In vitro perfusion of the whole ovary as a cow in order to model human ovarian cryopreservation whole
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Keywords:
cryopreservation, cryoprotectants, ovaries, perfusion, ischemia, anastomosis,Abstract
Cryopreservation and transplantation of whole ovary with vessels is an effective solution to prevent post-transplant ischemia. In fact, perfusion intact mammalian ovary through the arteries and veins, is the most technically difficult part of the process of cryopreservation. In the first series of experiments, ovary (n = 145) were perfused for 60 minutes and at intervals of 1 to 1.5 hours after removal of the ovaries at the slaughterhouse. In a second series of experiments, (n = 29) was performed with ovarian perfusion rate of 25 ml / hour (0.42 mL / min) for 60 minutes after removal of the ovaries. Relevant technology development prolonged perfusion intact ovaries cryoprotectants at low temperatures, as previously, it was found that 24-hour cooling to 50C before cryopreservation beneficial effect on human ovarian tissue freezing. The purpose of this study was to investigate the effectiveness of perfusion intact bovine ovaries at different rates of perfusion and time elapsed between removal of the ovaries and the beginning of perfusion.References
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2 Gerritse R., Beerendonk C.C., Tijink M.S., et al. Optimal perfusion of an intact ovary as a prerequisite for successful ovarian cryopreservation // Human Reproduction. – 2008. – № 23. – P. 329-335.
3 Torre A., Ben Brahim F., Popowski T., et al. Factors related to unstained areas in whole ewe ovaries perfused with a metabolic marker // Human Reproduction. – 2013. – № 28. – P. 423-429.
4 Grazul-Bilska A.T., Banerjee J., Yazici I., et al. Morphology and function of cryopreserved whole ovine ovaries after heterotopic autotransplantation // Reproduction Biology and Endocrinology. – 2008. – № 6. – P. 16-18.
5 Onions V.J., Mitchell M.R., Campbell B.K., Webb R. Ovarian tissue viability following whole ovine ovary cryopreservation: assessing the effects of sphingosine-1-phosphate inclusion // Human Reproduction. – 2008. – № 23. – P. 606-618.
6 Isachenko V., Isachenko E., Mallmann P., Rahimi G. Long-time cooling of human ovarian tissue before cryopreservation as obvious procedure: stimulation of follicular development and neo-vascularisation // Clinical Laboratory. – 2012. – № 58. – P. 1293-300.
7 Weissman A., Gotlieb L., Colgan T., et al. Preliminary experience with subcutaneous human ovarian cortex transplantation in the NOD-SCID mouse // Biology Reproduction. – 1999. – № 6. – P. 1462-1467.
8 Dissen G.A., Lara H.E., Fahrenbach W.H. Immature rat ovaries become revascularized rapidly after autotransplantation and show a gonadotrop independent increase in angiogenic factor gene expression // Endocrinology. – 1994. – № 134. – P. 1146- 1154.
9 Kim S.S., Soules M.R., Battaglia D.E. Follicular development, ovulation, and corpus luteum formation in cryopreserved human ovarian tissue after xenotransplantation // Fertility and Sterility. – 2002. – № 78. – P. 77-82.
10 Aubard Y., Piver P., Cogni Y., et al. Orthotopic and heterotopic autografts of frozen-thawed ovarian cortex in sheep // Human Reproduction. – 1999. – № 14. – P. 2149-2154.
11 Donnez J., Martinez-Madrid B., Jadoul P., et al. Ovarian tissue cryopreservation and transplantation: a review // Human Reproduction Update. – 2006. – № 12. – P. 519-535.
12 Dolmans M.M., Martinez-Madrid B., Gadisseux E., et al. Shortterm transplantation of isolated human ovarian follicles and cortical tissue into nude mice // Reproduction. – 2007. – № 134. – P. 253-262.
13 Nagashima H., Kashiwazaki N., Ashman R.J., et al. Cryopreservation of porcine embryos // Nature. – 1995. – № 374. – P. 416-418.
14 Sathananthan A.H., Kirby C., Peura A., Trounson A. Mouse oocyte cooling // Journal of Assisted reproductive genetics. – 1992. – № 9. – P. 138-148.
15 Pickering S.J., Braude P.R., Johnson M.H. Transient cooling to room temperature can cause irreversible disruption of the meiotic spindle in the human oocyte // Fertility and Sterility. – 1990. – № 54. – P. 102-108.
16 Isachenko V., Michelmann H.W., Alabart J.L., et al. Lipolyse and ultra-structural changes of an intracellular lipid vesicles after cooling of bovine and porcine GV-oocytes // Anatomy Histology and Embryology. – 2001. – № 30. – P. 333-338.
17 Isachenko V., Alabart J.L., Nawroth F., et al. The open pulled straw vitrification of ovine GV-oocytes: positive effect of rapid cooling or rapid thawing or both? // Cryo Letters. – 2001. – № 22. – P. 157-162.
18 Van der Ven H., Isachenko V., Isachenko E., et al. Vitrification of pronuclear embryos: research basis for aseptic technology and its application to oocytes and blastocysts. – London: Informa Healthcare, 2008 – 210 p.
19 Hilders C.G., Baranski A.G., Peters L. Successful human ovarian autotransplantation to the upper arm // Cancer. – 2004. – № 101. – P. 2771-2778.
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Baikoshkarova, S. B., Otarbayev, M. K., Shalakhmetova Т. M., Akberdieva, G. A., & Sabyrbek, Z. B. (2015). In vitro perfusion of the whole ovary as a cow in order to model human ovarian cryopreservation whole. Experimental Biology, 61(2), 152–159. Retrieved from https://bb.kaznu.kz/index.php/biology/article/view/194
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HUMAN and ANIMAL PHYSIOLOGY, BIOPHYSICS
