Evaluation of Different Techniques in Recovering of Oocytes and Storage Duration of Ovaries on the Quality and Quantity of Bovine in Vitro Maturation
Zaituni Udin(1*), Masrizal Masrizal(2), Hendri Hendri(3), Syafri Nanda(4)
(1) Department of Animal Technology and Reproduction, Faculty of Animal Science, Andalas University, Padang, 25163, Indonesia
(2) Department of Animal Technology and Reproduction, Faculty of Animal Science, Andalas University, Padang, 25163, Indonesia
(3) Department of Animal Technology and Reproduction, Faculty of Animal Science, Andalas University, Padang, 25163, Indonesia
(4) Department of Animal Technology and Reproduction, Faculty of Animal Science, Andalas University, Padang, 25163, Indonesia
(*) Corresponding Author
Abstract
This study aimed to evaluate different recovery techniques of oocytes and the duration time between ovary collection and processing in the laboratory on the quality and quantity of Simmental cross bovine oocytes in vitro maturation. A total of 75 bovine ovaries were divided into three groups. Experiment-1; the storage duration of ovaries were 6, 9 and 12 h. Experiment -2; the techniques for oocytes recovery were slicing, aspiration and slicing + aspiration. The ovaries were collected from slaughterhouse and kept in saline solution during transportation to laboratory. A total of 136 oocytes were used for experiment-1, and 246 oocytes for experiment-2. This study found that the number and quality of oocytes were significantly different (P<0.05) as the effect of storage time. The average number of oocytes were 15.90±2.48; 17.10±1.38 and 13.60±3.00, in 6 h; 9 h and 12 h of storage time, respectively. The techniques of oocytes collection significantly (P<0.05) affect the quantity of oocytes but no significant (P>0.05) on oocytes quality. The average of oocytes of groups slicing, aspiration and slicing plus aspiration were 14.66±2.09; 9.46±2.99 and 16.40±6.86, respectively. Both experiment was significant effect (P<0.05) on immaturation rate of bovine. Conclusion of this study the storage time of ovaries was suitable in 9 h and the technique of oocytes collection was in slicing plus aspiration.
Keywords
Full Text:
PDFReferences
Abdel-Khalek, E. A., M. A. El-Harairy, Sh. M. Shamiah, and W. A. Khalil. 2010. Effect of ovary preservation period on recovery rate and categories of dromedary camel oocytes. Saudi J. Biol. Sci. 17: 231-235.
Bacelo-Fimbres, M., L. F. Campos-chillon, N. R. Mtango, and J. Altermatt. 2015. Improving in vitro maturation and pregnancy outcome in cattle using a novel oocyte shipping and maturation system not requiring a CO2 ga phase. Theriogenology 84: 109-117.
Deb, G. K., S. R. Dey, T. N. Nahar, M. Y. A. Khan, and M. M. Rahman. 2016. In vitro production of bovine blastocyst with oocyte collected from abattoir ovary. Bang. J. Anim. Sci. 45: 31-35.
Dey, S. R., G. K. Deb, A. N. Ha, J. I. Lee, J. I. Bang, K. L. Lee, and I. K. Kong. 2011. Calculating denuded ooccytes during the in vitro maturation of bovine cumulus oocyte complexes exerts a synergistic effect on embryo development. Theriogenology 7: 1064-1077.
Elbaz, H. T., E. M. Abd-El- Razak, T. M. Genedy, A. E. Elweza, A. H. Zaghloul, and M. Wagdy, 2019. Effect of season and ovarian morphology of Egyptian buffalo on oocyte quality and in vitro maturation rate. J. Curr. Vet. Res. 1: 34-41.
Francesco, S., L. Boccia, R. Di Palo, G. Esposito, L. Attanasto, A. De Rosa, and B. Gasparrini. 2007. Influence of temperature and time during ovary transportation on in vitro embyo production efficiency in the buffalo species (Bubalus bubalis) Ital. J. Anim. Sci. 6: 755-758.
Gabr, Sh. A., A. E. Abdel-Khalek and L. T. El-Ratel. 2015. Evaluation of some factors affecting quantity,quality and in vitro maturation of buffalo oocytes. AJAVA. 10: 1-13.
Habeed, I. A. and S. O. Hussain, 2017. Comparative study between two media an in vitro maturation rate of local buffalo oocytes. QJVMS. 16: 9-15.
Hammad, M. E., Sh. A. Gabr, I. T. El-Ratel and M. A. Gad. 2016. Efficacy of different collection technique on yield and quality of Egyptian buffalo oocytes. J. Anim. Poult. Prod. 5: 413-422.
Hegab, A. O., A. E. Montasser, A. M. Hammam, E. M. A. Abu El-Naga and S. M. Zaabel. 2009. Improving in vitro maturation and cleavage rates of buffalo oocytes. Anim. Reprod. 6: 416-421.
Jalali, S., M. I. Khan, and S. A. Shani. 2014. Different methods of oocytes recovery for in vitro maturation in Nili Ravi buffalo oocytes . APCBEE. Procedia 8: 359-363.
Khandoker, M., N. F. Atikah, and N. Ariani. 2016. Effect of ovarian types and collection techniques on the number of follicles and the quality of cumulus. Bangladesh J. Anim. Sci. 45: 10-16.
Lonergan, P. and T. Fair. 2016. Maturation of oocytes in vitro, Annual Animal Rev. Ani. Biosci. 4: 255-268.
Mamy, K., N. F. Atiqah and N. Arian. 2016. Effect of ovarian types and collection techniques on the number of follicle and the quality of cumulus. Bangladesh J. Anim. Sci. 45: 10-16.
Mohammed, A. El- Nasser, S. Al-Suwaiegh, and T. Al-Shaheen. 2019. Effect of follicular fluid components on oocytes maturation and embryo development in vivo and in vitro. Adv. Anim. Vet. Sci. 7: 346-355.
Nandi, S., M. S., Chauhan, and P. Palta.2000. Effect of a corpus luteum onthe recovery and developmental potential of buffalo oocytes. Vet. Rec. 147: 580-581.
Nowshari, M. A. 2004. The effect of harvesting technique on efficiency of oocyte collection and different maturation media on the nuclear maturation of oocytesin camels (Camelus dromedaries). Therioge-nology. 63: 2471-2481.
Saleh, W. M. 2017. Assessment of different methods of bovine oocytes collection, maturation and in vitro fertilization of abattoir specimens. Iraqi J. Vet. Sci. 31: 55-65.
Shirazi, A., N. Shams-Esfandabadi and S. M. Hosseini. 2005. A comparison of two recovery methods of ovine oocytes for in vitro maturation. Small Rumin. Res. 58: 283-286.
Singh, W. L., J. Sonowal, A. Das, P. M. Barua, C. Gogol, D. Mahanta, and N. Deuri. 2019. Recocery of bovine oocytes in respect of quality and quantity by using different technique. J. Entomol. Zool. Stud. 6: 250-253.
Sonowal, J., P. M. Barua, P. Borah, D. J. Dutta, G. Hazarika, and C. Gogol. 2017. Effect of α-tocopherol and I-ascorbic acid on in-vitro maturation of vitrified bovine oocytes. Int. J. Chem. Stud. 5: 1359-1362.
Totey, S. M., G. Singh, M. Teneja, and G. P. Talwar. 1992. In vitro maturation and fertilization of follicular oocytes from buffalo. J. Reprod. Fertil. 95: 597-607.
Vivian, R. A., Mendez, P. C. Eduarto, and V. L. D. Queiroz. 2018. Impairment on nuclear maturation rate in oocytes from cows naturally infected by bovine herpesvirus I (BoHV-I). Presq. Vet. Brass. 30: 2207-2212.
Wang, Z., Y. Song-dong, and X. Zi-rong. 2007. Effect of collection methods on recovery efficiency, maturation rate and subsequence embryonic developmental competence of oocytes in Holstein cow. Asian Aust. J. Anim. Sci. 20: 496-500.
Zaituni, U., Hendri, and M. Masrizal. 2018. Application of embryo transfer technology to improve fertility using GnRH plus progesterone and estradiol combination (FTAI) of local south pesisir cow in west Sumatra. IJASEIT 8: 2531-2538.
DOI: https://doi.org/10.21059/buletinpeternak.v44i2.52181
Article Metrics
Abstract views : 2797 | views : 2637Refbacks
- There are currently no refbacks.
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
Buletin Peternakan (Bulletin of Animal Science) Indexed by:
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.