Influence of the transportation of cow ovaries on the IVM/IVF/IVC results: A report

Authors

  • Tsvetelina Todorova Department of Reproduction, Institute of Animal Science, Agricultural Academy, 2230 – Kostinbrod, Bulgaria Author
  • Iancho Todorov Department of Reproduction, Institute of Animal Science, Agricultural Academy, 2230 – Kostinbrod, Bulgaria Author

Keywords:

in vitro, bovine, culture, individual cow

Abstract

Ovaries from 12 cows were collected separately in an abattoir and the data concerning the donor
were recorded. The ovaries were transported for 8–10 hours to the laboratory and processed immediately. Oocytes from these ovaries were collected separately and submitted to IVM/IVF/IVC. The
seven HF cows supplied 165 oocytes (23.57 per cow on average) with high individual variations. Five
MB cows supplied 250 oocytes (50 per cow on average). After IVF 137 expanded blastocysts were
obtained (33% of oocytes, 11.41 per cow, range 2–22). All of the obtained blastocysts were frozen by
vitrification.

References

Abe, S., & Shioya, Y. (1996). Effects of temperature and duration of preservation of bovine ovaries in physiological saline on the development of bovine embryos derived from follicular oocytes matured and fertilized in vitro. Animal Science and Technology (Japan). 67, 633-638.

Barceló-Fimbres, M., Campos-Chillón, L. F., Mtango, N. R., Altermatt, J., Bonilla, L., Koppang, R., & Verstegen, J. P. (2015). Improving in vitro maturation and pregnancy outcome in cattle using a novel oocyte shipping and maturation system not requiring a CO2 gas phase. Theriogenology, 84(1), 109-117.

Bohlooli, S. H., Bozoğlu, Ş., & Cedden, F. (2015). HEPES buffer in ovary-transportation medium influences developmental competence of cattle oocytes. South African Journal of Animal Science, 45(5), 538-546.

Catteeuw, M., Wydooghe, E., Mullaart, E., Knijn, H. M., & Van Soom, A. (2017). In vitro production of bovine embryos derived from individual donors in the Corral® dish. Acta veterinaria scandinavica, 59(1), 1-7.

Diez, C., Duque, P., Gómez, E., Hidalgo, C. O., Tamargo, C., Rodríguez, A., Fernandez, L., Lavarga, S., Farnandez, A., Facal, N., & Carbajo, M. (2005). Bovine oocyte vitrification before or after meiotic arrest: effects on ultrastructure and developmental ability. Theriogenology, 64(2), 317-333.

Do, V. H., Walton, S., Catt, S., & Taylor-Robinson, A. (2015). Requirements for cryopreservation of in vitro-produced bovine embryos by a standard method of vitrification. Journal of Veterinary Science and Animal Husbandry, 3:1-8.

Do, V. H., Catt, S., Kinder, J. E., Walton, S., & Taylor-Robinson, A. W. (2019). Vitrification of in vitroderived bovine embryos: targeting enhancement of quality by refining technology and standardising procedures. Reproduction, Fertility and Development, 31(5), 837-846.

Gardner, D. K., Weissman, A., Howles, C. M., & Shoham, Z. (2004). Text Book of Assisted Reproductive Techniques. London and New York.

Ling, Z. J. (1990). Frequency of cleavage and development in vitro of bovine oocytes fertilized in different numbers in drops with different sperm concentrations. Theriogenology, 33, 275-abstr.

Mogas, T. (2019). Update on the vitrification of bovine oocytes and in vitro-produced embryos. Reproduction, Fertility and Development, 31(1), 105-117.

Mermillod, P., Mourmeaux, J. L., Wils, C., Massip, A., & Dessy, F. (1992). Protein-free oviduct-conditioned medium for complete bovine embryo development. The Veterinary Record, 130(1), 13-13.

Narita, M., Goda, S., Inaba, Y., Imai, K., Matoba, S., Tagawa, M., Nagai, T., Saito, N., Yanai, M., & Dochi, O. (2004). 289 Effects of the storage of bovine ovaries on the nuclear maturation and development of in vitro produced embryos. Reproduction, Fertility and Development, 17(2),

-295.

Nakao, H., & Nakatsuji, N. (1992). Effects of storage conditions of bovine ovaries and oocytes on the success rate of in vitro fertilization and culture. Journal of Reproduction and Development, 38(1), 11-13.

Özdaş, O. B., Taş, M. U. Z. A. F. F. E. R., Cirit, U., Evecen, M., Bacınoğlu, S., Demir, K., ... & Ileri, I. K. (2006). Effect of different transport temperatures of cattle and sheep ovaries on in vitro maturation of oocytes. Medycyna Wet, 62(2), 162-164.

Paria, B. C., & Dey, S. K. (1990). Preimplantation embryo development in vitro: cooperative interactions among embryos and role of growth factors. Proceedings of the National Academy of Sciences, 87(12), 4756-4760.

Pereira, D. C., Dode, M. A. N., & Rumpf, R. (2005). Evaluation of different culture systems on the in vitro production of bovine embryos. Theriogenology, 63(4), 1131-1141.

Saleh, W. M. (2017). Assessment of different methods of bovine oocytes collection, maturation and Invitro fertilization of abattoir specimens. Iraqi Journal of Veterinary Sciences, 31(1), 55-65.

Shioya, Y. (1993). Calf production by in vitro fertilization of follicular oocytes matured in vitro. Japan Agricultural Research Quarterly, 26, 287-287.

Van Soom, A., & Boerjan, M. (2002). Assessment of mammalian embryo quality. Dordrecht: Kluwer Academic Publishers.

Van Langendonckt, A., Scutenaire, C., Massip, A., & Dessy, F. (1995): Production of an ultimate offspring after slaughter of genetically valuable cows. 11e Reunion A.E.T.E., Hannover, 251.

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Published

26.04.2022

Issue

Vol. 59 No. 2 (2022): Bulgarian Journal of Animal Husbandry

Section

Animal Breeding, Genetics and Reproduction

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How to Cite

Todorova, T., & Todorov, I. (2022). Influence of the transportation of cow ovaries on the IVM/IVF/IVC results: A report. Bulgarian Journal of Animal Husbandry, 59(2), 34-39. https://agriacad.eu/ojs/index.php/bjah/article/view/95