Browse > Article
http://dx.doi.org/10.12750/JET.2018.33.4.321

Comparison of Spermatozoa Recovery Methods on Cauda Epididymal Sperm of Hanwoo Bulls  

Kang, Sung-Sik (Hanwoo Research Institute, NIAS, RDA)
Kim, Ui-Hyung (Hanwoo Research Institute, NIAS, RDA)
Jeon, Min-Hyeong (Hanwoo Research Institute, NIAS, RDA)
Lee, Myung-Suk (Hanwoo Research Institute, NIAS, RDA)
Cho, Sang-Rae (Hanwoo Research Institute, NIAS, RDA)
Publication Information
Journal of Embryo Transfer / v.33, no.4, 2018 , pp. 321-326 More about this Journal
Abstract
In this study, two epididymal spermatozoa recovery methods in relation to sperm number, motility, viability and acrosome reaction were examined. Seven bulls were castrated and 7 testicles with epididymides were transferred to the laboratoy. Epididymis in each bull was randomly used for flushing and mincing methods with semen extender (Optixcell, IMV, France). The recovered spermatozoa with adjusted sperm concentration to $40{\times}10^6cells/mL$ was diluted with optixcell and cryopreserved. In experiment 1, the difference in the total number of spermatozoa using flushing and mincing methods was insignificant (2570.0 and $2505.2{\times}10^6cells/mL$, respectively). For experiment 2, the percentage of motile spermatozoa and motility parameters between flushing and mincing methods were studied through the use of sperm class analyzer after frozen-thawing. The percentage of total motile sperm between flushing and mincing methods was almost the same with $89.5{\pm}12.8$ and $91.4{\pm}7.9%$, respectively. The same is the case with experiment 3 wherein the viability and acrosomal integrity of frozen-thawed epididymal spermatozoa by flushing and mincing was insignificantly different. The results from the study showed that both flushing and mincing methods can be used for epididymal spermatozoa recovery in bull.
Keywords
Bull; Epididymal spermatozoa; Motility; Recovery method;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Kang SS, Koyama K, Huang W, Yang Y, Yanagawa Y, Takahashi Y and Nagano M. 2015. Addition of D-penicillamine, hypotaurine, and epinephrine (PHE) mixture to IVF medium maintains motility and longevity of bovine sperm and enhances stable production of blastocysts in vitro. J. Reprod. Dev., 61: 99-105.   DOI
2 Kang SS, Cho SR, Kim UH, Park CS, Kim HC, Chung KY, Lee SD, Jang S S, Jeon GJ, Kim S, Lee MSand Yang BC. 2016. Analysis of epididymal sperm from Korean native bull (Hanwoo) aged at 8 and 15 months before freezing and after thawing. J. Emb. Trans., 25: 201-206.
3 Kapoor MS, Khan SA, Gupta SK, Choudhary R and Bodakhe SH. 2015. Animal models of erectile dysfunction. J. Pharmacol. Tox. Met., 76: 43-54.   DOI
4 Kovacs A and Foote RH. 1992. Viability and acrosome staining of bull, boar and rabbit spermatozoa. Biotech. Histochem., 67: 119-124.   DOI
5 Krishnakumar S, Whiteside DP, Elkin B and Thundathil JC. 2011. Evaluation of an animal protein-free semen extender for cryopreservation of epididymal sperm from North American bison (Bison bison). Theriogenology, 76: 252-260.   DOI
6 Lone FA, Islam R, Khan MZ and Sofi KA. 2011. Effect of transportation temperature on the quality of cauda epididymal spermatozoa of ram. Anim. Reprod. Sci., 123: 54-59.   DOI
7 Lopes G, Soares L, Ferreira P and Rocha A. 2015. Tris-egg yolk-glycerol (TEY) extender developed for freezing dog semen is a good option to cryopreserve bovine epididymal sperm cells. Reprod. Domest. Anim., 50: 97-103.   DOI
8 Martinez-Pastor F, Garcia-Macias V, Alvarez M, Chamorro C, Herraez P, de Paz P and Anel L. 2006. Comparison of two methods for obtaining spermatozoa from the cauda epididymis of Iberian red deer. Theriogenology, 65: 471-485.   DOI
9 Neuhauser S, Gosele P and Handler J. 2018. The effect of four different commercial semen extenders on the motility of stallion epididymal sperm. J. Equine. Vet. Sci., 62: 8-12.   DOI
10 Martins CF, Rumpf R, Pereira DC and Dode MN. 2007. Cryopreservation of epididymal bovine spermatozoa from dead animals and its uses in vitro embryo production. Anim. Reprod. Sci., 101: 326-331.   DOI
11 Neuhauser S, Rheinfeld S and Handler J. 2013. Motility of fresh and frozen-thawed stallion sperm from three segments of the epididymal cauda and the E\effect of post-haw seminal plasma addition on motility. J. Equine. Vet. Sci., 33: 942-949.   DOI
12 Palasz AT, Cates WF, Barth AD and Mapletoft RJ. 1994. The Relationship between scrotal circumference and quantitative testicular traits in yearling beef bulls. Theriogenology, 42: 715-726.   DOI
13 Papa PM, Papa FO, Oliveira LA, Guasti PN, Castilho C and Giometti IC. 2015. Different extenders in the cryopreservation of bovine epididymal spermatozoa. Anim. Reprod. Sci., 161: 58-63.   DOI
14 Cary JA, Madill S, Farnsworth K, Hayna JT, Duoos L and Fahning ML. 2004. A comparison of electroejaculation and epididymal sperm collection techniques in stallions. Can. Vet. J., 45: 35-41.
15 Prieto MT, Sanchez-Calabuig MJ, Hildebrandt TB, Santiago-Moreno J and Saragusty J. 2014. Sperm cryopreservation in wild animals. Eur. J. Wildlife Res., 60: 851-864.   DOI
16 Rath D. and Niemann H. 1997. In vitro fertilization of porcine oocytes with fresh and frozen-thawed ejaculated or frozen-thawed epididymal semen obtained from identical boars. Theriogenology, 47: 785-793.   DOI
17 Rego JPA, Moura AA, Nouwens AS, McGowan MR and Boe-Hansen GB. 2015. Seminal plasma protein profiles of ejaculates obtained by internal artificial vagina and electroejaculation in Brahman bulls. Anim. Reprod. Sci., 160: 126-137.   DOI
18 Aitken RJ. 1985. Diagnostic value of the zona-free hamster oocyte penetration test and sperm movement characteristics in oligozoospermia. Int. J. Androl., 8: 348-356.   DOI
19 Brackett BG, Hall JL and Oh YK. 1978. In vitro fertilizing ability of testicular, epididymal, and ejaculated rabbit spermatozoa. Fertil. Steril., 29: 571-582.   DOI
20 Santiago-Moreno J, Astorga RJ, Luque I, Coloma MA, Toledano-Diaz A, Pulido-Pastor A, Gomez-Guillamon F, Salas-Vega R and Lopez-Sebastian A. 2009. Influence of recovery method and microbial contamination on the response to freezing-thawing in ibex (Capra pyrenaica) epididymal spermatozoa. Cryobiology, 59: 357-362.   DOI
21 Thuwanut P, Chatdarong K, Johannisson A, Bergqvist AS, Soderquist L and Axner E. 2010. Cryopreservation of epididymal cat spermatozoa: effects of in vitro antioxidative enzymes supplementation and lipid peroxidation induction. Theriogenology, 73: 1076-1087.   DOI
22 Turri F, Madeddu M, Gliozzi TM, Gandini G and Pizzi F. 2012. Influence of Recovery Methods and extenders on bull epididymal spermatozoa quality. Reprod. Domes. Ani., 47: 712-717.   DOI
23 Vernocchi V, Morselli MG, Varesi S, Nonnis S, Maffioli E, Negri A, Tedeschi G and Luvoni, GC. 2014. Sperm ubiquitination in epididymal feline semen. Theriogenology, 82: 636-642.   DOI
24 Yu I and Leibo SP. 2002. Recovery of motile, membrane-intact spermatozoa from canine epididymides stored for 8 days at 4 degrees C. Theriogenology, 57: 1179-1190.   DOI
25 Hori T, Atago T, Kobayashi M and Kawakami E. 2015. Influence of different methods of collection from the canine epididymides on post-thaw caudal epididymal sperm quality. J. Vet. Med. Sci., 77: 625-630.   DOI
26 Elmaz O, Cirit U and Dernir H. 2007. Relationship of testicular development with age, body weight, semen characteristics and testosterone in Kivircik ram lambs. S. Afr. J. Anim. Sci., 37: 269-274.
27 Fickel J, Wagener A and Ludwig A. 2007. Semen cryopreservation and the conservation of endangered species. Eur. J. Wildlife Res., 53: 81-89.   DOI
28 Filliers M, Rijsselaere T, Bossaert P, De Causmaecker V, Dewulf J, Pope CE and Van Soom A. 2008. Computer-assisted sperm analysis of fresh epididymal cat spermatozoa and the impact of cool storage (4 degrees C) on sperm quality. Theriogenology, 70: 1550-1559.   DOI
29 Foote RH. 2002. The history of artificial insemination: Selected notes and notables. J. Anim. Sci., 80: 1-10.
30 Holt WV, Moore HD and Hillier SG. 1985. Computer-assisted measurement of sperm swimming speed in human semen: correlation of results with in vitro fertilization assays. Fertil. Steril., 44: 112-119.   DOI
31 Jimenez-Rabadan P, Ramon M, Garcia-Alvarez O, Maroto-Morales A, del Olmo E, Perez-Guzman MD., Bisbal A, Fernandez-Santos MR, Garde JJ and Soler A J. 2012. Effect of semen collection method (artificial vagina vs. electroejaculation), extender and centrifugation on post-thaw sperm quality of Blanca-Celtiberica buck ejaculates. Anim. Reprod. Sci., 132: 88-95.   DOI
32 Jindal SK. 1984. Sperm concentration in different segments of the goat epididymis. Theriogenology, 22: 545-551.   DOI
33 Jones R. 2004. Sperm survival versus degradation in the Mammalian epididymis: a hypothesis. Biol. Reprod., 71: 1405-1411.   DOI