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http://dx.doi.org/10.7744/kjoas.20190009

Effect of Optixcell and Triladyl extenders on frozen-thawed sperm motilities and calving rates following artificial insemination in Hanwoo  

Kang, Sung-Sik (RDA, National Institute of Animal Science, Hanwoo Research Institute)
Lee, Myung-Suk (RDA, National Institute of Animal Science, Hanwoo Research Institute)
Kim, Ui-Hyung (RDA, National Institute of Animal Science, Hanwoo Research Institute)
Lee, Seok-Dong (RDA, National Institute of Animal Science, Hanwoo Research Institute)
Yang, Byoung-Chul (RDA, National Institute of Animal Science, Subtropical Livestock Research Institute)
Yang, Boh-Suk (RDA, National Institute of Animal Science, Hanwoo Research Institute)
Cho, Sang-Rae (RDA, National Institute of Animal Science, Hanwoo Research Institute)
Publication Information
Korean Journal of Agricultural Science / v.46, no.1, 2019 , pp. 195-204 More about this Journal
Abstract
In this study, we examined the effect of a liposome-based extender (Optixcell) and a tris-citric egg-yolk extender (Triladyl) on the frozen-thawed spermatozoa characteristics and the calving rate. The percentages for the total motility of the frozen-thawed spermatozoa were similar in the Optixcell and Triladyl groups. However, among the motile spermatozoa with a straight line velocity (VSL) ${\geq}25{\mu}m/sec$, the curvilinear velocity (VCL, ${\mu}m/sec$), VSL (${\mu}m/sec$), average path velocity (VAP, ${\mu}m/sec$), amplitude of lateral head displacement (ALH, ${\mu}m$), beat cross frequency (BCF, Hz), and plasma membrane integrity of the frozen-thawed spermatozoa for the Optixcell group were significantly higher than those for the Triladyl group. Furthermore, the calving rate in the Optixcell group (79.0%) was higher than that of the Triladyl group (62.8%). However, the acrosomal membrane integrity of the frozen-thawed spermatozoa in the Optixcell and Triladyl groups was not significantly different. These results indicate that semen freezing with Optixcell improved the motility and plasma membrane integrity of frozen-thawed spermatozoa and the calving rate of Hanwoo cows (native Korean cattle). In conclusion, our results suggest that semen freezing with the liposome-based extender Optixcell is more efficient than with the tris-citric egg-yolk extender Triladyl for improved offspring production.
Keywords
calving rate; Hanwoo; semen extender; sperm motility;
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1 Akhter S, Ansari MS, Rakha BA, Andrabi SM, Khalid M, Ullah N. 2011. Effect of low density lipoproteins in extender on freezability and fertility of buffalo (Bubalus bubalis) bull semen. Theriogenology 76:759-764.   DOI
2 Al-Qarawi AA, Abdel-Rahman HA, El-Mougy SA, El-Belely MS. 2002. Use of a new computerized system for evaluation of spermatozoal motility and velocity characteristics in relation to fertility levels in dromedary bulls. Animal Reproduction Science 74:1-9.   DOI
3 Amirat L, Tainturier D, Jeanneau L, Thorin C, Gerard O, Courten JL, Anton M. 2004. Bull semen in vitro fertility after cryopreservation using egg yolk LDL: A comparison with Optidyl, a commercial egg yolk extender. Theriogenology 61:895-907.   DOI
4 Ansari MS, Rakha BA, Akhter S, Ashiq M. 2016. OPTIXcell improves the postthaw quality and fertility of buffalo bull sperm. Theriogenology 85:528-532.   DOI
5 Anzar M, Kakuda N, He L, Pauls KP, Buhr MM. 2002. Optimizing and quantifying fusion of liposomes to mammalian sperm using resonance energy transfer and flow cytometric methods. Cytometry 49:22-27.   DOI
6 Bacinoglu S, Tas M, Cirit U, Ozdas OB, Ak K, 2008. The potential fertility estimation capacity of the hypoosmotic swelling test, the thermal stress test and a modified cervical mucus penetration test in the bovine. Animal Reproduction Science 104:38-46.   DOI
7 Bencharif D, Amirat L, Anton M, Schmitt E, Desherces S, Delhomme G, Langlois ML, Barriere P, Larrat M, Tainturier D. 2008. The advantages of LDL (low density lipoproteins) in the cryopreservation of canine semen. Theriogenology 70:1478-1488.   DOI
8 Bousseau S, Brillard JP, Marquant-Le Guienne B, Guerin B, Camus A, Lechat M. 1998. Comparison of bacteriological qualities of various egg yolk sources and the in vitro and in vivo fertilizing potential of bovine semen frozen in egg yolk or lecithin based diluents. Theriogenology 50:699-706.   DOI
9 Camus A, Gonzalez A, Schmitt E. 2016. Novel protein-free semen medium improves fertility potential of frozen bovine sperm. Animal Reproduction Science 169:108.   DOI
10 De Paz P, Esteso MC, Alvarez M, Mata M, Chamorro CA, Anel L. 2010. Development of extender based on soybean lecithin for its application in liquid ram semen. Theriogenology 74:663-71.   DOI
11 Farrell PB, Presicce GA, Brockett CC, Foote RH. 1998. Quantification of bull sperm characteristics measured by computer-assisted sperm analysis (CASA) and the relationship to fertility. Theriogenology 49:871-879.   DOI
12 Freour T, Jean M, Mirallie S, Dubourdieu S, Barriere P. 2010. Computer-assisted sperm analysis (CASA) parameters and their evolution during preparation as predictors of pregnancy in intrauterine insemination with frozen-thawed donor semen cycles. European Journal of Obstetrics & Gynecology and Reproductive Biology 149:186-189.   DOI
13 Fukui Y, Kohno H, Togari T, Hiwasa M, Okabe K. 2008. Fertility after artificial insemination using a soybeanbased semen extender in sheep. Journal of Reproduction and Development 54:286-289.   DOI
14 Holt WV. 2000. Basic aspects of frozen storage of semen. Animal Reproduction Science 62:3-22.   DOI
15 Holt WV, Moore HD, Hillier SG. 1985. Computer-assisted measurement of sperm swimming speed in human semen: Correlation of results with in vitro fertilization assays. Fertility and Sterility 44:112-119.   DOI
16 Kovacs A, Foote RH. 1992. Viability and acrosome staining of bull, boar and rabbit spermatozoa. Biotechnic & Histochemistry 67:119-124.   DOI
17 Hu JH, Jiang ZL, Lv RK, Li QW, Zhang SS, Zan LS, Li YK, Li X. 2011. The advantages of low-density lipoproteins in the cryopreservation of bull semen. Cryobiology 62:83-87.   DOI
18 Jeyendran RS, Van Der Ven HH, Perez-Pelaez M, Crabo BG, Zaneveld LJ. 1984. Development of an assay to assess the functional integrity of the human sperm membrane and its relationship to other semen characteristics. Journal of Reproduction and Fertility 70:219-228.   DOI
19 Kang SS, Koyama K, Huang W, Yang Y, Yanagawa Y, Takahashi Y, 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 . Journal of Reproduction and Development 61:99-105.   DOI
20 King LM, Holsberger DR, Donoghue AM. 2000. Correlation of CASA velocity and linearity parameters with sperm mobility phenotype in turkeys. Journal of Andrology 21:65-71.
21 Kumar P, Saini M, Kumar D, Balhara AK, Yadav SP, Singh P, Yadav PS. 2015. Liposome-based semen extender is suitable alternative to egg yolk-based extender for cryopreservation of buffalo (Bubalus bubalis) semen. Animal Reproduction Science 159:38-45.   DOI
22 Layek SS, Mohanty TK, Kumaresan A, Parks JE. 2016. Cryopreservation of bull semen: Evolution from egg yolk based to soybean based extenders. Animal Reproduction Science 172:1-9.   DOI
23 Pace MM, Graham EF. 1974. Components in egg yolk which protect bovine spermatozoa during freezing. Journal of Animal Science 39:1144-1149.   DOI
24 Pillet E, Labbe C, Batellier F, Duchamp G, Beaumal V, Anton M, Desherces S, Schmitt E, Magistrini M. 2012. Liposomes as an alternative to egg yolk in stallion freezing extender. Theriogenology 77:268-279.   DOI
25 Papa FO, Felicio GB, Melo-Ona CM, Alvarenga MA, De Vita B, Trinque C, Puoli JNP, Dell'aqua JA. 2011. Replacing egg yolk with soybean lecithin in the cryopreservation of stallion semen. Animal Reproduction Science 129:73-77.   DOI
26 Perumal P, Selvaraju S, Selvakumar S, Barik AK, Mohanty DN, Das S, Das RK, Mishra PC. 2011. Effect of prefreeze addition of cysteine hydrochloride and reduced glutathione in semen of crossbred Jersey bulls on sperm parameters and conception rates. Reproduction in Domestic Animals 46:636-641.   DOI
27 Pillet E, Duchamp G, Batellier F, Beaumal V, Anton M, Desherces S, Schmitt E, Magistrini M. 2011. Egg yolk plasma can replace egg yolk in stallion freezing extenders. Theriogenology 75:105-114.   DOI
28 Quinn PJ, Chow PY, White IG. 1980. Evidence that phospholipid protects ram spermatozoa from cold shock at a plasma membrane site. Journal of Reproduction and Fertility 60:403-407.   DOI
29 Revell SG, Mrode RA. 1994. An osmotic resistance test for bovine semen. Animal Reproduction Science 36:77-86.   DOI
30 Ropke T, Oldenhof H, Leiding C, Sieme H, Bollwein H, Wolkers WF. 2011. Liposomes for cryopreservation of bovine sperm. Theriogenology 76:1465-1472.   DOI
31 Santolaria P, Vicente-Fiel S, Palacin I, Fantova E, Blasco ME, Silvestre MA, Yaniz JL. 2015. Predictive capacity of sperm quality parameters and sperm subpopulations on field fertility after artificial insemination in sheep. Animal Reproduction Science 163:82-88.   DOI
32 Utt MD. 2016. Prediction of bull fertility. Animal Reproduction Science 169:37-44.   DOI
33 Sellem E, Broekhuijse ML, Chevrier L, Camugli S, Schmitt E, Schibler L, Koenen EP. 2015. Use of combinations of in vitro quality assessments to predict fertility of bovine semen. Theriogenology 84:1447-1454.   DOI
34 Stewart JL, Shipley CF, Katich AS, Po E, Ellerbrock RE, Lima FS, Canisso IF. 2016. Cryopreservation of white-tailed deer (Odocoileus virginianus ) semen using soybean-, liposome-, and egg yolk-based extenders. Animal Reproduction Science 171:7-16.   DOI
35 Tartaglione CM, Ritta MN. 2004. Prognostic value of spermatological parameters as predictors of in vitro fertility of frozen-thawed bull semen. Theriogenology 62:1245-1252.   DOI
36 Vidal AH, Batista AM, Da Silva ECB, Gomes WA, Pelinca MA, Silva SV, Guerra MMP. 2013. Soybean lecithinbased extender as an alternative for goat sperm cryopreservation. Small Ruminant Research 109:47-51.   DOI
37 Vishwanath R, Shannon P. 2000. Storage of bovine semen in liquid and frozen state. Animal Reproduction Science 62:23-53.   DOI
38 Akhter S, Ansari MS, Andrabi SM, Rakha BA, Ullah N, Khalid M. 2012. Soya-lecithin in extender improves the freezability and fertility of buffalo (Bubalus bubalis) bull spermatozoa. Reproduction in Domestic Animals 47:815-819.   DOI
39 Aitken RJ. 1985. Diagnostic value of the zona-free hamster oocyte penetration test and sperm movement characteristics in oligozoospermia. International Journal of Andrology 8:348-356.   DOI
40 Aitken RJ, Clarkson JS, Irvine DS, Richardson DW. 1985. Contribution of defective sperm function to infertility. Acta Europea Fertilitatis 16:273-280.