Ooplasm cryopreservation: ovarian fragments versus oocytes alone

Authors

  • A. V. Makarevich
  • L. Olexikova
  • M. Főldešiová
  • J. Pivko
  • E. Kubovičová

Keywords:

bovine, ovary, oocyte, embryo, vitrification

Abstract

The cryopreservation of the farm animal ooplasm is very useful in the conservation of female gametes. Since the use of histological assay alone is insufficient to assess the freezing-thawing process, the future oocyte developmental competence need to be validated by in vitro fertilization and embryo production. The aim of the study was to find optimal method of cryostorage of bovine oocytes with preserving their viability and fertility. In the first experimental series we vitrified ovarian fragments isolated from the cortical area of the cow ovary, which contained antral follicles, using two vitrification techniques: solid-surface vitrification (SSV) and liquid vitrification (LV). After warming we isolated the oocytes by follicle aspiration and placed them into the in vitro maturation (IVM). At maximum, only 8.3% of vitrified/warmed (LV) oocytes were matured, whilst none of the oocytes were matured following SSV technique. In all frozen ovarian fragments, regardless of vitrification technique, serious damages in the oocytes were detected at the histological and ultrastructural levels, what prevented the oocyte development. In the second series of experiments, cumulus-oocyte complexes without surrounding ovarian tissue were vitrified following IVM procedure. Using this scheme we obtained more than 50% embryo cleavage rate and 4.5% of embryos reached the blastocyst stage, which proves that the cumulus-oocyte complexes after vitrification can retain their developmental ability. Our preliminary results show that cryopreservation of previously matured oocytes is more promising than the vitrification of ovarian tissue fragments.

References

CELESTINO, J.J. – dos SANTOS, R.R. – LOPES, C.A. – MARTINS, F.S. – MATOS, M.H. – MELO, M.A. – BAO, S.N. – RODRIGUES, A.P. – SILVA, J.R. – de FIGUEIREDO, J.R. 2008. Preservation of bovine preantral follicle viability and ultrastructure after cooling and freezing of ovarian tissue. Animal Reproduction Science, vol. 108, 2008, p. 309–318.


CHIAN, R.C. – KUWAYAMA, M. – TAN, L. – TAN, J. – KATO, O. – NAGAI, T. 2004. High survival rate of bovine oocytes matured in vitro following vitrification. Journal of Reproduction and Development, vol. 50, 2004, p. 685-696.


CLEARY, M. – SNOW, M. – PARIS, M. – SHAW, J. – COX, S.L. – JENKIN, G. 2001. Cryopreservation of mouse ovarian tissue following prolonged exposure to an ischemic environment. Cryobiology, vol. 42, 2001, p. 121–133.


FAHEEM, M.S. – CARVALHAIS, I. – CHAVEIRO, A. – MOREIRA DA SILVA, F. 2011. In vitro oocyte fertilization and subsequent embryonic development after cryopreservation of bovine ovarian tissue, using an effective approach for oocyte collection. Animal Reproduction Science, vol. 125, 2011, p. 49–55.


HOVATTA, O. 2005. Methods for cryopreservation of human ovarian tissue. Reproductive BioMedicine Online, vol. 10, 2005, p. 729–734.


ISHII, T. – TOMITA, K. – SAKAKIBARA, H. – OHKURA, S. 2018. Embryogenesis of vitrified mature bovine oocytes is improved in the presence of multi-layered cumulus cells. Journal of Reproduction and Development, vol. 64, 2018, p. 95-99.


KIM, S.S. 2006. Fertility preservation in female cancer patients: current developments and future directions. Fertility and Sterility, vol. 85, 2006, p. 1–11.


LUNARDI, F.O. – DE AGUIAR, F.L.N. – APOLLONI, L.B. – DUARTE, A.B.G. – DE SÁ, N.A.R. – LEAL, É.S.S. – SALES, A.D. – LOBO, C.H. – CAMPELLO, C.C. – SMITZ, J. – APGAR, G.A. – DE FIGUEIREDO, J.R. – RODRIGUES, A.P.R. 2017. Sheep isolated secondary follicles are able to produce metaphase ii oocytes after vitrification and long-term in vitro growth. Biopreservation and Biobanking, vol. 15, 2017, p. 321-331.


MARTINO, A. – SONGSASEN, N. – LEIBO, S.P. 1996. Development into blastocysts of bovine oocytes cryopreserved by ultra-rapid cooling. Biology of Reproduction, vol. 54, 1996, p. 1059–1069.


PAPIS, K. – SHIMIZU, M. – IZAIKE, Y. 2000. Factors affecting the survivability of bovine oocytes vitrifled in droplets. Theriogenology, vol. 54, 2000, 651-658.


SANTOS, R.R. – VAN DEN HURK, R. – RODRIGUES, A.P. – COSTA, S.H. – MARTINS, F.S. – MATOS, M.H. – CELESTINO, J.J. – FIGUEIREDO, J.R. 2007. Effect of cryopreservation on viability, activation and growth of in situ and isolated ovine early-stage follicles. Animal Reproduction Science, vol. 99, 2007, p. 53–64.


VAJTA, G. – HOLM, P. – KUWAYAMA, M. – BOOTH, P.J. –JACOBSEN, H. – GREVE, T. – CALLESEN, H. 1998. Open pulled straw (OPS) vitrification: a new way to reduce cryoinjuries of bovine ova and embryos. Molecular Reproduction and Development, vol. 51, 1998, p. 53–58.


ZHOU, X.L. – AL NAIB, A. – SUN, D.W. – LONERGAN, P. 2010. Bovine oocyte vitrification using the Cryotop method: Effect of cumulus cells and vitrification protocol on survival and subsequent development. Cryobiology, vol. 61, 2010, p. 66–72.

Downloads

Published

2018-12-07

Issue

Section

Reviews

Most read articles by the same author(s)

1 2 3 4 > >>