Soybean milk extender improves sperm functional and oxidative stress parameters of goat sperm during slow and rapid freezing

Agarwal A., Saleh R. A, Bedaiwy M. A. (2003): Role of reactive oxygen species in the pathophysiology of human reproduction. Fertility and Sterility 79: 829 – 843.10.1016/S0015-0282(02)04948-8Search in Google Scholar

Ahmad M., Nasrullah R., Riaz H., Sattar A., Ahmad N. (2014): Changes in motility, morphology, plasma membrane and acrosome integrity during stages of cryopreservation of buck sperm. Journal of the South African Veterinary Association 85: 1 – 5.10.4102/jsava.v85i1.97224832216Search in Google Scholar

Akhtar S., Ansari M. S., Rakha B. A, Ullah N., Andrabi S. M. H, Khalid M. (2011): In vitro evaluation of liquid- stored buffalo semen at 5°C diluted in soya lecithin based extender (Bioxcell), tris-citric egg yolk, skim milk and egg yolk-citrate extenders. Reproduction in Domestic Animals 46: 45 – 49.10.1111/j.1439-0531.2009.01561.x20070582Search in Google Scholar

Amirat L., Anton M., Tainturier D., Chatagnon G. R., Battut I., Courtens J. L. (2005): Modifications of bull spermatozoa induced by three extenders: biociphos, low density lipoprotein and Triladyl, before, during and after freezing and thawing. Reproduction 129: 535 – 543.10.1530/rep.1.0001115798030Search in Google Scholar

Bearden H. J., Fuquay J. W. (1997): Applied Animal Reproduction. New Jersey: Prentice Hall.4^th ed, pp. 158 – 169.Search in Google Scholar

Campbell M. K., Farrel S. O. (2007): Lipids and proteins are associated with biological membranes. (In Portuguese). Campbell MK, Farrel SO (Eds.), Bioquímica (5th ed.), Thomson Learning, São Paulo), (Chapter 8).Search in Google Scholar

Choe C. Y., Kim J. G., Cho S. R., Son D. S., Kim Y. K., Balasubramanian S., Choe S. Y and Rho G. J. (2006): Influence of seasons, extenders, slow and rapid freezing on seminal characters in Korean native bucks. Reproduction in Domestic Animals 41: 55 – 60.10.1111/j.1439-0531.2006.00652.x16420329Search in Google Scholar

Climate-data.org Nigeria Ogun, 2020. https://en.climate-data.org/africa/nigeria/ogun/abeokuta-544/ (accessed 03 March, 2020).Search in Google Scholar

Collin S., Sirard M. A, Dufour M., Bailey J. L. (2000): Sperm calcium levels and chlortetracycline fluorescence patterns are related to the in vivo fertility of cryopreserved bovine semen. Journal of Andrology 21: 938 – 943.Search in Google Scholar

Daramola J. O., Adekunle E. O. (2016): Comparative effect of slow freezing and rapid freezing on cryosurvival of spermatozoa obtained from West African Dwarf goat bucks. CryoLetters 37: 123 – 128.Search in Google Scholar

Daramola J. O, Adekunle E. O., Iyasere O. S., Oke O. E., Sorongbe T. A., Iyanda O. A., Kehinde A. R., Aluko S. P., Olaoye I. O., Gbadebo O.E., Falolu L.I., Olukayode E.O., Ajayi R.A., Enikannaye O.J., Osunjaiye E. D. (2016): Effects of coconut milk alone or supplementation with pyridoxine in tris-extenders on viability of buck spermatozoa during vitrification. Small Ruminant Research 136: 208 – 213.10.1016/j.smallrumres.2016.02.004Search in Google Scholar

De Paz P., Esteso M. C., Alvarez M., Mata M., Chamorro C.A., Anel L. (2010): Development of extender based on soya bean lecithin for its application in liquid ram semen. Theriogenology 74: 663 – 671.10.1016/j.theriogenology.2010.03.02220537695Search in Google Scholar

Duncan B.D. (1955): Multiple Range Test and Multiple F-test. Biometrics 11: 1 – 42.10.2307/3001478Search in Google Scholar

Endtz A.W. (1974): A rapid staining method for differentiating granulocytes from `germinal cells’ in Papanicolaou-stained semen. Actabulum Cytology 18: 2 – 7.Search in Google Scholar

Ezeh O., Gordon M. H., Niranjan K. (2014): Tiger nut oil (Cyperus esculentus L.): A review of its composition and physico-chemical properties. European Journal of Lipid Science Technology 16: 783 – 794.10.1002/ejlt.201300446Search in Google Scholar

Fukui Y., Kohno H., Togary T., Hiwasa M., Okabe B. (2008): Fertility after artificial insemination using a soya bean-based semen extender. Journal of Reproduction and Development 54: 286 – 289.10.1262/jrd.2000418408351Search in Google Scholar

Gadea J. (2003): Review: Semen extenders used in the artificial insemination of swine. Spanish Journal of Agricultural Research 1: 17 – 27.10.5424/sjar/2003012-17Search in Google Scholar

Garrido N., Meseguer M., Simon C., Pellicer A., Remohi J. (2004): Pro-oxidative and anti-oxidative imbalance in human semen and its relation with male fertility. Asian Journal of Andrology 16: 59 – 65.Search in Google Scholar

Henkel R. R. (2011): Leukocytes and oxidative stress: dilemma for sperm function and male fertility. Asian Journal of Andrology 13: 43 – 52.10.1038/aja.2010.76Search in Google Scholar

Igbokwe A. A., Iyasere O. S., Sobayo R. A., et al. (2019): Comparative effect of slow and rapid freezing on sperm functional attributes and oxidative stress parameters of goat spermatozoa cryopreserved with tiger nut milk extender. Reproduction in Domestic Animals 00:1-9. https://doi.org/10.1111/rda.1339310.1111/rda.13393Search in Google Scholar

Katsuki T., Hara T., Ueda K., Tanaka J., Ohama K. (2005): Prediction of outcomes of Assisted Reproduction Treatment using the calcium ionophore-induced acrosome reaction. Human Reproduction 20: 469 – 475.10.1093/humrep/deh636Search in Google Scholar

Leboeuf B., Restall B., Salamon S. (2000): Production and storage of goat semen for artificial insemination. Animal Reproduction Science 62: 113 – 141.10.1016/S0378-4320(00)00156-1Search in Google Scholar

Mandal R., Badyakar D., Chakrabarty J. (2014): Role of membrane lipid fatty acids in sperm cryopreservation. Advances in Andrology, Article ID 190542, 9 p, from http://dx.doi.org/10.1155/2014/19054210.1155/2014/190542Search in Google Scholar

Martinez R. R. D., Hernandez J., Reyna L., Santos R. (2007): Intrauterine insemination with frozen-thawed semen in Creole goats, synchronized in oestrous during the non-breeding season. Research Journal of Animal Sciences 1: 76 – 80.Search in Google Scholar

Medeiros C. M. O., Forell F., Oliveira A. T. D., Rodrigues J. L. (2002): Current status of sperm cryopreservation: Why isn’t it better? Theriogenology 57: 327 – 344.10.1016/S0093-691X(01)00674-4Search in Google Scholar

Mphaphathi M. L., Luseba D., Sutherland B., Nedambale T. L. (2012): Comparison of slow freezing and vitrification methods for Venda cockerel’s spermatozoa. Open Journal of Animal Science 2: 204 – 210.10.4236/ojas.2012.23028Search in Google Scholar

Niki E., Yoshida Y., Saito Y., Noguchi N. (2005): Lipid peroxidation: mechanisms, inhibition, and biological effects. Biochemical and Biophysical Research Communications 338: 668 – 676.10.1016/j.bbrc.2005.08.07216126168Search in Google Scholar

Papa F. O., Felicio G. B., Melo-O˜na C. M., Alvarenga M. A., De Vita B., Trinque C., Puoli-Filhob J. N. P., Dell’Aqu J. A. (2011): Replacing egg yolk with soya bean lecithin in the cryopreservation of stallion semen. Animal Reproduction Science 129: 73 – 77.10.1016/j.anireprosci.2011.10.00622112939Search in Google Scholar

Pegg D. E. (2007): Principles of cryopreservation methods. Molecular Biology 368: 39 – 57.10.1007/978-1-59745-362-2_3Search in Google Scholar

Roy A. (1957): Egg yolk coagulating enzyme in the semen and Cowper’s gland of the goat. Nature (London) 179: 318.10.1038/179318b0Search in Google Scholar

Salmani H. A., Towhidi A., Zhandi M., Bahreini M., Sharafi M. (2013): In vitro assessment of soya bean lecithin and egg yolk based diluents for cryopreservation of goat semen. Cryobiology 68: 276 – 280.10.1016/j.cryobiol.2014.02.008Search in Google Scholar

SAS. (2000): SAS User’s Guide: Statistics Inc., Cary, N.C. 923 p.Search in Google Scholar

Sharma R., Kattoor A. J., Ghulmiyyah J., Agarwal A. (2015): Effect of sperm storage and selection techniques on sperm parameters. Systems Biology in Reproductive Medicine 61:https://doi.org/10.3109/19396368.2014.97672010.3109/19396368.2014.976720Search in Google Scholar

Sikka S. C. (1996): Oxidative stress and role of antioxidants in normal and abnormal sperm function. Frontier Bioscience 1: 78 – 86.10.2741/A146Search in Google Scholar

Singh A. K., Singh V. K., Narwade B. M., Mohanty T. K., Atreja S. K. (2012): Comparative quality assessment of buffalo (Bubalus bubalis) semen chilled (5°C) in egg yolk- and soyamilk-based extenders. Reproduction in Domestic Animals 47: 596 – 600.10.1111/j.1439-0531.2011.01928.xSearch in Google Scholar

Soltan W. M., El-Siefy E. M., Abd El-Razek I. M., El-Shamaa I.S. (2016): Efficacy of using soya bean milk-based semen extender for freezability of buck spermatozoa. Journal of Agricultural Research 42: 131 – 143.10.21608/jsas.2016.3031Search in Google Scholar

Srirattana K., Sripunya N., Sangmalee A., Imsoonthornruksa S., Liang Y., Ketudat-Cairns M., Parnpai R. (2013): Developmental potential of vitrified goat oocytes following somatic cell nuclear transfer and parthenogenetic activation. Small Ruminant Research 112: 141 – 146.10.1016/j.smallrumres.2012.10.011Search in Google Scholar

Stradaioli G. T., Noro T., Sylla L., Monaci M. (2007): Decrease in glutathione (GSH) content in bovine sperm after cryopreservation: comparison between two extenders. Animal Reproduction Science 7: 1249 – 125510.1016/j.theriogenology.2007.01.009Search in Google Scholar

Tardif S., Sirard M. A., Sullivan R., Bailey J. (1999): Identification of capacitation-associated phosphoproteins in porcine sperm electroportated with ATP-γ-³² P. Molecular Reproduction and Development 54: 292 – 302.10.1002/(SICI)1098-2795(199911)54:3<292::AID-MRD10>3.0.CO;2-FSearch in Google Scholar

Tarig A. A., Wahid H., Rosnina Y., Yimer N., Goh Y. M., Baiee F. H., Khumran A. M., Salman H., Assi M. A., Ebrahimi M. (2017): Effect of different concentrations of soybean lecithin and virgin coconut oil in Tris-based extender on the quality of chilled and frozen-thawed bull semen. Veterinary World 10: 672 – 678.10.14202/vetworld.2017.672-678Search in Google Scholar

Tongdee P. M. D., Sukprasert M. M. D., Satirapod C. M. D., Wongkularb A., Choktanasiri W. M. D. (2015): Comparison of cryopreserved human sperm between ultra-rapid freezing and slow programmable freezing: Effect on motility, morphology and DNA integrity. Journal of the Medical Association of Thailand 98: S33 – S42.Search in Google Scholar

USDA (2018): Organic whole ground tigernuts. Nutrient Data Laboratory. USDA National Nutrient Database for Standard Reference, Release 24. Washington, DC: US Department of Agriculture.Search in Google Scholar

Vutyavanich T., Piromlertamorn W., Nunta S. (2010): Rapid freezing versus slow programmable freezing of human spermatozoa. Fertility and Sterility 93: 1921 – 1928.10.1016/j.fertnstert.2008.04.076Search in Google Scholar

WHO (1992): World Health Organization, Laboratory Manual for the Examination of Human Semen and Sperm – Cervical Mucus Interaction. Cambridge University Press, Cambridge.Search in Google Scholar

Yagi K. (1998): Simple procedure for specific assay of lipid hydroperoxides in serum or plasma. Free Radicals Antioxidant Protocols 108: 101 – 106.10.1385/0-89603-472-0:101Search in Google Scholar

Yancey P. H. (2005): Organic osmolytes as compatible, metabolic and counter-acting cryoprotectant in high osmolarity and other stresses. Journal of Experimental Biology 15: 2819 – 2830.10.1242/jeb.0173016043587Search in Google Scholar

Zhang S. S., Hu J. H., Li Q. W., Jiang Z. I., Zhang X., Xiao-Ying Z. (2009): The Cryoprotective effect of soybean lecithin on boar spermatozoa quality. African Journal of Biotechnology 18: 6476 – 6480.10.5897/AJB09.1070Search in Google Scholar

Zubair M., Akbar Lodhi L, Ahmad E., Muhammad G. (2013): Osmotic Swelling Test as screening for evaluation of semen of bull. Journal of Entomology and Zoology Studies 1: 124 – 128.Search in Google Scholar