15]; Research Council FORMAS, Stockholm, Sweden [2017-00946]

Published

2019

23. Porcine blastocyst viability and developmental potential is maintained for 48 h of liquid storage at 25 degrees C without CO2 gassing

Author

Martinez, C. A., Cambra, J. M., Nohalez, A., Parrilla, I., Sanchez-Osorio, J., Roca, J., Rodriguez-Martinez, Heriberto, Gil, M. A., Martinez, E. A., Cuello, C., Martinez, C. A., Cambra, J. M., Nohalez, A., Parrilla, I., Sanchez-Osorio, J., Roca, J., Rodriguez-Martinez, Heriberto, Gil, M. A., Martinez, E. A., and Cuello, C.

Abstract

Short- and medium-term storage of pig embryos has become relevant for commercial application of nonsurgical deep uterine embryo transfer (NsDU-ET) in the light of the strict legal and administrative requirements posed by the International Association for Air Transport (IATA) to allow shipment of liquid nitrogen (LN2) containers and the technical drawbacks when using vitrified embryos. Therefore, this study developed an efficient method for the liquid storage of in vivo-derived porcine blastocysts for a moderate duration (48 h) without controlled CO2 gassing. We evaluated two storage temperatures (25 degrees C and 37 degrees C) and three HEPES-supplemented media: the chemically defined media TL-PVA and NCSU-PVA and the semi-defined medium NCSU-BSA. We observed no differences in survival, hatching rate or final developmental stage between the two temperatures, but storage at 25 degrees C was more efficient to preserve zona pellucida (ZP) integrity. Blastocysts were successfully stored for 24 h in a chemically defined medium. Yet, only 48 h storage in NCSU-BSA medium supported blastocyst development. Although all storage conditions resulted in an embryonic developmental delay, blastocysts stored in NCSU-BSA at either tested temperature could hatch and attain the same final developmental stage as control blastocysts when cultured under standard conditions after storage. Moreover, blastocysts stored at 25 degrees C for 48 h in NCSU-BSA medium could produce pregnancies after surgical transfer. In conclusion, porcine blastocysts maintain their viability and developmental potential after storage in the semi-defined medium NCSU-BSA for at least 48 hat 25 degrees C. (C) 2019 Elsevier Inc. All rights reserved., Funding Agencies|Ministry of Economy and Competitiveness/the European Regional Development Fund [RTC-2016-5448-2, AGL2015-69735-R]; Seneca Foundation, Murcia, Spain [19892/GERM/15]; Research Council FORMAS, Stockholm, Sweden [2017-00946]

Published

2019

24. Exogenous ascorbic acid enhances vitrification survival of porcine in vitro-developed blastocysts but fails to improve the in vitro embryo production outcomes

Author

Nohalez, A., Martinez, C. A., Parrilla, I., Roca, J., Gil, M. A., Rodriguez-Martinez, Heriberto, Martinez, E. A., Cuello, C., Nohalez, A., Martinez, C. A., Parrilla, I., Roca, J., Gil, M. A., Rodriguez-Martinez, Heriberto, Martinez, E. A., and Cuello, C.

Abstract

In this study, the effects of addition of the antioxidant ascorbic acid (AsA) were evaluated during porcine in vitro embryo production (IVP) and vitrification. In experiment 1, the effects of AsA supplementation during IVM, IVF and IVC were evaluated, using a total of 2744 oocytes in six replicates. The IVM, IVF and embryo IVC media were supplemented or not (control) with 50 mu g/mL AsA in all possible combinations. No significant effects of AsA were detected in any of the maturation, fertilization or embryo development parameters assessed. In experiment 2, we evaluated the effects of adding AsA to vitrification-warming media on the post-warming survival and quality of blastocysts. Day-6 in vitro-produced blastocysts (N = 588) from six replicates were randomly divided in two groups, with vitrification and warming media either supplemented with 50 mu g/mL AsA (VW + group) or un-supplemented (VW- control). Addition of AsA increased (P amp;lt; 0.05) blastocyst survival rate after vitrification compared with that of VW control embryos. Vitrification and warming increased (P amp;lt; 0.05) the production of oxygen species (ROS) and reduced (P amp;lt; 0.05) the glutathione levels in blastocysts. Although VW + blastocysts displayed higher (P amp;lt; 0.05) ROS levels than those of fresh control blastocysts, the levels were lower (P amp;lt; 0.05) than those found in VW- control blastocysts. In conclusion, under the experimental conditions, supplementation of IVM/IVF/IVC media with AsA did not improve the embryo production in vitro. By contrast, the addition of AsA to chemically defined vitrification and warming media increased the survival of in vitro-produced porcine blastocysts by decreasing ROS production. (C) 2018 Elsevier Inc. All rights reserved., Funding Agencies|Ministry of Economy and Competitiveness (Madrid, Spain)/the European Regional Development Fund [AGL2015-69735-R]; Seneca Foundation, Murcia, Spain [19892/GERM/15]; Research Council FORMAS [221-2011-512, 2017-00946]; Swedish Research council VR, Stockholm, Sweden [521-2011-6553, 2015-05919]; FORSS (Forskningsradet i Sydostra Sverige), Linkoping, Sweden [473121, 745971]

Published

2018

25. Simple storage (CO2-free) of porcine morulae for up to three days maintains the in vitro viability and developmental competence

Author

Martinez, C. A., Nohalez, A., Parrilla, I., Lucas, X., Sanchez-Osorio, J., Roca, J., Cuello, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., Gil, M. A., Martinez, C. A., Nohalez, A., Parrilla, I., Lucas, X., Sanchez-Osorio, J., Roca, J., Cuello, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., and Gil, M. A.

Abstract

The advancement of porcine embryo transfer (ET) technology is constrained by regulatory hurdles (liquid nitrogen transportation) or, more importantly, the technical obstacles of using vitrified embryos in combination with nonsurgical deep uterine ET technology. Maintaining embryos in culture during transport and prior ET collides with the need of CO2 gassing and the best choice of culture medium. In this work, we describe storage conditions for short-term embryo CO2-free storage that allowed for a majority of in vivo-derived porcine morulae to survive after 3 days of storage in a liquid state, and to develop to the blastocyst stage unhatched, a sanitary prerequisite for ET. The storage conditions included NCSU-23 medium supplemented with bovine serum albumin, where bicarbonate was partially replaced by HEPES to avoid the need for CO2 gassing, and a temperature of 37 degrees C. These conditions were able to maintain the functionality of the stored embryos (hatching capacity after exposure to conventional culture conditions) and their developmental competence after ET (normal fetuses by day 38 of pregnancy). Use of this strategy of CO2-free storage should allow the shipment of fresh embryos worldwide in the absence of liquid nitrogen. (C) 2017 Elsevier Inc. All rights reserved., Funding Agencies|Ministry of Economy and Competitiveness (Madrid, Spain)/the European Regional Development Fund [RTC-2016-5448-2, AGL2015-69735-R]; Seneca Foundation, Murcia, Spain [19892/GERM/15]; Swedish Research Council Formas, Stockholm, Sweden [2017-00946]

Published

2018

26. Exogenous ascorbic acid enhances vitrification survival of porcine in vitro-developed blastocysts but fails to improve the in vitro embryo production outcomes

Author

Nohalez, A., Martinez, C. A., Parrilla, I., Roca, J., Gil, M. A., Rodriguez-Martinez, Heriberto, Martinez, E. A., Cuello, C., Nohalez, A., Martinez, C. A., Parrilla, I., Roca, J., Gil, M. A., Rodriguez-Martinez, Heriberto, Martinez, E. A., and Cuello, C.

Abstract

In this study, the effects of addition of the antioxidant ascorbic acid (AsA) were evaluated during porcine in vitro embryo production (IVP) and vitrification. In experiment 1, the effects of AsA supplementation during IVM, IVF and IVC were evaluated, using a total of 2744 oocytes in six replicates. The IVM, IVF and embryo IVC media were supplemented or not (control) with 50 mu g/mL AsA in all possible combinations. No significant effects of AsA were detected in any of the maturation, fertilization or embryo development parameters assessed. In experiment 2, we evaluated the effects of adding AsA to vitrification-warming media on the post-warming survival and quality of blastocysts. Day-6 in vitro-produced blastocysts (N = 588) from six replicates were randomly divided in two groups, with vitrification and warming media either supplemented with 50 mu g/mL AsA (VW + group) or un-supplemented (VW- control). Addition of AsA increased (P amp;lt; 0.05) blastocyst survival rate after vitrification compared with that of VW control embryos. Vitrification and warming increased (P amp;lt; 0.05) the production of oxygen species (ROS) and reduced (P amp;lt; 0.05) the glutathione levels in blastocysts. Although VW + blastocysts displayed higher (P amp;lt; 0.05) ROS levels than those of fresh control blastocysts, the levels were lower (P amp;lt; 0.05) than those found in VW- control blastocysts. In conclusion, under the experimental conditions, supplementation of IVM/IVF/IVC media with AsA did not improve the embryo production in vitro. By contrast, the addition of AsA to chemically defined vitrification and warming media increased the survival of in vitro-produced porcine blastocysts by decreasing ROS production. (C) 2018 Elsevier Inc. All rights reserved., Funding Agencies|Ministry of Economy and Competitiveness (Madrid, Spain)/the European Regional Development Fund [AGL2015-69735-R]; Seneca Foundation, Murcia, Spain [19892/GERM/15]; Research Council FORMAS [221-2011-512, 2017-00946]; Swedish Research council VR, Stockholm, Sweden [521-2011-6553, 2015-05919]; FORSS (Forskningsradet i Sydostra Sverige), Linkoping, Sweden [473121, 745971]

Published

2018

27. Simple storage (CO2-free) of porcine morulae for up to three days maintains the in vitro viability and developmental competence

Author

Martinez, C. A., Nohalez, A., Parrilla, I., Lucas, X., Sanchez-Osorio, J., Roca, J., Cuello, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., Gil, M. A., Martinez, C. A., Nohalez, A., Parrilla, I., Lucas, X., Sanchez-Osorio, J., Roca, J., Cuello, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., and Gil, M. A.

Abstract

The advancement of porcine embryo transfer (ET) technology is constrained by regulatory hurdles (liquid nitrogen transportation) or, more importantly, the technical obstacles of using vitrified embryos in combination with nonsurgical deep uterine ET technology. Maintaining embryos in culture during transport and prior ET collides with the need of CO2 gassing and the best choice of culture medium. In this work, we describe storage conditions for short-term embryo CO2-free storage that allowed for a majority of in vivo-derived porcine morulae to survive after 3 days of storage in a liquid state, and to develop to the blastocyst stage unhatched, a sanitary prerequisite for ET. The storage conditions included NCSU-23 medium supplemented with bovine serum albumin, where bicarbonate was partially replaced by HEPES to avoid the need for CO2 gassing, and a temperature of 37 degrees C. These conditions were able to maintain the functionality of the stored embryos (hatching capacity after exposure to conventional culture conditions) and their developmental competence after ET (normal fetuses by day 38 of pregnancy). Use of this strategy of CO2-free storage should allow the shipment of fresh embryos worldwide in the absence of liquid nitrogen. (C) 2017 Elsevier Inc. All rights reserved., Funding Agencies|Ministry of Economy and Competitiveness (Madrid, Spain)/the European Regional Development Fund [RTC-2016-5448-2, AGL2015-69735-R]; Seneca Foundation, Murcia, Spain [19892/GERM/15]; Swedish Research Council Formas, Stockholm, Sweden [2017-00946]

Published

2018

28. Simple storage (CO2-free) of porcine morulae for up to three days maintains the in vitro viability and developmental competence

Author

Martinez, C. A., Nohalez, A., Parrilla, I., Lucas, X., Sanchez-Osorio, J., Roca, J., Cuello, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., Gil, M. A., Martinez, C. A., Nohalez, A., Parrilla, I., Lucas, X., Sanchez-Osorio, J., Roca, J., Cuello, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., and Gil, M. A.

Abstract

The advancement of porcine embryo transfer (ET) technology is constrained by regulatory hurdles (liquid nitrogen transportation) or, more importantly, the technical obstacles of using vitrified embryos in combination with nonsurgical deep uterine ET technology. Maintaining embryos in culture during transport and prior ET collides with the need of CO2 gassing and the best choice of culture medium. In this work, we describe storage conditions for short-term embryo CO2-free storage that allowed for a majority of in vivo-derived porcine morulae to survive after 3 days of storage in a liquid state, and to develop to the blastocyst stage unhatched, a sanitary prerequisite for ET. The storage conditions included NCSU-23 medium supplemented with bovine serum albumin, where bicarbonate was partially replaced by HEPES to avoid the need for CO2 gassing, and a temperature of 37 degrees C. These conditions were able to maintain the functionality of the stored embryos (hatching capacity after exposure to conventional culture conditions) and their developmental competence after ET (normal fetuses by day 38 of pregnancy). Use of this strategy of CO2-free storage should allow the shipment of fresh embryos worldwide in the absence of liquid nitrogen. (C) 2017 Elsevier Inc. All rights reserved., Funding Agencies|Ministry of Economy and Competitiveness (Madrid, Spain)/the European Regional Development Fund [RTC-2016-5448-2, AGL2015-69735-R]; Seneca Foundation, Murcia, Spain [19892/GERM/15]; Swedish Research Council Formas, Stockholm, Sweden [2017-00946]

Published

2018

29. Exogenous ascorbic acid enhances vitrification survival of porcine in vitro-developed blastocysts but fails to improve the in vitro embryo production outcomes

Author

Nohalez, A., Martinez, C. A., Parrilla, I., Roca, J., Gil, M. A., Rodriguez-Martinez, Heriberto, Martinez, E. A., Cuello, C., Nohalez, A., Martinez, C. A., Parrilla, I., Roca, J., Gil, M. A., Rodriguez-Martinez, Heriberto, Martinez, E. A., and Cuello, C.

Abstract

In this study, the effects of addition of the antioxidant ascorbic acid (AsA) were evaluated during porcine in vitro embryo production (IVP) and vitrification. In experiment 1, the effects of AsA supplementation during IVM, IVF and IVC were evaluated, using a total of 2744 oocytes in six replicates. The IVM, IVF and embryo IVC media were supplemented or not (control) with 50 mu g/mL AsA in all possible combinations. No significant effects of AsA were detected in any of the maturation, fertilization or embryo development parameters assessed. In experiment 2, we evaluated the effects of adding AsA to vitrification-warming media on the post-warming survival and quality of blastocysts. Day-6 in vitro-produced blastocysts (N = 588) from six replicates were randomly divided in two groups, with vitrification and warming media either supplemented with 50 mu g/mL AsA (VW + group) or un-supplemented (VW- control). Addition of AsA increased (P amp;lt; 0.05) blastocyst survival rate after vitrification compared with that of VW control embryos. Vitrification and warming increased (P amp;lt; 0.05) the production of oxygen species (ROS) and reduced (P amp;lt; 0.05) the glutathione levels in blastocysts. Although VW + blastocysts displayed higher (P amp;lt; 0.05) ROS levels than those of fresh control blastocysts, the levels were lower (P amp;lt; 0.05) than those found in VW- control blastocysts. In conclusion, under the experimental conditions, supplementation of IVM/IVF/IVC media with AsA did not improve the embryo production in vitro. By contrast, the addition of AsA to chemically defined vitrification and warming media increased the survival of in vitro-produced porcine blastocysts by decreasing ROS production. (C) 2018 Elsevier Inc. All rights reserved., Funding Agencies|Ministry of Economy and Competitiveness (Madrid, Spain)/the European Regional Development Fund [AGL2015-69735-R]; Seneca Foundation, Murcia, Spain [19892/GERM/15]; Research Council FORMAS [221-2011-512, 2017-00946]; Swedish Research council VR, Stockholm, Sweden [521-2011-6553, 2015-05919]; FORSS (Forskningsradet i Sydostra Sverige), Linkoping, Sweden [473121, 745971]

Published

2018

30. Exogenous ascorbic acid enhances vitrification survival of porcine in vitro-developed blastocysts but fails to improve the in vitro embryo production outcomes

Author

Nohalez, A., Martinez, C. A., Parrilla, I., Roca, J., Gil, M. A., Rodriguez-Martinez, Heriberto, Martinez, E. A., Cuello, C., Nohalez, A., Martinez, C. A., Parrilla, I., Roca, J., Gil, M. A., Rodriguez-Martinez, Heriberto, Martinez, E. A., and Cuello, C.

Abstract

In this study, the effects of addition of the antioxidant ascorbic acid (AsA) were evaluated during porcine in vitro embryo production (IVP) and vitrification. In experiment 1, the effects of AsA supplementation during IVM, IVF and IVC were evaluated, using a total of 2744 oocytes in six replicates. The IVM, IVF and embryo IVC media were supplemented or not (control) with 50 mu g/mL AsA in all possible combinations. No significant effects of AsA were detected in any of the maturation, fertilization or embryo development parameters assessed. In experiment 2, we evaluated the effects of adding AsA to vitrification-warming media on the post-warming survival and quality of blastocysts. Day-6 in vitro-produced blastocysts (N = 588) from six replicates were randomly divided in two groups, with vitrification and warming media either supplemented with 50 mu g/mL AsA (VW + group) or un-supplemented (VW- control). Addition of AsA increased (P amp;lt; 0.05) blastocyst survival rate after vitrification compared with that of VW control embryos. Vitrification and warming increased (P amp;lt; 0.05) the production of oxygen species (ROS) and reduced (P amp;lt; 0.05) the glutathione levels in blastocysts. Although VW + blastocysts displayed higher (P amp;lt; 0.05) ROS levels than those of fresh control blastocysts, the levels were lower (P amp;lt; 0.05) than those found in VW- control blastocysts. In conclusion, under the experimental conditions, supplementation of IVM/IVF/IVC media with AsA did not improve the embryo production in vitro. By contrast, the addition of AsA to chemically defined vitrification and warming media increased the survival of in vitro-produced porcine blastocysts by decreasing ROS production. (C) 2018 Elsevier Inc. All rights reserved., Funding Agencies|Ministry of Economy and Competitiveness (Madrid, Spain)/the European Regional Development Fund [AGL2015-69735-R]; Seneca Foundation, Murcia, Spain [19892/GERM/15]; Research Council FORMAS [221-2011-512, 2017-00946]; Swedish Research council VR, Stockholm, Sweden [521-2011-6553, 2015-05919]; FORSS (Forskningsradet i Sydostra Sverige), Linkoping, Sweden [473121, 745971]

Published

2018

31. Simple storage (CO2-free) of porcine morulae for up to three days maintains the in vitro viability and developmental competence

Author

Martinez, C. A., Nohalez, A., Parrilla, I., Lucas, X., Sanchez-Osorio, J., Roca, J., Cuello, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., Gil, M. A., Martinez, C. A., Nohalez, A., Parrilla, I., Lucas, X., Sanchez-Osorio, J., Roca, J., Cuello, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., and Gil, M. A.

Abstract

The advancement of porcine embryo transfer (ET) technology is constrained by regulatory hurdles (liquid nitrogen transportation) or, more importantly, the technical obstacles of using vitrified embryos in combination with nonsurgical deep uterine ET technology. Maintaining embryos in culture during transport and prior ET collides with the need of CO2 gassing and the best choice of culture medium. In this work, we describe storage conditions for short-term embryo CO2-free storage that allowed for a majority of in vivo-derived porcine morulae to survive after 3 days of storage in a liquid state, and to develop to the blastocyst stage unhatched, a sanitary prerequisite for ET. The storage conditions included NCSU-23 medium supplemented with bovine serum albumin, where bicarbonate was partially replaced by HEPES to avoid the need for CO2 gassing, and a temperature of 37 degrees C. These conditions were able to maintain the functionality of the stored embryos (hatching capacity after exposure to conventional culture conditions) and their developmental competence after ET (normal fetuses by day 38 of pregnancy). Use of this strategy of CO2-free storage should allow the shipment of fresh embryos worldwide in the absence of liquid nitrogen. (C) 2017 Elsevier Inc. All rights reserved., Funding Agencies|Ministry of Economy and Competitiveness (Madrid, Spain)/the European Regional Development Fund [RTC-2016-5448-2, AGL2015-69735-R]; Seneca Foundation, Murcia, Spain [19892/GERM/15]; Swedish Research Council Formas, Stockholm, Sweden [2017-00946]

Published

2018

32. Exogenous ascorbic acid enhances vitrification survival of porcine in vitro-developed blastocysts but fails to improve the in vitro embryo production outcomes

Author

Nohalez, A., Martinez, C. A., Parrilla, I., Roca, J., Gil, M. A., Rodriguez-Martinez, Heriberto, Martinez, E. A., Cuello, C., Nohalez, A., Martinez, C. A., Parrilla, I., Roca, J., Gil, M. A., Rodriguez-Martinez, Heriberto, Martinez, E. A., and Cuello, C.

Abstract

In this study, the effects of addition of the antioxidant ascorbic acid (AsA) were evaluated during porcine in vitro embryo production (IVP) and vitrification. In experiment 1, the effects of AsA supplementation during IVM, IVF and IVC were evaluated, using a total of 2744 oocytes in six replicates. The IVM, IVF and embryo IVC media were supplemented or not (control) with 50 mu g/mL AsA in all possible combinations. No significant effects of AsA were detected in any of the maturation, fertilization or embryo development parameters assessed. In experiment 2, we evaluated the effects of adding AsA to vitrification-warming media on the post-warming survival and quality of blastocysts. Day-6 in vitro-produced blastocysts (N = 588) from six replicates were randomly divided in two groups, with vitrification and warming media either supplemented with 50 mu g/mL AsA (VW + group) or un-supplemented (VW- control). Addition of AsA increased (P amp;lt; 0.05) blastocyst survival rate after vitrification compared with that of VW control embryos. Vitrification and warming increased (P amp;lt; 0.05) the production of oxygen species (ROS) and reduced (P amp;lt; 0.05) the glutathione levels in blastocysts. Although VW + blastocysts displayed higher (P amp;lt; 0.05) ROS levels than those of fresh control blastocysts, the levels were lower (P amp;lt; 0.05) than those found in VW- control blastocysts. In conclusion, under the experimental conditions, supplementation of IVM/IVF/IVC media with AsA did not improve the embryo production in vitro. By contrast, the addition of AsA to chemically defined vitrification and warming media increased the survival of in vitro-produced porcine blastocysts by decreasing ROS production. (C) 2018 Elsevier Inc. All rights reserved., Funding Agencies|Ministry of Economy and Competitiveness (Madrid, Spain)/the European Regional Development Fund [AGL2015-69735-R]; Seneca Foundation, Murcia, Spain [19892/GERM/15]; Research Council FORMAS [221-2011-512, 2017-00946]; Swedish Research council VR, Stockholm, Sweden [521-2011-6553, 2015-05919]; FORSS (Forskningsradet i Sydostra Sverige), Linkoping, Sweden [473121, 745971]

Published

2018

33. Simple storage (CO2-free) of porcine morulae for up to three days maintains the in vitro viability and developmental competence

Author

Martinez, C. A., Nohalez, A., Parrilla, I., Lucas, X., Sanchez-Osorio, J., Roca, J., Cuello, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., Gil, M. A., Martinez, C. A., Nohalez, A., Parrilla, I., Lucas, X., Sanchez-Osorio, J., Roca, J., Cuello, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., and Gil, M. A.

Abstract

The advancement of porcine embryo transfer (ET) technology is constrained by regulatory hurdles (liquid nitrogen transportation) or, more importantly, the technical obstacles of using vitrified embryos in combination with nonsurgical deep uterine ET technology. Maintaining embryos in culture during transport and prior ET collides with the need of CO2 gassing and the best choice of culture medium. In this work, we describe storage conditions for short-term embryo CO2-free storage that allowed for a majority of in vivo-derived porcine morulae to survive after 3 days of storage in a liquid state, and to develop to the blastocyst stage unhatched, a sanitary prerequisite for ET. The storage conditions included NCSU-23 medium supplemented with bovine serum albumin, where bicarbonate was partially replaced by HEPES to avoid the need for CO2 gassing, and a temperature of 37 degrees C. These conditions were able to maintain the functionality of the stored embryos (hatching capacity after exposure to conventional culture conditions) and their developmental competence after ET (normal fetuses by day 38 of pregnancy). Use of this strategy of CO2-free storage should allow the shipment of fresh embryos worldwide in the absence of liquid nitrogen. (C) 2017 Elsevier Inc. All rights reserved., Funding Agencies|Ministry of Economy and Competitiveness (Madrid, Spain)/the European Regional Development Fund [RTC-2016-5448-2, AGL2015-69735-R]; Seneca Foundation, Murcia, Spain [19892/GERM/15]; Swedish Research Council Formas, Stockholm, Sweden [2017-00946]

Published

2018

34. Peroxidized mineral oil increases the oxidant status of culture media and inhibits in vitro porcine embryo development

Author

Martinez, C. A., Nohalez, A., Ceron, J. J., Rubio, C. P., Roca, J., Cuello, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., Gil, M. A., Martinez, C. A., Nohalez, A., Ceron, J. J., Rubio, C. P., Roca, J., Cuello, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., and Gil, M. A.

Abstract

The use of oils with undetected alterations is a long-recognized problem for in vitro embryo production systems. Since peroxides in oils have been associated with reduced embryo production outcomes, our goals were (1) to evaluate the effects of a batch of mineral oil (MO) that was suspected to be altered on the in vitro production of pig embryos and (2) to determine oil peroxide values throughout culture and the transfer of oxidant agents from oil to culture media. Sunflower oil, which has a completely different chemical composition than MO but a higher oxidative status, and unaltered MO were used as controls. Oocyte maturation, fertilization and embryo development were affected differently depending on the oil overlay used. While the suspected MO was not able to sustain in vitro maturation and fertilization, the oocytes incubated in the presence of sunflower oil were matured and fertilized similarly to those of the unaltered MO group. Moreover, the cleavage rate of presumed zygotes cultured under the suspected MO was severely reduced compared with those cultured under the other oils, and none of the cleaved embryos developed to the blastocyst stage. Although the cleavage rates in the sunflower oil and unaltered MO groups were similar, embryos cultured under sunflower oil also failed to develop to the blastocyst stage. Our results revealed that the suspected MO and sunflower oil had similar levels of peroxides and that these levels were much higher than those of the unaltered MO. The total oxidant status was higher in media incubated under peroxidized oils than in fresh media or media incubated without an oil overlay or under unaltered MO, indicating that oxidant agents were transferred to the incubation media. However, unlike the sunflower oil group, the culture media incubated under the suspected MO had high levels of total oxidant status and low levels of hydrogen peroxide and reactive oxygen species, suggesting the presence of other unknown oxidant agents in tha, Funding Agencies|Ministry of Economy and Competitiveness (Madrid, Spain); European Regional Development Fund [AGL2015-69735-R]; Seneca Foundation, Murcia, Spain [19892/GERM/15]; Ministry of Economy and Competitiveness [BES-2013-064087, BES-2013-064069]

Published

2017

35. Peroxidized mineral oil increases the oxidant status of culture media and inhibits in vitro porcine embryo development

Author

Martinez, C. A., Nohalez, A., Ceron, J. J., Rubio, C. P., Roca, J., Cuello, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., Gil, M. A., Martinez, C. A., Nohalez, A., Ceron, J. J., Rubio, C. P., Roca, J., Cuello, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., and Gil, M. A.

Abstract

The use of oils with undetected alterations is a long-recognized problem for in vitro embryo production systems. Since peroxides in oils have been associated with reduced embryo production outcomes, our goals were (1) to evaluate the effects of a batch of mineral oil (MO) that was suspected to be altered on the in vitro production of pig embryos and (2) to determine oil peroxide values throughout culture and the transfer of oxidant agents from oil to culture media. Sunflower oil, which has a completely different chemical composition than MO but a higher oxidative status, and unaltered MO were used as controls. Oocyte maturation, fertilization and embryo development were affected differently depending on the oil overlay used. While the suspected MO was not able to sustain in vitro maturation and fertilization, the oocytes incubated in the presence of sunflower oil were matured and fertilized similarly to those of the unaltered MO group. Moreover, the cleavage rate of presumed zygotes cultured under the suspected MO was severely reduced compared with those cultured under the other oils, and none of the cleaved embryos developed to the blastocyst stage. Although the cleavage rates in the sunflower oil and unaltered MO groups were similar, embryos cultured under sunflower oil also failed to develop to the blastocyst stage. Our results revealed that the suspected MO and sunflower oil had similar levels of peroxides and that these levels were much higher than those of the unaltered MO. The total oxidant status was higher in media incubated under peroxidized oils than in fresh media or media incubated without an oil overlay or under unaltered MO, indicating that oxidant agents were transferred to the incubation media. However, unlike the sunflower oil group, the culture media incubated under the suspected MO had high levels of total oxidant status and low levels of hydrogen peroxide and reactive oxygen species, suggesting the presence of other unknown oxidant agents in tha, Funding Agencies|Ministry of Economy and Competitiveness (Madrid, Spain); European Regional Development Fund [AGL2015-69735-R]; Seneca Foundation, Murcia, Spain [19892/GERM/15]; Ministry of Economy and Competitiveness [BES-2013-064087, BES-2013-064069]

Published

2017

36. Surgical embryo collection but not nonsurgical embryo transfer compromises postintervention prolificacy in sows

Author

Martinez, C. A., Nohalez, A., Parrilla, I., Vazquez, J. L., Roca, J., Cuello, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., Gil, M. A., Martinez, C. A., Nohalez, A., Parrilla, I., Vazquez, J. L., Roca, J., Cuello, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., and Gil, M. A.

Abstract

Recent advances in nonsurgical deep uterine (NsDU) embryo transfer (ET) technology allow the noninvasive transfer of porcine embryos into recipients, overcoming the most important impediment for commercial ET in this species. Although many factors in the porcine ET-field have been recently evaluated, many others remain to be explored. We investigated here the future reproductive performance of donors and recipients after artificial insemination subsequent to the default surgical embryo recovery approach and to the NsDU-ET procedure, respectively. Although surgical embryo collection did not influence subsequent farrowing rates (90.5%), litter size decreased severely (8.9 +/- 0.8 piglets) compared to presurgery (10.8 +/- 0.3 piglets) and control group (10.7 +/- 0.3 piglets). In contrast, NsDU-ETs did neither affect fertility nor prolificacy of recipients in the cycle subsequent to ET, regardless of whether they were pregnant after NsDU-ET or not. These results indicate that while the surgical embryo collection procedure compromises the reproductive future of donor sows, the NsDU-ET approach does not affect the reproductive potential of the recipients after reintroduction to the breeding stock of the farm. Further research is thus needed to improve surgical embryo collection. (C) 2016 Elsevier Inc. All rights reserved., Funding Agencies|Centro para el Desarrollo Tecnologico e Industrial (CDTI/Agropor SA), Madrid, Spain [IDI-20140140]; MINECO-FEDER, Madrid, Spain [AGL2012-38621, AGL201569735-R]; Fundacion Seneca, Murcia, Spain [19892/GERM/15]; MINECO [BES-2013-064087, BES-2013-064069]

Published

2017

37. Surgical embryo collection but not nonsurgical embryo transfer compromises postintervention prolificacy in sows

Author

Martinez, C. A., Nohalez, A., Parrilla, I., Vazquez, J. L., Roca, J., Cuello, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., Gil, M. A., Martinez, C. A., Nohalez, A., Parrilla, I., Vazquez, J. L., Roca, J., Cuello, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., and Gil, M. A.

Abstract

Recent advances in nonsurgical deep uterine (NsDU) embryo transfer (ET) technology allow the noninvasive transfer of porcine embryos into recipients, overcoming the most important impediment for commercial ET in this species. Although many factors in the porcine ET-field have been recently evaluated, many others remain to be explored. We investigated here the future reproductive performance of donors and recipients after artificial insemination subsequent to the default surgical embryo recovery approach and to the NsDU-ET procedure, respectively. Although surgical embryo collection did not influence subsequent farrowing rates (90.5%), litter size decreased severely (8.9 +/- 0.8 piglets) compared to presurgery (10.8 +/- 0.3 piglets) and control group (10.7 +/- 0.3 piglets). In contrast, NsDU-ETs did neither affect fertility nor prolificacy of recipients in the cycle subsequent to ET, regardless of whether they were pregnant after NsDU-ET or not. These results indicate that while the surgical embryo collection procedure compromises the reproductive future of donor sows, the NsDU-ET approach does not affect the reproductive potential of the recipients after reintroduction to the breeding stock of the farm. Further research is thus needed to improve surgical embryo collection. (C) 2016 Elsevier Inc. All rights reserved., Funding Agencies|Centro para el Desarrollo Tecnologico e Industrial (CDTI/Agropor SA), Madrid, Spain [IDI-20140140]; MINECO-FEDER, Madrid, Spain [AGL2012-38621, AGL201569735-R]; Fundacion Seneca, Murcia, Spain [19892/GERM/15]; MINECO [BES-2013-064087, BES-2013-064069]

Published

2017

38. Factors of importance when selecting sows as embryo donors

Author

Nohalez, A., Martinez, C. A., Reixach, J., Diaz, M., Vila, J., Colina, I., Parrilla, I., Vazquez, J. L., Roca, J., Gil, M. A., Rodriguez-Martinez, Heriberto, Martinezl, E. A., Cuello, C., Nohalez, A., Martinez, C. A., Reixach, J., Diaz, M., Vila, J., Colina, I., Parrilla, I., Vazquez, J. L., Roca, J., Gil, M. A., Rodriguez-Martinez, Heriberto, Martinezl, E. A., and Cuello, C.

Abstract

The improvement in porcine embryo preservation and non-surgical embryo transfer (ET) procedures achieved in recent years represents essential progress for the practical use of ET in the pig industry. This study aimed to evaluate the effects of parity, weaning-to-estrus interval (WEI) and season on reproductive and embryonic parameters at day 6 after insemination of donor sows superovulated after weaning. The selection of donor sows was based on their reproductive history, body condition and parity. The effects of parity at weaning (2 to 3, 4 to 5 or 6 to 7 litters), season (fall, winter and spring), and WEI (estrus within 3 to 4 days), and their interactions on the number of corpus luteum, cysts in sows with cysts, number and quality of viable and transferable embryos, embryo developmental stage and recovery and fertilization rates were evaluated using linear mixed effects models. The analyses showed a lack of significant effects of parity, season, WEI or their interactions on any of the reproductive and embryonic parameters examined. In conclusion, these results demonstrate that fertilization rates and numbers of viable and transferable embryos collected at day 6 of the cycle from superovulated donor sows are not affected by their parity, regardless of the time of the year (from fall to spring) and WEI (3 or 4 days)., Funding Agencies|Centro para el Desarrollo Tecnologico e Industrial (CDTI/Seleccion Batalle), Madrid, Spain [IDI-20090686]; MINECO-FEDER, Madrid, Spain [AGL2012-38621, AGL2015-69735-R]; Fundacion Seneca, Murcia, Spain [19892/GERM/15]; MINECO [BES-2013-064087, BES-2013-064069]

Published

2017

39. Factors of importance when selecting sows as embryo donors

Author

Nohalez, A., Martinez, C. A., Reixach, J., Diaz, M., Vila, J., Colina, I., Parrilla, I., Vazquez, J. L., Roca, J., Gil, M. A., Rodriguez-Martinez, Heriberto, Martinezl, E. A., Cuello, C., Nohalez, A., Martinez, C. A., Reixach, J., Diaz, M., Vila, J., Colina, I., Parrilla, I., Vazquez, J. L., Roca, J., Gil, M. A., Rodriguez-Martinez, Heriberto, Martinezl, E. A., and Cuello, C.

Abstract

The improvement in porcine embryo preservation and non-surgical embryo transfer (ET) procedures achieved in recent years represents essential progress for the practical use of ET in the pig industry. This study aimed to evaluate the effects of parity, weaning-to-estrus interval (WEI) and season on reproductive and embryonic parameters at day 6 after insemination of donor sows superovulated after weaning. The selection of donor sows was based on their reproductive history, body condition and parity. The effects of parity at weaning (2 to 3, 4 to 5 or 6 to 7 litters), season (fall, winter and spring), and WEI (estrus within 3 to 4 days), and their interactions on the number of corpus luteum, cysts in sows with cysts, number and quality of viable and transferable embryos, embryo developmental stage and recovery and fertilization rates were evaluated using linear mixed effects models. The analyses showed a lack of significant effects of parity, season, WEI or their interactions on any of the reproductive and embryonic parameters examined. In conclusion, these results demonstrate that fertilization rates and numbers of viable and transferable embryos collected at day 6 of the cycle from superovulated donor sows are not affected by their parity, regardless of the time of the year (from fall to spring) and WEI (3 or 4 days)., Funding Agencies|Centro para el Desarrollo Tecnologico e Industrial (CDTI/Seleccion Batalle), Madrid, Spain [IDI-20090686]; MINECO-FEDER, Madrid, Spain [AGL2012-38621, AGL2015-69735-R]; Fundacion Seneca, Murcia, Spain [19892/GERM/15]; MINECO [BES-2013-064087, BES-2013-064069]

Published

2017

40. Peroxidized mineral oil increases the oxidant status of culture media and inhibits in vitro porcine embryo development

Author

Martinez, C. A., Nohalez, A., Ceron, J. J., Rubio, C. P., Roca, J., Cuello, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., Gil, M. A., Martinez, C. A., Nohalez, A., Ceron, J. J., Rubio, C. P., Roca, J., Cuello, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., and Gil, M. A.

Abstract

The use of oils with undetected alterations is a long-recognized problem for in vitro embryo production systems. Since peroxides in oils have been associated with reduced embryo production outcomes, our goals were (1) to evaluate the effects of a batch of mineral oil (MO) that was suspected to be altered on the in vitro production of pig embryos and (2) to determine oil peroxide values throughout culture and the transfer of oxidant agents from oil to culture media. Sunflower oil, which has a completely different chemical composition than MO but a higher oxidative status, and unaltered MO were used as controls. Oocyte maturation, fertilization and embryo development were affected differently depending on the oil overlay used. While the suspected MO was not able to sustain in vitro maturation and fertilization, the oocytes incubated in the presence of sunflower oil were matured and fertilized similarly to those of the unaltered MO group. Moreover, the cleavage rate of presumed zygotes cultured under the suspected MO was severely reduced compared with those cultured under the other oils, and none of the cleaved embryos developed to the blastocyst stage. Although the cleavage rates in the sunflower oil and unaltered MO groups were similar, embryos cultured under sunflower oil also failed to develop to the blastocyst stage. Our results revealed that the suspected MO and sunflower oil had similar levels of peroxides and that these levels were much higher than those of the unaltered MO. The total oxidant status was higher in media incubated under peroxidized oils than in fresh media or media incubated without an oil overlay or under unaltered MO, indicating that oxidant agents were transferred to the incubation media. However, unlike the sunflower oil group, the culture media incubated under the suspected MO had high levels of total oxidant status and low levels of hydrogen peroxide and reactive oxygen species, suggesting the presence of other unknown oxidant agents in tha, Funding Agencies|Ministry of Economy and Competitiveness (Madrid, Spain); European Regional Development Fund [AGL2015-69735-R]; Seneca Foundation, Murcia, Spain [19892/GERM/15]; Ministry of Economy and Competitiveness [BES-2013-064087, BES-2013-064069]

Published

2017

41. Surgical embryo collection but not nonsurgical embryo transfer compromises postintervention prolificacy in sows

Author

Martinez, C. A., Nohalez, A., Parrilla, I., Vazquez, J. L., Roca, J., Cuello, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., Gil, M. A., Martinez, C. A., Nohalez, A., Parrilla, I., Vazquez, J. L., Roca, J., Cuello, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., and Gil, M. A.

Abstract

Recent advances in nonsurgical deep uterine (NsDU) embryo transfer (ET) technology allow the noninvasive transfer of porcine embryos into recipients, overcoming the most important impediment for commercial ET in this species. Although many factors in the porcine ET-field have been recently evaluated, many others remain to be explored. We investigated here the future reproductive performance of donors and recipients after artificial insemination subsequent to the default surgical embryo recovery approach and to the NsDU-ET procedure, respectively. Although surgical embryo collection did not influence subsequent farrowing rates (90.5%), litter size decreased severely (8.9 +/- 0.8 piglets) compared to presurgery (10.8 +/- 0.3 piglets) and control group (10.7 +/- 0.3 piglets). In contrast, NsDU-ETs did neither affect fertility nor prolificacy of recipients in the cycle subsequent to ET, regardless of whether they were pregnant after NsDU-ET or not. These results indicate that while the surgical embryo collection procedure compromises the reproductive future of donor sows, the NsDU-ET approach does not affect the reproductive potential of the recipients after reintroduction to the breeding stock of the farm. Further research is thus needed to improve surgical embryo collection. (C) 2016 Elsevier Inc. All rights reserved., Funding Agencies|Centro para el Desarrollo Tecnologico e Industrial (CDTI/Agropor SA), Madrid, Spain [IDI-20140140]; MINECO-FEDER, Madrid, Spain [AGL2012-38621, AGL201569735-R]; Fundacion Seneca, Murcia, Spain [19892/GERM/15]; MINECO [BES-2013-064087, BES-2013-064069]

Published

2017

42. Factors of importance when selecting sows as embryo donors

Author

Nohalez, A., Martinez, C. A., Reixach, J., Diaz, M., Vila, J., Colina, I., Parrilla, I., Vazquez, J. L., Roca, J., Gil, M. A., Rodriguez-Martinez, Heriberto, Martinezl, E. A., Cuello, C., Nohalez, A., Martinez, C. A., Reixach, J., Diaz, M., Vila, J., Colina, I., Parrilla, I., Vazquez, J. L., Roca, J., Gil, M. A., Rodriguez-Martinez, Heriberto, Martinezl, E. A., and Cuello, C.

Abstract

The improvement in porcine embryo preservation and non-surgical embryo transfer (ET) procedures achieved in recent years represents essential progress for the practical use of ET in the pig industry. This study aimed to evaluate the effects of parity, weaning-to-estrus interval (WEI) and season on reproductive and embryonic parameters at day 6 after insemination of donor sows superovulated after weaning. The selection of donor sows was based on their reproductive history, body condition and parity. The effects of parity at weaning (2 to 3, 4 to 5 or 6 to 7 litters), season (fall, winter and spring), and WEI (estrus within 3 to 4 days), and their interactions on the number of corpus luteum, cysts in sows with cysts, number and quality of viable and transferable embryos, embryo developmental stage and recovery and fertilization rates were evaluated using linear mixed effects models. The analyses showed a lack of significant effects of parity, season, WEI or their interactions on any of the reproductive and embryonic parameters examined. In conclusion, these results demonstrate that fertilization rates and numbers of viable and transferable embryos collected at day 6 of the cycle from superovulated donor sows are not affected by their parity, regardless of the time of the year (from fall to spring) and WEI (3 or 4 days)., Funding Agencies|Centro para el Desarrollo Tecnologico e Industrial (CDTI/Seleccion Batalle), Madrid, Spain [IDI-20090686]; MINECO-FEDER, Madrid, Spain [AGL2012-38621, AGL2015-69735-R]; Fundacion Seneca, Murcia, Spain [19892/GERM/15]; MINECO [BES-2013-064087, BES-2013-064069]

Published

2017

43. Factors of importance when selecting sows as embryo donors

Author

Nohalez, A., Martinez, C. A., Reixach, J., Diaz, M., Vila, J., Colina, I., Parrilla, I., Vazquez, J. L., Roca, J., Gil, M. A., Rodriguez-Martinez, Heriberto, Martinezl, E. A., Cuello, C., Nohalez, A., Martinez, C. A., Reixach, J., Diaz, M., Vila, J., Colina, I., Parrilla, I., Vazquez, J. L., Roca, J., Gil, M. A., Rodriguez-Martinez, Heriberto, Martinezl, E. A., and Cuello, C.

Abstract

The improvement in porcine embryo preservation and non-surgical embryo transfer (ET) procedures achieved in recent years represents essential progress for the practical use of ET in the pig industry. This study aimed to evaluate the effects of parity, weaning-to-estrus interval (WEI) and season on reproductive and embryonic parameters at day 6 after insemination of donor sows superovulated after weaning. The selection of donor sows was based on their reproductive history, body condition and parity. The effects of parity at weaning (2 to 3, 4 to 5 or 6 to 7 litters), season (fall, winter and spring), and WEI (estrus within 3 to 4 days), and their interactions on the number of corpus luteum, cysts in sows with cysts, number and quality of viable and transferable embryos, embryo developmental stage and recovery and fertilization rates were evaluated using linear mixed effects models. The analyses showed a lack of significant effects of parity, season, WEI or their interactions on any of the reproductive and embryonic parameters examined. In conclusion, these results demonstrate that fertilization rates and numbers of viable and transferable embryos collected at day 6 of the cycle from superovulated donor sows are not affected by their parity, regardless of the time of the year (from fall to spring) and WEI (3 or 4 days)., Funding Agencies|Centro para el Desarrollo Tecnologico e Industrial (CDTI/Seleccion Batalle), Madrid, Spain [IDI-20090686]; MINECO-FEDER, Madrid, Spain [AGL2012-38621, AGL2015-69735-R]; Fundacion Seneca, Murcia, Spain [19892/GERM/15]; MINECO [BES-2013-064087, BES-2013-064069]

Published

2017

44. Factors of importance when selecting sows as embryo donors

Author

Nohalez, A., Martinez, C. A., Reixach, J., Diaz, M., Vila, J., Colina, I., Parrilla, I., Vazquez, J. L., Roca, J., Gil, M. A., Rodriguez-Martinez, Heriberto, Martinezl, E. A., Cuello, C., Nohalez, A., Martinez, C. A., Reixach, J., Diaz, M., Vila, J., Colina, I., Parrilla, I., Vazquez, J. L., Roca, J., Gil, M. A., Rodriguez-Martinez, Heriberto, Martinezl, E. A., and Cuello, C.

Abstract

The improvement in porcine embryo preservation and non-surgical embryo transfer (ET) procedures achieved in recent years represents essential progress for the practical use of ET in the pig industry. This study aimed to evaluate the effects of parity, weaning-to-estrus interval (WEI) and season on reproductive and embryonic parameters at day 6 after insemination of donor sows superovulated after weaning. The selection of donor sows was based on their reproductive history, body condition and parity. The effects of parity at weaning (2 to 3, 4 to 5 or 6 to 7 litters), season (fall, winter and spring), and WEI (estrus within 3 to 4 days), and their interactions on the number of corpus luteum, cysts in sows with cysts, number and quality of viable and transferable embryos, embryo developmental stage and recovery and fertilization rates were evaluated using linear mixed effects models. The analyses showed a lack of significant effects of parity, season, WEI or their interactions on any of the reproductive and embryonic parameters examined. In conclusion, these results demonstrate that fertilization rates and numbers of viable and transferable embryos collected at day 6 of the cycle from superovulated donor sows are not affected by their parity, regardless of the time of the year (from fall to spring) and WEI (3 or 4 days)., Funding Agencies|Centro para el Desarrollo Tecnologico e Industrial (CDTI/Seleccion Batalle), Madrid, Spain [IDI-20090686]; MINECO-FEDER, Madrid, Spain [AGL2012-38621, AGL2015-69735-R]; Fundacion Seneca, Murcia, Spain [19892/GERM/15]; MINECO [BES-2013-064087, BES-2013-064069]

Published

2017

45. Peroxidized mineral oil increases the oxidant status of culture media and inhibits in vitro porcine embryo development

Author

Martinez, C. A., Nohalez, A., Ceron, J. J., Rubio, C. P., Roca, J., Cuello, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., Gil, M. A., Martinez, C. A., Nohalez, A., Ceron, J. J., Rubio, C. P., Roca, J., Cuello, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., and Gil, M. A.

Abstract

The use of oils with undetected alterations is a long-recognized problem for in vitro embryo production systems. Since peroxides in oils have been associated with reduced embryo production outcomes, our goals were (1) to evaluate the effects of a batch of mineral oil (MO) that was suspected to be altered on the in vitro production of pig embryos and (2) to determine oil peroxide values throughout culture and the transfer of oxidant agents from oil to culture media. Sunflower oil, which has a completely different chemical composition than MO but a higher oxidative status, and unaltered MO were used as controls. Oocyte maturation, fertilization and embryo development were affected differently depending on the oil overlay used. While the suspected MO was not able to sustain in vitro maturation and fertilization, the oocytes incubated in the presence of sunflower oil were matured and fertilized similarly to those of the unaltered MO group. Moreover, the cleavage rate of presumed zygotes cultured under the suspected MO was severely reduced compared with those cultured under the other oils, and none of the cleaved embryos developed to the blastocyst stage. Although the cleavage rates in the sunflower oil and unaltered MO groups were similar, embryos cultured under sunflower oil also failed to develop to the blastocyst stage. Our results revealed that the suspected MO and sunflower oil had similar levels of peroxides and that these levels were much higher than those of the unaltered MO. The total oxidant status was higher in media incubated under peroxidized oils than in fresh media or media incubated without an oil overlay or under unaltered MO, indicating that oxidant agents were transferred to the incubation media. However, unlike the sunflower oil group, the culture media incubated under the suspected MO had high levels of total oxidant status and low levels of hydrogen peroxide and reactive oxygen species, suggesting the presence of other unknown oxidant agents in tha, Funding Agencies|Ministry of Economy and Competitiveness (Madrid, Spain); European Regional Development Fund [AGL2015-69735-R]; Seneca Foundation, Murcia, Spain [19892/GERM/15]; Ministry of Economy and Competitiveness [BES-2013-064087, BES-2013-064069]

Published

2017

46. Surgical embryo collection but not nonsurgical embryo transfer compromises postintervention prolificacy in sows

Author

Martinez, C. A., Nohalez, A., Parrilla, I., Vazquez, J. L., Roca, J., Cuello, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., Gil, M. A., Martinez, C. A., Nohalez, A., Parrilla, I., Vazquez, J. L., Roca, J., Cuello, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., and Gil, M. A.

Abstract

Recent advances in nonsurgical deep uterine (NsDU) embryo transfer (ET) technology allow the noninvasive transfer of porcine embryos into recipients, overcoming the most important impediment for commercial ET in this species. Although many factors in the porcine ET-field have been recently evaluated, many others remain to be explored. We investigated here the future reproductive performance of donors and recipients after artificial insemination subsequent to the default surgical embryo recovery approach and to the NsDU-ET procedure, respectively. Although surgical embryo collection did not influence subsequent farrowing rates (90.5%), litter size decreased severely (8.9 +/- 0.8 piglets) compared to presurgery (10.8 +/- 0.3 piglets) and control group (10.7 +/- 0.3 piglets). In contrast, NsDU-ETs did neither affect fertility nor prolificacy of recipients in the cycle subsequent to ET, regardless of whether they were pregnant after NsDU-ET or not. These results indicate that while the surgical embryo collection procedure compromises the reproductive future of donor sows, the NsDU-ET approach does not affect the reproductive potential of the recipients after reintroduction to the breeding stock of the farm. Further research is thus needed to improve surgical embryo collection. (C) 2016 Elsevier Inc. All rights reserved., Funding Agencies|Centro para el Desarrollo Tecnologico e Industrial (CDTI/Agropor SA), Madrid, Spain [IDI-20140140]; MINECO-FEDER, Madrid, Spain [AGL2012-38621, AGL201569735-R]; Fundacion Seneca, Murcia, Spain [19892/GERM/15]; MINECO [BES-2013-064087, BES-2013-064069]

Published

2017

47. Peroxidized mineral oil increases the oxidant status of culture media and inhibits in vitro porcine embryo development

Author

Martinez, C. A., Nohalez, A., Ceron, J. J., Rubio, C. P., Roca, J., Cuello, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., Gil, M. A., Martinez, C. A., Nohalez, A., Ceron, J. J., Rubio, C. P., Roca, J., Cuello, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., and Gil, M. A.

Abstract

The use of oils with undetected alterations is a long-recognized problem for in vitro embryo production systems. Since peroxides in oils have been associated with reduced embryo production outcomes, our goals were (1) to evaluate the effects of a batch of mineral oil (MO) that was suspected to be altered on the in vitro production of pig embryos and (2) to determine oil peroxide values throughout culture and the transfer of oxidant agents from oil to culture media. Sunflower oil, which has a completely different chemical composition than MO but a higher oxidative status, and unaltered MO were used as controls. Oocyte maturation, fertilization and embryo development were affected differently depending on the oil overlay used. While the suspected MO was not able to sustain in vitro maturation and fertilization, the oocytes incubated in the presence of sunflower oil were matured and fertilized similarly to those of the unaltered MO group. Moreover, the cleavage rate of presumed zygotes cultured under the suspected MO was severely reduced compared with those cultured under the other oils, and none of the cleaved embryos developed to the blastocyst stage. Although the cleavage rates in the sunflower oil and unaltered MO groups were similar, embryos cultured under sunflower oil also failed to develop to the blastocyst stage. Our results revealed that the suspected MO and sunflower oil had similar levels of peroxides and that these levels were much higher than those of the unaltered MO. The total oxidant status was higher in media incubated under peroxidized oils than in fresh media or media incubated without an oil overlay or under unaltered MO, indicating that oxidant agents were transferred to the incubation media. However, unlike the sunflower oil group, the culture media incubated under the suspected MO had high levels of total oxidant status and low levels of hydrogen peroxide and reactive oxygen species, suggesting the presence of other unknown oxidant agents in tha, Funding Agencies|Ministry of Economy and Competitiveness (Madrid, Spain); European Regional Development Fund [AGL2015-69735-R]; Seneca Foundation, Murcia, Spain [19892/GERM/15]; Ministry of Economy and Competitiveness [BES-2013-064087, BES-2013-064069]

Published

2017

48. Surgical embryo collection but not nonsurgical embryo transfer compromises postintervention prolificacy in sows

Author

Martinez, C. A., Nohalez, A., Parrilla, I., Vazquez, J. L., Roca, J., Cuello, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., Gil, M. A., Martinez, C. A., Nohalez, A., Parrilla, I., Vazquez, J. L., Roca, J., Cuello, C., Rodriguez-Martinez, Heriberto, Martinez, E. A., and Gil, M. A.

Abstract

Recent advances in nonsurgical deep uterine (NsDU) embryo transfer (ET) technology allow the noninvasive transfer of porcine embryos into recipients, overcoming the most important impediment for commercial ET in this species. Although many factors in the porcine ET-field have been recently evaluated, many others remain to be explored. We investigated here the future reproductive performance of donors and recipients after artificial insemination subsequent to the default surgical embryo recovery approach and to the NsDU-ET procedure, respectively. Although surgical embryo collection did not influence subsequent farrowing rates (90.5%), litter size decreased severely (8.9 +/- 0.8 piglets) compared to presurgery (10.8 +/- 0.3 piglets) and control group (10.7 +/- 0.3 piglets). In contrast, NsDU-ETs did neither affect fertility nor prolificacy of recipients in the cycle subsequent to ET, regardless of whether they were pregnant after NsDU-ET or not. These results indicate that while the surgical embryo collection procedure compromises the reproductive future of donor sows, the NsDU-ET approach does not affect the reproductive potential of the recipients after reintroduction to the breeding stock of the farm. Further research is thus needed to improve surgical embryo collection. (C) 2016 Elsevier Inc. All rights reserved., Funding Agencies|Centro para el Desarrollo Tecnologico e Industrial (CDTI/Agropor SA), Madrid, Spain [IDI-20140140]; MINECO-FEDER, Madrid, Spain [AGL2012-38621, AGL201569735-R]; Fundacion Seneca, Murcia, Spain [19892/GERM/15]; MINECO [BES-2013-064087, BES-2013-064069]

Published

2017