Derleme
BibTex RIS Kaynak Göster

Factors influencing ovum pick-up technique results in cattle

Yıl 2024, Cilt: 8 Sayı: 1, 13 - 23, 30.04.2024
https://doi.org/10.30704/http-www-jivs-net.1403722

Öz

The Ovum Pick-Up (OPU) technique, which is used in in vitro embryo production (IVP) to retrieve immature oocytes from live donor animals, is one of the most important biotechnological procedures used in cattle breeding. The most important advantage of this technology is that it allows for the reproducible retrieval of immature oocytes from living donor animals. It is particularly useful in dairy cattle breeding to address infertility issues and boost the production of superior animals with high genetic value. The OPU technique offers several advantages, including its applicability to cows ranging from six-month-old calves to the first three months of pregnancy, its effectiveness in animals with genital tract infection or acyclic cattle, and its ability to yield a higher number of embryos within the same period compared to the Multiple Ovulation and Embryo Transfer (MOET) technique. Understanding and improving the technical and biological factors influencing the OPU procedure is necessary to increase and optimize donor animal use in IVP and the number of quality oocytes obtained. This review aims to examine the specifics of the OPU approach and the factors influencing its performance in light of contemporary literature, as well as to propose fresh ideas to researchers.

Kaynakça

  • Adams, G. P. (1999). Comparative patterns of follicle development and selection in ruminants. Journal of Reproduction and Fertility-Supplement, 17-32.
  • Adams, G. P., & Pierson, R. A. (1995). Bovine model for study of ovarian follicular dynamics in humans. Theriogenology, 43(1), 113-120.
  • Adams, G. P., & Singh, J. (2021). Ovarian follicular and luteal dynamics in cattle. In R. M. Hopper (Ed). Bovine reproduction 2nd ed. (pp. 292-323). New Jersey, USA: John Wiley & Sons, Inc.
  • Aerts, J. M. J., & Bols, P. E. J. (2010). Ovarian follicular dynamics: a review with emphasis on the bovine species. Part I: Folliculogenesis and pre‐antral follicle development. Reproduction in domestic animals, 45(1), 171-179.
  • Ali, S., Lemma, A., Degefa, T., & Jemal, J. (2021). Effect of breed, parity and frequency of collection on quality and quantity of OPU derived oocytes. World News of Natural Sciences, 34, 88-97.
  • Al-Katanani, Y. M., Paula-Lopes, F. F., & Hansen, P. J. (2002). Effect of season and exposure to heat stress on oocyte competence in Holstein cows. Journal of Dairy Science, 85(2), 390-396.
  • Aller, J. F., Mucci, N. C., Kaiser, G. G., Callejas, S. S., & Alberio, R. H. (2012). Effect of repeated eCG treatments and ovum pick-up on ovarian response and oocyte recovery during early pregnancy in suckling beef cows. Animal Reproduction Science, 133(1-2), 10-15.
  • Alvarez, P., Spicer, L. J., Chase Jr, C. C., Payton, M. E., Hamilton, T. D., Stewart, R. E., ... & Wettemann, R. P. (2000). Ovarian and endocrine characteristics during an estrous cycle in Angus, Brahman, and Senepol cows in a subtropical environment. Journal of Animal Science, 78(5), 1291-1302.
  • Armstrong, D. G., McEvoy, T. G., Baxter, G., Robinson, J. J., Hogg, C. O., Woad, K. J., ... & Sinclair, K. D. (2001). Effect of dietary energy and protein on bovine follicular dynamics and embryo production in vitro: associations with the ovarian insulin-like growth factor system. Biology of Reproduction, 64(6), 1624-1632.
  • Armstrong, D.G., Gong, J. G., & Webb, R. (2003). Interactions between nutrition and ovarian activity in cattle: physiological, cellular and molecular mechanisms. Reproduction Supplement, 61, 403-414.
  • Ax, R. L., Armbrust, S., Tappan, R., Gilbert, G., Oyarzo, J. N., Bellin, M. E., ... & McCauley, T. C. (2005). Superovulation and embryo recovery from peripubertal Holstein heifers. Animal Reproduction Science, 85(1-2), 71-80.
  • Bacelar, D., Max, M. C., Padilha, L. C., Barreiros, T. R. R., & Seneda, M. M. (2010). Enhancement of oocytes obtainment in Nelore heifers (Bos taurus indicus) treated with progesterone injection and benzoate of estradiol. Semina: Cie˜ ncias Agrárias (Londrina), 31(1), 163-172.
  • Baldassarre, H., Currin, L., Michalovic, L., Bellefleur, A. M., Gutierrez, K., Mondadori, R. G., ... & Bordignon, V. (2018). Interval of gonadotropin administration for in vitro embryo production from oocytes collected from Holstein calves between 2 and 6 months of age by repeated laparoscopy. Theriogenology, 116, 64-70.
  • Bender, R. W., Hackbart, K. S., Dresch, A. R., Carvalho, P. D., Vieira, L. M., Crump, P. M., ... & Wiltbank, M. C. (2014). Effects of acute feed restriction combined with targeted use of increasing luteinizing hormone content of follicle-stimulating hormone preparations on ovarian superstimulation, fertilization, and embryo quality in lactating dairy cows. Journal of Dairy Science, 97(2), 764-778.
  • Bergfelt, D. R., Bo, G. A., Mapletoft, R. J., & Adams, G. P. (1997). Superovulatory response following ablation-induced follicular wave emergence at random stages of the oestrous cycle in cattle. Animal Reproduction Science, 49(1), 1-12.
  • Bergfelt, D. R., Lightfoot, K. C., & Adams, G. P. (1994). Ovarian synchronization following ultrasound-guided transvaginal follicle ablation in heifers. Theriogenology, 42(6), 895-907.
  • Blondin, P., Bousquet, D., Twagiramungu, H., Barnes, F., & Sirard, M. A. (2002). Manipulation of follicular development to produce developmentally competent bovine oocytes. Biology of Reproduction, 66(1), 38-43.
  • Bó, G. A., & Mapletoft, R. J. (2014). Historical perspectives and recent research on superovulation in cattle. Theriogenology, 81(1), 38-48.
  • Bó, G. A., Baruselli, P. S., & Martı́nez, M. F. (2003). Pattern and manipulation of follicular development in Bos indicus cattle. Animal Reproduction Science, 78(3-4), 307-326.
  • Bó, G. A., Cedeño, A., & Mapletoft, R. J. (2019). Strategies to increment in vivo and in vitro embryo production and transfer in cattle. Animal Reproduction, 16, 411-422.
  • Bøgh, I. B., Brink, P., Jensen, H. E., Lehn‐Jensen, H., & Greve, T. (2003). Ovarian function and morphology in the mare after multiple follicular punctures. Equine veterinary Journal, 35(6), 575-579.
  • Bols, P. E. J. (1997). Transvaginal ovum pick-up in the cow: Technical and biological modifications. A study on technical and biological factors influencing the number and quality of bovine cumulus oocyte complexes retrieved after ultrasound-guided transvaginal ovum pick-up. PhD thesis, Ghent University, Gent, Belgium.
  • Bols, P. E. J. (1999). Pregnancies from prepubertal heifers following repeated oocyte collection and IVF between 6 to 12 months of age. Theriogenology, 51, 298.
  • Bols, P. E. J., & Stout, T. A. E. (2018). Transvaginal ultrasound-guided oocyte retrieval (OPU: Ovum pick-up) in cows and mares. In H. Niemann & C. Wrenzycki (Ed), Animal biotechnology 1: Reproductive biotech-nologies 1st ed. (pp. 209–233). Cham, Switzerland: Springer International Publishing.
  • Bols, P. E. J., Leroy, J. L. M. R., Vanholder, T., & Van Soom, A. (2004). A comparison of a mechanical sector and a linear array transducer for ultrasound-guided transvaginal oocyte retrieval (OPU) in the cow. Theriogenology, 62(5), 906-914.
  • Bols, P. E. J., Van Soom, A., Ysebaert, M. T., Vandenheede, J. M. M., & de Kruif, A. (1996). Effects of aspiration vacuum and needle diameter on cumulus oocyte complex morphology and developmental capacity of bovine oocytes. Theriogenology, 45(5), 1001-1014.
  • Bols, P. E. J., Vandenheede, J. M. M., Van Soom, A., & de Kruif, A. (1995). Transvaginal ovum pick-up (OPU) in the cow: a new disposable needle guidance system. Theriogenology, 43(3), 677-687.
  • Boni, R. (2012). Ovum pick-up in cattle–a 25-yr retrospective analysis. Animal Reproduction, 9(3), 362-369.
  • Borş, S. I., Ibanescu, I., Creangă, Ş., Dascălu, L., & Borş, A. (2018). Follicle deviation and oocyte recovering by ovum pick-up from endangered Romanian Grey cows. Romanian Biotechnological Letters, 23(5), 13918.
  • Camargo, L. D. A., Viana, J. H. M., Sá, W. F. D., Ferreira, A. D. M., Ramos, A. D. A., & Vale Filho, V. R. (2006). Factors influencing in vitro embryo production. Animal Reproduction (AR), 3(1), 19-28.
  • Cavalieri, F. L. B., Morotti, F., Seneda, M. M., Colombo, A. H. B., Andreazzi, M. A., Emanuelli, I. P., & Rigolon, L. P. (2018). Improvement of bovine in vitro embryo production by ovarian follicular wave synchronization prior to ovum pick-up. Theriogenology, 117, 57-60.
  • Chaubal, S. A., Ferre, L. B., Molina, J. A., Faber, D. C., Bols, P. E. J., Rezamand, P., ... & Yang, X. (2007). Hormonal treatments for increasing the oocyte and embryo production in an OPU–IVP system. Theriogenology, 67(4), 719-728.
  • Cho, M. M., McGovern, P. G., & Colon, J. M. (2004). Vaginal perforation during transvaginal ultrasound-guided follicle aspiration in a woman undergoing multiple cycles of assisted reproduction. Fertility and Sterility, 81(6), 1695-1696.
  • Choudhary, K. K., Kavya, K. M., Jerome, A., & Sharma, R. K. (2016). Advances in Reproductive Biotechnologies. Veterinary World, 9(4), 388.
  • Çiftçi M. F., (2022). Ovum pick up (OPU) by transvaginal ultrasonography in cattle. In: RZ Abbas, A Khan, P Liu and MK Saleemi (Ed), Animal Health Perspectives (Vol. I, pp: 180-186), Faisalabad, Pakistan: Unique Scientific Publishers.
  • Çiftçi, M. F., & Dinç, D. A. (2023). The Effect of Different FSH Administration Before Ovum Pick Up on Superstimulation Response and Oocyte Yield. Reproduction in Domestic Animals, 58, 1055–1062.
  • Çizmeci, S. Ü., (2022, March 24-27). Ovum pick up and In vitro embryo production. Turkish Society of Veterinary Gynecology Congress of 9th National & 3rd International, Antalya, Türkiye.
  • Çizmeci, S. Ü., Dinc, D. A., Yesilkaya, O. F., Ciftci, M. F., Takcı, A., & Bucak, M. N. (2022). Effects of heat-stress on oocyte number and quality and in vitro embryo production in Holstein heifers. Acta Scientiae Veterinariae, 50, 1870.
  • Cushman, R. A., Allan, M. F., Kuehn, L. A., Snelling, W. M., Cupp, A. S., & Freetly, H. C. (2009). Evaluation of antral follicle count and ovarian morphology in crossbred beef cows: Investigation of influence of stage of the estrous cycle, age, and birth weight. Journal of Animal Science, 87(6), 1971-1980.
  • Da Silva, C. B., Machado, F. Z., González, S. M., & Seneda, M. M. (2016). Ovum Pick-Up. Recent Trends in Biotechnology. Biotechnology of Animal Reproduction, 157-169.
  • da Silva, J. C. B., Ferreira, R. M., Maturana Filho, M., de Rezende Naves, J., Santin, T., Pugliesi, G., & Madureira, E. H. (2017). Use of FSH in two different regimens for ovarian superstimulation prior to ovum pick up and in vitro embryo production in Holstein cows. Theriogenology, 90, 65-73.
  • de Carvalho, J. G. S., de Carvalho, N. A. T., Bayeux, B. M., Watanabe, Y. F., Watanabe, O. Y., Mingoti, R. D., & Baruselli, P. S. (2019). Superstimulation prior to the ovum pick-up improves the in vitro embryo production in nulliparous, primiparous and multiparous buffalo (Bubalus bubalis) donors. Theriogenology, 138, 164-168.
  • de Loos, F., Van Vliet, C., van Maurik, P. V., & Kruip, T. A. (1989). Morphology of immature bovine oocytes. Gamete Research, 24(2), 197-204.
  • De Rensis, F., & Scaramuzzi, R. J. (2003). Heat stress and seasonal effects on reproduction in the dairy cow—a review. Theriogenology, 60(6), 1139-1151.
  • De Rensis, F., Saleri, R., Garcia-Ispierto, I., Scaramuzzi, R., & López-Gatius, F. (2021). Effects of heat stress on follicular physiology in dairy cows. Animals, 11(12), 3406.
  • De Roover, R., Feugang, J. M. N., Bols, P. E. J., Genicot, G., & Hanzen, C. H. (2008). Effects of ovum pick‐up frequency and FSH stimulation: a retrospective study on seven years of beef cattle in vitro embryo production. Reproduction in Domestic Animals, 43(2), 239-245.
  • Demetrio, D. G. B., Benedetti, E., Demetrio, C. G. B., Fonseca, J., Oliveira, M., Magalhaes, A., & Santos, R. M. D. (2020). How can we improve embryo production and pregnancy outcomes of Holstein embryos produced in vitro?(12 years of practical results at a California dairy farm). Animal Reproduction, 17, 1-13.
  • Diskin, M. G., Mackey, D. R., Roche, J. F., & Sreenan, J. M. (2003). Effects of nutrition and metabolic status on circulating hormones and ovarian follicle development in cattle. Animal Reproduction Science, 78(3-4), 345-370.
  • Dominguez, M. M. (1995). Effects of body condition, reproductive status and breed on follicular population and oocyte quality in cows. Theriogenology, 43(8), 1405-1418.
  • Dos Santos, G. M. G., Silva-Santos, K. C., Barreiros, T. R. R., Morotti, F., Sanches, B. V., de Moraes, F. L. Z., ... & Seneda, M. M. (2016). High numbers of antral follicles are positively associated with in vitro embryo production but not the conception rate for FTAI in Nelore cattle. Animal Reproduction Science, 165, 17-21.
  • Duby, R. T., Damiani, P., Looney, C. R., Fissore, R. A., & Robl, J. M. (1996). Prepuberal calves as oocyte donors: promises and problems. Theriogenology, 45(1), 121-130.
  • Fernandes, T., Adona, P. R., Guemra, S., BEM, T. H. C. D., & Miranda, M. D. S. (2020). Oocyte recovery and in vitro embryo production in cows treated with a single dose offollicle-stimulating hormone. Turkish Journal of Veterinary & Animal Sciences, 44(1), 151-155.
  • Ferré, L. B., Kjelland, M. E., Strøbech, L. B., Hyttel, P., Mermillod, P., & Ross, P. J. (2019). Recent advances in bovine in vitro embryo production: reproductive biotechnology history and methods. Animal, 14(5), 991-1004.
  • Ferreira, R. M., Ayres, H., Chiaratti, M. R., Ferraz, M. L., Araújo, A. B., Rodrigues, C. A., ... & Baruselli, P. S. (2011). The low fertility of repeat-breeder cows during summer heat stress is related to a low oocyte competence to develop into blastocysts. Journal of Dairy Science, 94(5), 2383-2392.
  • Figueiredo, R. A., Barros, C. M., Pinheiro, O. L., & Soler, J. M. P. (1997). Ovarian follicular dynamics in Nelore breed (Bos indicus) cattle. Theriogenology, 47(8), 1489-1505.
  • Fry, R. C., Niall, E. M., Simpson, T. L., Squires, T. J., & Reynolds, J. (1996). The collection of oocytes from bovine ovaries. Theriogenology, 47(5), 977-987.
  • Galli, C., Duchi, R., Colleoni, S., Lagutina, I., & Lazzari, G. (2014). Ovum pick up, intracytoplasmic sperm injection and somatic cell nuclear transfer in cattle, buffalo and horses: from the research laboratory to clinical practice. Theriogenology, 81(1), 138-151.
  • Gimenes, L. U., Ferraz, M. L., Fantinato-Neto, P., Chiaratti, M. R., Mesquita, L. G., Sá Filho, M. F., ... & Baruselli, P. S. (2015). The interval between the emergence of pharmacologically synchronized ovarian follicular waves and ovum pickup does not significantly affect in vitro embryo production in Bos indicus, Bos taurus, and Bubalus bubalis. Theriogenology, 83(3), 385-393.
  • Gonįalves, G. D., da Silva, N. C., Costa, C. B., Stolf, R. L., de Almeida Rossignolo, E. A., Cavalieri, F. L. B., ... & Seneda, M. M. (2022). Relationship between the time of OPU and in vitro embryo production. Animal Reproduction, 19(2), e22077.
  • Goodhand, K. L., Watt, R. G., Staines, M. E., Hutchinson, J. S. M., & Broadbent, P. J. (1999). In vivo oocyte recovery and in vitro embryo production from bovine donors aspirated at different frequencies or following FSH treatment. Theriogenology, 51(5), 951-961.
  • Hasler, J. F. (1998). The current status of oocyte recovery, in vitro embryo production, and embryo transfer in domestic animals, with an emphasis on the bovine. Journal of Animal Science, 76, 52-74.
  • Hendriksen, P. J. M., Steenweg, W. N. M., Harkema, J. C., Merton, J. S., Bevers, M. M., Vos, P. L. A. M., & Dieleman, S. J. (2004). Effect of different stages of the follicular wave on in vitro developmental competence of bovine oocytes. Theriogenology, 61(5), 909-920.
  • Hidaka, T., Fukumoto, Y., Yamamoto, Y., Ogata, Y., & Horiuchi, T. (2018). Estradiol benzoate treatment before ovum pick-up increases the number of good quality oocytes retrieved and improves the production of transferable embryos in Japanese Black cattle. Veterinary and Animal Science, 5, 1-6.
  • Kaya, A., Güneş, E., & Memili, E. (2018). Application of reproductive biotechnologies for sustainableproduction of livestock in Turkey. Turkish Journal of Veterinary & Animal Sciences, 42(3), 143-151.
  • Kimble, L. N. (2020). Reproductive Strategies for Dairy Herd Improvement – MOET or OPU-IVF?. Dairy Pipeline, 41(2), 2.
  • Kruip, T. A., Boni, R., Wurth, Y. A., Roelofsen, M. W. M., & Pieterse, M. C. (1994). Potential use of ovum pick-up for embryo production and breeding in cattle. Theriogenology, 42(4), 675-684.
  • Kruip, T. A., Moor, R. M., & Green, D. (1984). Intraovarian control of folliculogenesis: limits to superovulation?. Theriogenology, 21(1), 103-116.
  • Landry, D. A., Bellefleur, A. M., Labrecque, R., Grand, F. X., Vigneault, C., Blondin, P., & Sirard, M. A. (2016). Effect of cow age on the in vitro developmental competence of oocytes obtained after FSH stimulation and coasting treatments. Theriogenology, 86(5), 1240-1246.
  • Looney, C. R. (1986). Superovulation in beef females. In Proceedings of 5th Annual Convention of AETA (Vol. 1986, pp. 16-29), Fort Worth, Texas: USA.
  • Looney, C. R., Lindsey, B. R., Gonseth, C. L., & Johnson, D. L. (1994). Commercial aspects of oocyte retrieval and in vitro fertilization (IVF) for embryo production in problem cows. Theriogenology, 41(1), 67-72.
  • López, S. R. (2020). Ovum Pick-Up (OPU) in Cattle: An Update. In Biotechnologies Applied to Animal Reproduction (pp. 139-183). New York, USA: Apple Academic Press.
  • Mapletoft, R. J., Guerra, A. G., Dias, F. C. F., Singh, J., & Adams, G. P. (2015). In vitro and in vivo embryo production in cattle superstimulated with FSH for 7 days. Animal Reproduction (AR), 12(3), 383-388.
  • Mapletoft, R. J., Steward, K. B., & Adams, G. P. (2002). Recent advances in the superovulation in cattle. Reproduction Nutrition Development, 42(6), 601-611.
  • Martins, A., Takada Jr, L., Abrahão, R. G., Freitas, C. P., & Calegari, R. S. (2007). Follicular aspiration of calves oocytes by videoendoscopy: a successful approach to maximize in vitro bovine embryo production. Acta Scientiae Veterinariae, 35, 1194.
  • McEvoy, T. G., Alink, F. M., Moreira, V. C., Watt, R. G., & Powell, K. A. (2006). Embryo technologies and animal health–consequences for the animal following ovum pick-up, in vitro embryo production and somatic cell nuclear transfer. Theriogenology, 65(5), 926-942.
  • McEvoy, T. G., Thompson, H., Dolman, D. F., Watt, R. G., Reis, A., & Staines, M. E. (2002). Effects of epidural injections and transvaginal aspiration of ovarian follicles in heifers used repeatedly for ultrasound‐guided retrieval of ova and embryo production. Veterinary Record, 151(22), 653-658.
  • Merton, J. S., De Roos, A. P. W., Mullaart, E., De Ruigh, L., Kaal, L., Vos, P. L. A. M., & Dieleman, S. J. (2003). Factors affecting oocyte quality and quantity in commercial application of embryo technologies in the cattle breeding industry. Theriogenology, 59(2), 651-674.
  • Murphy, B. D., & Martinuk, S. D. (1991). Equine chorionic gonadotropin. Endocrine Reviews, 12(1), 27-44. Nasser, L. F., Sá Filho, M. F. D., Reis, E. L., Rezende, C. R., Mapletoft, R. J., Bó, G. A., & Baruselli, P. S. (2011). Exogenous progesterone enhances ova and embryo quality following superstimulation of the first follicular wave in Nelore (Bos indicus) donors. Theriogenology, 76(2), 320-327.
  • Nivet, A. L., Bunel, A., Labrecque, R., Belanger, J., Vigneault, C., Blondin, P., & Sirard, M. A. (2012). FSH withdrawal improves developmental competence of oocytes in the bovine model. Reproduction, 143(2), 165.
  • Nolan, R., Duffy, P., Wade, M., G’callaghat, D., & Boland, M. P. (1998). Effect Of Quantlty And Type Of Diet And Frequency Of Trans-Vaginal Ovum Aspiration On In-Vitro Embryo Development In Heifers, Theriogenology, 49, 402(abstract).
  • Ogata, Y., Hidaka, T., Matzushige, T., & Maeda, T. (2015). Comparison of two biopsy methods in bovine embryos. Journal of Advances in Biology & Biotechnology, 2(1), 16-23.
  • Ongaratto, F. L., Cedeño, A. V., Rodriguez-Villamil, P., Tríbulo, A., & Bó, G. A. (2020). Effect of FSH treatment on cumulus oocyte complex recovery by ovum pick up and in vitro embryo production in beef donor cows. Animal Reproduction Science, 214, 106274.
  • Ongaratto, F. L., Rodriguez-Villamil, P., Tribulo, A., & Bó, G. A. (2015). Effect of follicle wave synchronization and gonadotropin treatments on the number and quality of cumulus-oocyte complex obtained by ultrasound-guided ovum pick-up in beef cattle. Animal Reproduction (AR), 12(4), 876-883.
  • Ongaratto, F. L., Tríbulo, A., Ramos, M., Rodriguez, P., & Bó, G. A. (2010). 207 Oocyte Recovery Rates And In Vitro Blastocyst Production In Cattle Treated With A Single Injection Of Folltropin-V Diluted In A Slow-Release Formulation. Reproduction, Fertility and Development, 23(1), 202-203.
  • Petyim, S., Båge, R., Madej, A., & Larsson, B. (2007). Ovum pick‐up in dairy heifers: does it affect animal well‐being?. Reproduction in Domestic Animals, 42(6), 623-632.
  • Pieterse, M. C., Kappen, K. A., Kruip, T. A., & Taverne, M. A. M. (1988). Aspiration of bovine oocytes during transvaginal ultrasound scanning of the ovaries. Theriogenology, 30(4), 751-762.
  • Pieterse, M. C., Vos, P. L. A. M., Kruip, T. A., Wurth, Y. A., Van Beneden, T. H., Willemse, A. H., & Taverne, M. A. M. (1991). Transvaginal ultrasound guided follicular aspiration of bovine oocytes. Theriogenology, 35(1), 19-24.
  • Pontes, J. H. F., Silva, K. C. F., Basso, A. C., Rigo, A. G., Ferreira, C. R., Santos, G. M. G., ... & Seneda, M. M. (2010). Large-scale in vitro embryo production and pregnancy rates from Bos taurus, Bos indicus, and indicus-taurus dairy cows using sexed sperm. Theriogenology, 74(8), 1349-1355.
  • Pontes, J. H. F., Sterza, F. M., Basso, A. C., Ferreira, C. R., Sanches, B. V., Rubin, K. C. P., & Seneda, M. M. (2011). Ovum pick up, in vitro embryo production, and pregnancy rates from a large-scale commercial program using Nelore cattle (Bos indicus) donors. Theriogenology, 75(9), 1640-1646.
  • Qi, M., Yao, Y., Ma, H., Wang, J., Zhao, X., Liu, L., ... & Sun, F. (2013). Transvaginal ultrasound-guided ovum pick-up (OPU) in cattle. J. Biomim. Biomater. Tissue Engineering , 18(2), 1000118.
  • Rath, D. (1993). Current status of ultrasound-guided retrieval of bovine oocytes. Embryo Transfer Newsletter, 11, 10-15.
  • Ribas, B. N., Missio, D., Roman, I. J., Neto, N. A., Junior, I. C., dos Santos Brum, D., & Leivas, F. G. (2018). Superstimulation with eCG prior to ovum pick-up improves follicular development and fertilization rate of cattle oocytes. Animal Reproduction Science, 195, 284-290.
  • Rivera, F. A., Mendonça, L. G., Lopes, G., Santos, J. E., Perez, R. V., Amstalden, M., ... & Chebel, R. C. (2011). Reduced progesterone concentration during growth of the first follicular wave affects embryo quality but has no effect on embryo survival post transfer in lactating dairy cows. Reproduction, 141(3), 333.
  • Roth, Z., Arav, A., Bor, A., Zeron, Y., Braw-Tal, R., & Wolfenson, D. (2001). Improvement of quality of oocytes collected in the autumn by enhanced removal of impaired follicles from previously heat-stressed cows. Reproduction-Cambridge-, 122(5), 737-744.
  • Rubin, K. C. P., Pontes, J. H. F., Nonato Jr, I., Ereno Jr, J. C., Pansard, H., & Seneda, M. M. (2005). Influence of Nelore blood on the in vivo production of oocytes. Acta Scientiae Veterinariae, 33, 183.
  • Ruiz, L. L., Alvarez, N., Nuñez, I., Montes, I., Solano, R., Fuentes, D., ... & Brem, G. (1996). Effect of body condition on the developmental competence of IVM/IVF bovine oocytes. Theriogenology, 1(45), 292.
  • Sales, J. N. D. S., Iguma, L. T., Batista, R. I. T. P., Quintão, C. C. R., Gama, M. A. S., Freitas, C., ... & Baruselli, P. S. (2015). embryo production in Bos indicus and Bos taurus cows. Journal of Dairy Science, 98(5), 3086-3099.
  • Sartori, R., Bastos, M. R., & Mattos, M. C. C. (2010b). Physiological bases for understanding estrous cycle differences between Bos taurus and Bos indicus. Acta Scientiae Veterinariae, 38(2), 277-315.
  • Sartori, R., Bastos, M. R., Baruselli, P. S., Gimenes, L. U., Ereno, R. L., & Barros, C. M. (2010a). Physiological differences and implications to reproductive management of Bos taurus and Bos indicus cattle in a tropical environment. Reprod in Domestic Ruminants, 7, 357.
  • Sartori, R., Guardieiro, M. M., Surjus, R. S., Melo, L. F., Prata, A. B., Ishiguro, M., ... & Nascimento, A. B. (2018a). Metabolic hormones and reproductive function in cattle. Animal Reproduction (AR), 10(3), 199-205.
  • Sartori, R., Monteiro Jr, P. L. J., & Wiltbank, M. C. (2018b). Endocrine and metabolic differences between Bos taurus and Bos indicus cows and implications for reproductive management. Animal Reproduction (AR), 13(3), 168-181.
  • Sartori, R., Spies, C., & Wiltbank, M. C. (2017). Effects of dry matter and energy intake on quality of oocytes and embryos in ruminants. Reproduction, Fertility and Development, 29(1), 58-65.
  • Seneda, M. M., Esper, C. R., Garcia, J. M., de Oliveira, J. A., & Vantini, R. (2001). Relationship between follicle size and ultrasound-guided transvaginal oocyte recovery. Animal Reproduction Science, 67(1-2), 37-43.
  • Seneda, M. M., Zangirolamo, A. F., Bergamo, L. Z., & Morotti, F. (2020). Follicular wave synchronization prior to ovum pick-up. Theriogenology, 150, 180-185.
  • Singh, J., Adams, G. P., & Pierson, R. A. (2003). Promise of new imaging technologies for assessing ovarian function. Animal Reproduction Science, 78(3-4), 371-399.
  • Sirard, M. A. (2012). Factors affecting oocyte and embryo transcriptomes. Reproduction in Domestic Animals, 47, 148-155.
  • Sirard, M. A. (2018). 40 years of bovine IVF in the new genomic selection context. Reproduction, 156(1), R1-R7. Takuma, T., Sakai, S., Ezoe, D., Ichimaru, H., Jinnouchi, T., Kaedei, Y., ... & Otoi, T. (2010). Effects of season and reproductive phase on the quality, quantity and developmental competence of oocytes aspirated from Japanese black cows. Journal of Reproduction and Development, 56(1), 55-59.
  • Thibier, M. (2004). Stabilization of numbers of in vivo collected embryos in cattle but significant increases of in vitro bovine produced embryos in some parts of the world. IETS Newslett, 22, 12-19.
  • Vassena, R., Mapletoft, R. J., Allodi, S., Singh, J., & Adams, G. P. (2003). Morphology and developmental competence of bovine oocytes relative to follicular status. Theriogenology, 60(5), 923-932.
  • Viana, J. (2021). 2020 statistics of embryo production and transfer in domestic farm animals: world embryo industry grows despite the pandemic. Embryo Technol Newsl, 39, 24-38.
  • Viana, J. (2022). 2021 Statistics of embryo production and transfer in domestic farm animals. Embryo Technology Newsletter, 40(4), 22-40.
  • Viana, J. H. M., Nascimento, A. A., Pinheiro, N. L., Ferreira, A. M., Camargo, L. S., Sá, W. F., & Marques Júnior, A. P. (2003). Characterization of tissue damages after ovum pick-up in bovine. Pesquisa Veterinária Brasileira, 23, 119-124.
  • Viana, J. H. M., Palhao, M. P., Siqueira, L. G. B., Fonseca, J. F. D., & Camargo, L. D. A. (2010). Ovarian follicular dynamics, follicle deviation, and oocyte yield in Gyr breed (Bos indicus) cows undergoing repeated ovum pick-up. Theriogenology, 73(7), 966-972.
  • Vieira, L. M., Rodrigues, C. A., Netto, A. C., Guerreiro, B. M., Silveira, C. R. A., Moreira, R. J. C., ... & Baruselli, P. S. (2014). Superstimulation prior to the ovum pick-up to improve in vitro embryo production in lactating and non-lactating Holstein cows. Theriogenology, 82(2), 318-324.
  • Vieira, L. M., Rodrigues, C. A., Netto, A. C., Guerreiro, B. M., Silveira, C. R. A., Freitas, B. G., ... & Baruselli, P. S. (2016). Efficacy of a single intramuscular injection of porcine FSH in hyaluronan prior to ovum pick-up in Holstein cattle. Theriogenology, 85(5), 877-886.
  • Ward, F. A., Lonergan, P., Enright, B. P., & Boland, M. P. (2000). Factors affecting recovery and quality of oocytes for bovine embryo production in vitro using ovum pick-up technology. Theriogenology, 54(3), 433-446.
  • Watanabe, Y. F., de Souza, A. H., Mingoti, R. D., Ferreira, R. M., Batista, E. O. S., Dayan, A., ... & Baruselli, P. S. (2017). Number of oocytes retrieved per donor during OPU and its relationship with in vitro embryo production and field fertility following embryo transfer. Animal Reproduction (AR), 14(3), 635-644.
  • Wrenzycki, C. (2018). In vitro production of (Farm) animal embryos. In H. Niemann & C. Wrenzycki (Ed). Animal Biotechnology 1: Reproductive Biotechnologies (pp. 269-304). Cham, Switzerland: Springer International Publishing.
  • Younis, J. S., Ezra, Y., Laufer, N., & Ohel, G. (1997). Late manifestation of pelvic abscess following oocyte retrieval, for in vitro fertilization, in patients with severe endometriosis and ovarian endometriomata. Journal of Assisted Reproduction and Genetics, 14, 343-346.
  • Zacarias, T. A., Kawamoto, T. S., Júnior, J. R. S., Guimarães, A. L. S., Franco, M. M., & Figueiredo, R. A. (2018). Hormonal stimulation in 4 to 7 months old Nelore (Bos taurus indicus) females improved ovarian follicular responses but not the in vitro embryo production. Theriogenology, 118, 130-136.
Yıl 2024, Cilt: 8 Sayı: 1, 13 - 23, 30.04.2024
https://doi.org/10.30704/http-www-jivs-net.1403722

Öz

Kaynakça

  • Adams, G. P. (1999). Comparative patterns of follicle development and selection in ruminants. Journal of Reproduction and Fertility-Supplement, 17-32.
  • Adams, G. P., & Pierson, R. A. (1995). Bovine model for study of ovarian follicular dynamics in humans. Theriogenology, 43(1), 113-120.
  • Adams, G. P., & Singh, J. (2021). Ovarian follicular and luteal dynamics in cattle. In R. M. Hopper (Ed). Bovine reproduction 2nd ed. (pp. 292-323). New Jersey, USA: John Wiley & Sons, Inc.
  • Aerts, J. M. J., & Bols, P. E. J. (2010). Ovarian follicular dynamics: a review with emphasis on the bovine species. Part I: Folliculogenesis and pre‐antral follicle development. Reproduction in domestic animals, 45(1), 171-179.
  • Ali, S., Lemma, A., Degefa, T., & Jemal, J. (2021). Effect of breed, parity and frequency of collection on quality and quantity of OPU derived oocytes. World News of Natural Sciences, 34, 88-97.
  • Al-Katanani, Y. M., Paula-Lopes, F. F., & Hansen, P. J. (2002). Effect of season and exposure to heat stress on oocyte competence in Holstein cows. Journal of Dairy Science, 85(2), 390-396.
  • Aller, J. F., Mucci, N. C., Kaiser, G. G., Callejas, S. S., & Alberio, R. H. (2012). Effect of repeated eCG treatments and ovum pick-up on ovarian response and oocyte recovery during early pregnancy in suckling beef cows. Animal Reproduction Science, 133(1-2), 10-15.
  • Alvarez, P., Spicer, L. J., Chase Jr, C. C., Payton, M. E., Hamilton, T. D., Stewart, R. E., ... & Wettemann, R. P. (2000). Ovarian and endocrine characteristics during an estrous cycle in Angus, Brahman, and Senepol cows in a subtropical environment. Journal of Animal Science, 78(5), 1291-1302.
  • Armstrong, D. G., McEvoy, T. G., Baxter, G., Robinson, J. J., Hogg, C. O., Woad, K. J., ... & Sinclair, K. D. (2001). Effect of dietary energy and protein on bovine follicular dynamics and embryo production in vitro: associations with the ovarian insulin-like growth factor system. Biology of Reproduction, 64(6), 1624-1632.
  • Armstrong, D.G., Gong, J. G., & Webb, R. (2003). Interactions between nutrition and ovarian activity in cattle: physiological, cellular and molecular mechanisms. Reproduction Supplement, 61, 403-414.
  • Ax, R. L., Armbrust, S., Tappan, R., Gilbert, G., Oyarzo, J. N., Bellin, M. E., ... & McCauley, T. C. (2005). Superovulation and embryo recovery from peripubertal Holstein heifers. Animal Reproduction Science, 85(1-2), 71-80.
  • Bacelar, D., Max, M. C., Padilha, L. C., Barreiros, T. R. R., & Seneda, M. M. (2010). Enhancement of oocytes obtainment in Nelore heifers (Bos taurus indicus) treated with progesterone injection and benzoate of estradiol. Semina: Cie˜ ncias Agrárias (Londrina), 31(1), 163-172.
  • Baldassarre, H., Currin, L., Michalovic, L., Bellefleur, A. M., Gutierrez, K., Mondadori, R. G., ... & Bordignon, V. (2018). Interval of gonadotropin administration for in vitro embryo production from oocytes collected from Holstein calves between 2 and 6 months of age by repeated laparoscopy. Theriogenology, 116, 64-70.
  • Bender, R. W., Hackbart, K. S., Dresch, A. R., Carvalho, P. D., Vieira, L. M., Crump, P. M., ... & Wiltbank, M. C. (2014). Effects of acute feed restriction combined with targeted use of increasing luteinizing hormone content of follicle-stimulating hormone preparations on ovarian superstimulation, fertilization, and embryo quality in lactating dairy cows. Journal of Dairy Science, 97(2), 764-778.
  • Bergfelt, D. R., Bo, G. A., Mapletoft, R. J., & Adams, G. P. (1997). Superovulatory response following ablation-induced follicular wave emergence at random stages of the oestrous cycle in cattle. Animal Reproduction Science, 49(1), 1-12.
  • Bergfelt, D. R., Lightfoot, K. C., & Adams, G. P. (1994). Ovarian synchronization following ultrasound-guided transvaginal follicle ablation in heifers. Theriogenology, 42(6), 895-907.
  • Blondin, P., Bousquet, D., Twagiramungu, H., Barnes, F., & Sirard, M. A. (2002). Manipulation of follicular development to produce developmentally competent bovine oocytes. Biology of Reproduction, 66(1), 38-43.
  • Bó, G. A., & Mapletoft, R. J. (2014). Historical perspectives and recent research on superovulation in cattle. Theriogenology, 81(1), 38-48.
  • Bó, G. A., Baruselli, P. S., & Martı́nez, M. F. (2003). Pattern and manipulation of follicular development in Bos indicus cattle. Animal Reproduction Science, 78(3-4), 307-326.
  • Bó, G. A., Cedeño, A., & Mapletoft, R. J. (2019). Strategies to increment in vivo and in vitro embryo production and transfer in cattle. Animal Reproduction, 16, 411-422.
  • Bøgh, I. B., Brink, P., Jensen, H. E., Lehn‐Jensen, H., & Greve, T. (2003). Ovarian function and morphology in the mare after multiple follicular punctures. Equine veterinary Journal, 35(6), 575-579.
  • Bols, P. E. J. (1997). Transvaginal ovum pick-up in the cow: Technical and biological modifications. A study on technical and biological factors influencing the number and quality of bovine cumulus oocyte complexes retrieved after ultrasound-guided transvaginal ovum pick-up. PhD thesis, Ghent University, Gent, Belgium.
  • Bols, P. E. J. (1999). Pregnancies from prepubertal heifers following repeated oocyte collection and IVF between 6 to 12 months of age. Theriogenology, 51, 298.
  • Bols, P. E. J., & Stout, T. A. E. (2018). Transvaginal ultrasound-guided oocyte retrieval (OPU: Ovum pick-up) in cows and mares. In H. Niemann & C. Wrenzycki (Ed), Animal biotechnology 1: Reproductive biotech-nologies 1st ed. (pp. 209–233). Cham, Switzerland: Springer International Publishing.
  • Bols, P. E. J., Leroy, J. L. M. R., Vanholder, T., & Van Soom, A. (2004). A comparison of a mechanical sector and a linear array transducer for ultrasound-guided transvaginal oocyte retrieval (OPU) in the cow. Theriogenology, 62(5), 906-914.
  • Bols, P. E. J., Van Soom, A., Ysebaert, M. T., Vandenheede, J. M. M., & de Kruif, A. (1996). Effects of aspiration vacuum and needle diameter on cumulus oocyte complex morphology and developmental capacity of bovine oocytes. Theriogenology, 45(5), 1001-1014.
  • Bols, P. E. J., Vandenheede, J. M. M., Van Soom, A., & de Kruif, A. (1995). Transvaginal ovum pick-up (OPU) in the cow: a new disposable needle guidance system. Theriogenology, 43(3), 677-687.
  • Boni, R. (2012). Ovum pick-up in cattle–a 25-yr retrospective analysis. Animal Reproduction, 9(3), 362-369.
  • Borş, S. I., Ibanescu, I., Creangă, Ş., Dascălu, L., & Borş, A. (2018). Follicle deviation and oocyte recovering by ovum pick-up from endangered Romanian Grey cows. Romanian Biotechnological Letters, 23(5), 13918.
  • Camargo, L. D. A., Viana, J. H. M., Sá, W. F. D., Ferreira, A. D. M., Ramos, A. D. A., & Vale Filho, V. R. (2006). Factors influencing in vitro embryo production. Animal Reproduction (AR), 3(1), 19-28.
  • Cavalieri, F. L. B., Morotti, F., Seneda, M. M., Colombo, A. H. B., Andreazzi, M. A., Emanuelli, I. P., & Rigolon, L. P. (2018). Improvement of bovine in vitro embryo production by ovarian follicular wave synchronization prior to ovum pick-up. Theriogenology, 117, 57-60.
  • Chaubal, S. A., Ferre, L. B., Molina, J. A., Faber, D. C., Bols, P. E. J., Rezamand, P., ... & Yang, X. (2007). Hormonal treatments for increasing the oocyte and embryo production in an OPU–IVP system. Theriogenology, 67(4), 719-728.
  • Cho, M. M., McGovern, P. G., & Colon, J. M. (2004). Vaginal perforation during transvaginal ultrasound-guided follicle aspiration in a woman undergoing multiple cycles of assisted reproduction. Fertility and Sterility, 81(6), 1695-1696.
  • Choudhary, K. K., Kavya, K. M., Jerome, A., & Sharma, R. K. (2016). Advances in Reproductive Biotechnologies. Veterinary World, 9(4), 388.
  • Çiftçi M. F., (2022). Ovum pick up (OPU) by transvaginal ultrasonography in cattle. In: RZ Abbas, A Khan, P Liu and MK Saleemi (Ed), Animal Health Perspectives (Vol. I, pp: 180-186), Faisalabad, Pakistan: Unique Scientific Publishers.
  • Çiftçi, M. F., & Dinç, D. A. (2023). The Effect of Different FSH Administration Before Ovum Pick Up on Superstimulation Response and Oocyte Yield. Reproduction in Domestic Animals, 58, 1055–1062.
  • Çizmeci, S. Ü., (2022, March 24-27). Ovum pick up and In vitro embryo production. Turkish Society of Veterinary Gynecology Congress of 9th National & 3rd International, Antalya, Türkiye.
  • Çizmeci, S. Ü., Dinc, D. A., Yesilkaya, O. F., Ciftci, M. F., Takcı, A., & Bucak, M. N. (2022). Effects of heat-stress on oocyte number and quality and in vitro embryo production in Holstein heifers. Acta Scientiae Veterinariae, 50, 1870.
  • Cushman, R. A., Allan, M. F., Kuehn, L. A., Snelling, W. M., Cupp, A. S., & Freetly, H. C. (2009). Evaluation of antral follicle count and ovarian morphology in crossbred beef cows: Investigation of influence of stage of the estrous cycle, age, and birth weight. Journal of Animal Science, 87(6), 1971-1980.
  • Da Silva, C. B., Machado, F. Z., González, S. M., & Seneda, M. M. (2016). Ovum Pick-Up. Recent Trends in Biotechnology. Biotechnology of Animal Reproduction, 157-169.
  • da Silva, J. C. B., Ferreira, R. M., Maturana Filho, M., de Rezende Naves, J., Santin, T., Pugliesi, G., & Madureira, E. H. (2017). Use of FSH in two different regimens for ovarian superstimulation prior to ovum pick up and in vitro embryo production in Holstein cows. Theriogenology, 90, 65-73.
  • de Carvalho, J. G. S., de Carvalho, N. A. T., Bayeux, B. M., Watanabe, Y. F., Watanabe, O. Y., Mingoti, R. D., & Baruselli, P. S. (2019). Superstimulation prior to the ovum pick-up improves the in vitro embryo production in nulliparous, primiparous and multiparous buffalo (Bubalus bubalis) donors. Theriogenology, 138, 164-168.
  • de Loos, F., Van Vliet, C., van Maurik, P. V., & Kruip, T. A. (1989). Morphology of immature bovine oocytes. Gamete Research, 24(2), 197-204.
  • De Rensis, F., & Scaramuzzi, R. J. (2003). Heat stress and seasonal effects on reproduction in the dairy cow—a review. Theriogenology, 60(6), 1139-1151.
  • De Rensis, F., Saleri, R., Garcia-Ispierto, I., Scaramuzzi, R., & López-Gatius, F. (2021). Effects of heat stress on follicular physiology in dairy cows. Animals, 11(12), 3406.
  • De Roover, R., Feugang, J. M. N., Bols, P. E. J., Genicot, G., & Hanzen, C. H. (2008). Effects of ovum pick‐up frequency and FSH stimulation: a retrospective study on seven years of beef cattle in vitro embryo production. Reproduction in Domestic Animals, 43(2), 239-245.
  • Demetrio, D. G. B., Benedetti, E., Demetrio, C. G. B., Fonseca, J., Oliveira, M., Magalhaes, A., & Santos, R. M. D. (2020). How can we improve embryo production and pregnancy outcomes of Holstein embryos produced in vitro?(12 years of practical results at a California dairy farm). Animal Reproduction, 17, 1-13.
  • Diskin, M. G., Mackey, D. R., Roche, J. F., & Sreenan, J. M. (2003). Effects of nutrition and metabolic status on circulating hormones and ovarian follicle development in cattle. Animal Reproduction Science, 78(3-4), 345-370.
  • Dominguez, M. M. (1995). Effects of body condition, reproductive status and breed on follicular population and oocyte quality in cows. Theriogenology, 43(8), 1405-1418.
  • Dos Santos, G. M. G., Silva-Santos, K. C., Barreiros, T. R. R., Morotti, F., Sanches, B. V., de Moraes, F. L. Z., ... & Seneda, M. M. (2016). High numbers of antral follicles are positively associated with in vitro embryo production but not the conception rate for FTAI in Nelore cattle. Animal Reproduction Science, 165, 17-21.
  • Duby, R. T., Damiani, P., Looney, C. R., Fissore, R. A., & Robl, J. M. (1996). Prepuberal calves as oocyte donors: promises and problems. Theriogenology, 45(1), 121-130.
  • Fernandes, T., Adona, P. R., Guemra, S., BEM, T. H. C. D., & Miranda, M. D. S. (2020). Oocyte recovery and in vitro embryo production in cows treated with a single dose offollicle-stimulating hormone. Turkish Journal of Veterinary & Animal Sciences, 44(1), 151-155.
  • Ferré, L. B., Kjelland, M. E., Strøbech, L. B., Hyttel, P., Mermillod, P., & Ross, P. J. (2019). Recent advances in bovine in vitro embryo production: reproductive biotechnology history and methods. Animal, 14(5), 991-1004.
  • Ferreira, R. M., Ayres, H., Chiaratti, M. R., Ferraz, M. L., Araújo, A. B., Rodrigues, C. A., ... & Baruselli, P. S. (2011). The low fertility of repeat-breeder cows during summer heat stress is related to a low oocyte competence to develop into blastocysts. Journal of Dairy Science, 94(5), 2383-2392.
  • Figueiredo, R. A., Barros, C. M., Pinheiro, O. L., & Soler, J. M. P. (1997). Ovarian follicular dynamics in Nelore breed (Bos indicus) cattle. Theriogenology, 47(8), 1489-1505.
  • Fry, R. C., Niall, E. M., Simpson, T. L., Squires, T. J., & Reynolds, J. (1996). The collection of oocytes from bovine ovaries. Theriogenology, 47(5), 977-987.
  • Galli, C., Duchi, R., Colleoni, S., Lagutina, I., & Lazzari, G. (2014). Ovum pick up, intracytoplasmic sperm injection and somatic cell nuclear transfer in cattle, buffalo and horses: from the research laboratory to clinical practice. Theriogenology, 81(1), 138-151.
  • Gimenes, L. U., Ferraz, M. L., Fantinato-Neto, P., Chiaratti, M. R., Mesquita, L. G., Sá Filho, M. F., ... & Baruselli, P. S. (2015). The interval between the emergence of pharmacologically synchronized ovarian follicular waves and ovum pickup does not significantly affect in vitro embryo production in Bos indicus, Bos taurus, and Bubalus bubalis. Theriogenology, 83(3), 385-393.
  • Gonįalves, G. D., da Silva, N. C., Costa, C. B., Stolf, R. L., de Almeida Rossignolo, E. A., Cavalieri, F. L. B., ... & Seneda, M. M. (2022). Relationship between the time of OPU and in vitro embryo production. Animal Reproduction, 19(2), e22077.
  • Goodhand, K. L., Watt, R. G., Staines, M. E., Hutchinson, J. S. M., & Broadbent, P. J. (1999). In vivo oocyte recovery and in vitro embryo production from bovine donors aspirated at different frequencies or following FSH treatment. Theriogenology, 51(5), 951-961.
  • Hasler, J. F. (1998). The current status of oocyte recovery, in vitro embryo production, and embryo transfer in domestic animals, with an emphasis on the bovine. Journal of Animal Science, 76, 52-74.
  • Hendriksen, P. J. M., Steenweg, W. N. M., Harkema, J. C., Merton, J. S., Bevers, M. M., Vos, P. L. A. M., & Dieleman, S. J. (2004). Effect of different stages of the follicular wave on in vitro developmental competence of bovine oocytes. Theriogenology, 61(5), 909-920.
  • Hidaka, T., Fukumoto, Y., Yamamoto, Y., Ogata, Y., & Horiuchi, T. (2018). Estradiol benzoate treatment before ovum pick-up increases the number of good quality oocytes retrieved and improves the production of transferable embryos in Japanese Black cattle. Veterinary and Animal Science, 5, 1-6.
  • Kaya, A., Güneş, E., & Memili, E. (2018). Application of reproductive biotechnologies for sustainableproduction of livestock in Turkey. Turkish Journal of Veterinary & Animal Sciences, 42(3), 143-151.
  • Kimble, L. N. (2020). Reproductive Strategies for Dairy Herd Improvement – MOET or OPU-IVF?. Dairy Pipeline, 41(2), 2.
  • Kruip, T. A., Boni, R., Wurth, Y. A., Roelofsen, M. W. M., & Pieterse, M. C. (1994). Potential use of ovum pick-up for embryo production and breeding in cattle. Theriogenology, 42(4), 675-684.
  • Kruip, T. A., Moor, R. M., & Green, D. (1984). Intraovarian control of folliculogenesis: limits to superovulation?. Theriogenology, 21(1), 103-116.
  • Landry, D. A., Bellefleur, A. M., Labrecque, R., Grand, F. X., Vigneault, C., Blondin, P., & Sirard, M. A. (2016). Effect of cow age on the in vitro developmental competence of oocytes obtained after FSH stimulation and coasting treatments. Theriogenology, 86(5), 1240-1246.
  • Looney, C. R. (1986). Superovulation in beef females. In Proceedings of 5th Annual Convention of AETA (Vol. 1986, pp. 16-29), Fort Worth, Texas: USA.
  • Looney, C. R., Lindsey, B. R., Gonseth, C. L., & Johnson, D. L. (1994). Commercial aspects of oocyte retrieval and in vitro fertilization (IVF) for embryo production in problem cows. Theriogenology, 41(1), 67-72.
  • López, S. R. (2020). Ovum Pick-Up (OPU) in Cattle: An Update. In Biotechnologies Applied to Animal Reproduction (pp. 139-183). New York, USA: Apple Academic Press.
  • Mapletoft, R. J., Guerra, A. G., Dias, F. C. F., Singh, J., & Adams, G. P. (2015). In vitro and in vivo embryo production in cattle superstimulated with FSH for 7 days. Animal Reproduction (AR), 12(3), 383-388.
  • Mapletoft, R. J., Steward, K. B., & Adams, G. P. (2002). Recent advances in the superovulation in cattle. Reproduction Nutrition Development, 42(6), 601-611.
  • Martins, A., Takada Jr, L., Abrahão, R. G., Freitas, C. P., & Calegari, R. S. (2007). Follicular aspiration of calves oocytes by videoendoscopy: a successful approach to maximize in vitro bovine embryo production. Acta Scientiae Veterinariae, 35, 1194.
  • McEvoy, T. G., Alink, F. M., Moreira, V. C., Watt, R. G., & Powell, K. A. (2006). Embryo technologies and animal health–consequences for the animal following ovum pick-up, in vitro embryo production and somatic cell nuclear transfer. Theriogenology, 65(5), 926-942.
  • McEvoy, T. G., Thompson, H., Dolman, D. F., Watt, R. G., Reis, A., & Staines, M. E. (2002). Effects of epidural injections and transvaginal aspiration of ovarian follicles in heifers used repeatedly for ultrasound‐guided retrieval of ova and embryo production. Veterinary Record, 151(22), 653-658.
  • Merton, J. S., De Roos, A. P. W., Mullaart, E., De Ruigh, L., Kaal, L., Vos, P. L. A. M., & Dieleman, S. J. (2003). Factors affecting oocyte quality and quantity in commercial application of embryo technologies in the cattle breeding industry. Theriogenology, 59(2), 651-674.
  • Murphy, B. D., & Martinuk, S. D. (1991). Equine chorionic gonadotropin. Endocrine Reviews, 12(1), 27-44. Nasser, L. F., Sá Filho, M. F. D., Reis, E. L., Rezende, C. R., Mapletoft, R. J., Bó, G. A., & Baruselli, P. S. (2011). Exogenous progesterone enhances ova and embryo quality following superstimulation of the first follicular wave in Nelore (Bos indicus) donors. Theriogenology, 76(2), 320-327.
  • Nivet, A. L., Bunel, A., Labrecque, R., Belanger, J., Vigneault, C., Blondin, P., & Sirard, M. A. (2012). FSH withdrawal improves developmental competence of oocytes in the bovine model. Reproduction, 143(2), 165.
  • Nolan, R., Duffy, P., Wade, M., G’callaghat, D., & Boland, M. P. (1998). Effect Of Quantlty And Type Of Diet And Frequency Of Trans-Vaginal Ovum Aspiration On In-Vitro Embryo Development In Heifers, Theriogenology, 49, 402(abstract).
  • Ogata, Y., Hidaka, T., Matzushige, T., & Maeda, T. (2015). Comparison of two biopsy methods in bovine embryos. Journal of Advances in Biology & Biotechnology, 2(1), 16-23.
  • Ongaratto, F. L., Cedeño, A. V., Rodriguez-Villamil, P., Tríbulo, A., & Bó, G. A. (2020). Effect of FSH treatment on cumulus oocyte complex recovery by ovum pick up and in vitro embryo production in beef donor cows. Animal Reproduction Science, 214, 106274.
  • Ongaratto, F. L., Rodriguez-Villamil, P., Tribulo, A., & Bó, G. A. (2015). Effect of follicle wave synchronization and gonadotropin treatments on the number and quality of cumulus-oocyte complex obtained by ultrasound-guided ovum pick-up in beef cattle. Animal Reproduction (AR), 12(4), 876-883.
  • Ongaratto, F. L., Tríbulo, A., Ramos, M., Rodriguez, P., & Bó, G. A. (2010). 207 Oocyte Recovery Rates And In Vitro Blastocyst Production In Cattle Treated With A Single Injection Of Folltropin-V Diluted In A Slow-Release Formulation. Reproduction, Fertility and Development, 23(1), 202-203.
  • Petyim, S., Båge, R., Madej, A., & Larsson, B. (2007). Ovum pick‐up in dairy heifers: does it affect animal well‐being?. Reproduction in Domestic Animals, 42(6), 623-632.
  • Pieterse, M. C., Kappen, K. A., Kruip, T. A., & Taverne, M. A. M. (1988). Aspiration of bovine oocytes during transvaginal ultrasound scanning of the ovaries. Theriogenology, 30(4), 751-762.
  • Pieterse, M. C., Vos, P. L. A. M., Kruip, T. A., Wurth, Y. A., Van Beneden, T. H., Willemse, A. H., & Taverne, M. A. M. (1991). Transvaginal ultrasound guided follicular aspiration of bovine oocytes. Theriogenology, 35(1), 19-24.
  • Pontes, J. H. F., Silva, K. C. F., Basso, A. C., Rigo, A. G., Ferreira, C. R., Santos, G. M. G., ... & Seneda, M. M. (2010). Large-scale in vitro embryo production and pregnancy rates from Bos taurus, Bos indicus, and indicus-taurus dairy cows using sexed sperm. Theriogenology, 74(8), 1349-1355.
  • Pontes, J. H. F., Sterza, F. M., Basso, A. C., Ferreira, C. R., Sanches, B. V., Rubin, K. C. P., & Seneda, M. M. (2011). Ovum pick up, in vitro embryo production, and pregnancy rates from a large-scale commercial program using Nelore cattle (Bos indicus) donors. Theriogenology, 75(9), 1640-1646.
  • Qi, M., Yao, Y., Ma, H., Wang, J., Zhao, X., Liu, L., ... & Sun, F. (2013). Transvaginal ultrasound-guided ovum pick-up (OPU) in cattle. J. Biomim. Biomater. Tissue Engineering , 18(2), 1000118.
  • Rath, D. (1993). Current status of ultrasound-guided retrieval of bovine oocytes. Embryo Transfer Newsletter, 11, 10-15.
  • Ribas, B. N., Missio, D., Roman, I. J., Neto, N. A., Junior, I. C., dos Santos Brum, D., & Leivas, F. G. (2018). Superstimulation with eCG prior to ovum pick-up improves follicular development and fertilization rate of cattle oocytes. Animal Reproduction Science, 195, 284-290.
  • Rivera, F. A., Mendonça, L. G., Lopes, G., Santos, J. E., Perez, R. V., Amstalden, M., ... & Chebel, R. C. (2011). Reduced progesterone concentration during growth of the first follicular wave affects embryo quality but has no effect on embryo survival post transfer in lactating dairy cows. Reproduction, 141(3), 333.
  • Roth, Z., Arav, A., Bor, A., Zeron, Y., Braw-Tal, R., & Wolfenson, D. (2001). Improvement of quality of oocytes collected in the autumn by enhanced removal of impaired follicles from previously heat-stressed cows. Reproduction-Cambridge-, 122(5), 737-744.
  • Rubin, K. C. P., Pontes, J. H. F., Nonato Jr, I., Ereno Jr, J. C., Pansard, H., & Seneda, M. M. (2005). Influence of Nelore blood on the in vivo production of oocytes. Acta Scientiae Veterinariae, 33, 183.
  • Ruiz, L. L., Alvarez, N., Nuñez, I., Montes, I., Solano, R., Fuentes, D., ... & Brem, G. (1996). Effect of body condition on the developmental competence of IVM/IVF bovine oocytes. Theriogenology, 1(45), 292.
  • Sales, J. N. D. S., Iguma, L. T., Batista, R. I. T. P., Quintão, C. C. R., Gama, M. A. S., Freitas, C., ... & Baruselli, P. S. (2015). embryo production in Bos indicus and Bos taurus cows. Journal of Dairy Science, 98(5), 3086-3099.
  • Sartori, R., Bastos, M. R., & Mattos, M. C. C. (2010b). Physiological bases for understanding estrous cycle differences between Bos taurus and Bos indicus. Acta Scientiae Veterinariae, 38(2), 277-315.
  • Sartori, R., Bastos, M. R., Baruselli, P. S., Gimenes, L. U., Ereno, R. L., & Barros, C. M. (2010a). Physiological differences and implications to reproductive management of Bos taurus and Bos indicus cattle in a tropical environment. Reprod in Domestic Ruminants, 7, 357.
  • Sartori, R., Guardieiro, M. M., Surjus, R. S., Melo, L. F., Prata, A. B., Ishiguro, M., ... & Nascimento, A. B. (2018a). Metabolic hormones and reproductive function in cattle. Animal Reproduction (AR), 10(3), 199-205.
  • Sartori, R., Monteiro Jr, P. L. J., & Wiltbank, M. C. (2018b). Endocrine and metabolic differences between Bos taurus and Bos indicus cows and implications for reproductive management. Animal Reproduction (AR), 13(3), 168-181.
  • Sartori, R., Spies, C., & Wiltbank, M. C. (2017). Effects of dry matter and energy intake on quality of oocytes and embryos in ruminants. Reproduction, Fertility and Development, 29(1), 58-65.
  • Seneda, M. M., Esper, C. R., Garcia, J. M., de Oliveira, J. A., & Vantini, R. (2001). Relationship between follicle size and ultrasound-guided transvaginal oocyte recovery. Animal Reproduction Science, 67(1-2), 37-43.
  • Seneda, M. M., Zangirolamo, A. F., Bergamo, L. Z., & Morotti, F. (2020). Follicular wave synchronization prior to ovum pick-up. Theriogenology, 150, 180-185.
  • Singh, J., Adams, G. P., & Pierson, R. A. (2003). Promise of new imaging technologies for assessing ovarian function. Animal Reproduction Science, 78(3-4), 371-399.
  • Sirard, M. A. (2012). Factors affecting oocyte and embryo transcriptomes. Reproduction in Domestic Animals, 47, 148-155.
  • Sirard, M. A. (2018). 40 years of bovine IVF in the new genomic selection context. Reproduction, 156(1), R1-R7. Takuma, T., Sakai, S., Ezoe, D., Ichimaru, H., Jinnouchi, T., Kaedei, Y., ... & Otoi, T. (2010). Effects of season and reproductive phase on the quality, quantity and developmental competence of oocytes aspirated from Japanese black cows. Journal of Reproduction and Development, 56(1), 55-59.
  • Thibier, M. (2004). Stabilization of numbers of in vivo collected embryos in cattle but significant increases of in vitro bovine produced embryos in some parts of the world. IETS Newslett, 22, 12-19.
  • Vassena, R., Mapletoft, R. J., Allodi, S., Singh, J., & Adams, G. P. (2003). Morphology and developmental competence of bovine oocytes relative to follicular status. Theriogenology, 60(5), 923-932.
  • Viana, J. (2021). 2020 statistics of embryo production and transfer in domestic farm animals: world embryo industry grows despite the pandemic. Embryo Technol Newsl, 39, 24-38.
  • Viana, J. (2022). 2021 Statistics of embryo production and transfer in domestic farm animals. Embryo Technology Newsletter, 40(4), 22-40.
  • Viana, J. H. M., Nascimento, A. A., Pinheiro, N. L., Ferreira, A. M., Camargo, L. S., Sá, W. F., & Marques Júnior, A. P. (2003). Characterization of tissue damages after ovum pick-up in bovine. Pesquisa Veterinária Brasileira, 23, 119-124.
  • Viana, J. H. M., Palhao, M. P., Siqueira, L. G. B., Fonseca, J. F. D., & Camargo, L. D. A. (2010). Ovarian follicular dynamics, follicle deviation, and oocyte yield in Gyr breed (Bos indicus) cows undergoing repeated ovum pick-up. Theriogenology, 73(7), 966-972.
  • Vieira, L. M., Rodrigues, C. A., Netto, A. C., Guerreiro, B. M., Silveira, C. R. A., Moreira, R. J. C., ... & Baruselli, P. S. (2014). Superstimulation prior to the ovum pick-up to improve in vitro embryo production in lactating and non-lactating Holstein cows. Theriogenology, 82(2), 318-324.
  • Vieira, L. M., Rodrigues, C. A., Netto, A. C., Guerreiro, B. M., Silveira, C. R. A., Freitas, B. G., ... & Baruselli, P. S. (2016). Efficacy of a single intramuscular injection of porcine FSH in hyaluronan prior to ovum pick-up in Holstein cattle. Theriogenology, 85(5), 877-886.
  • Ward, F. A., Lonergan, P., Enright, B. P., & Boland, M. P. (2000). Factors affecting recovery and quality of oocytes for bovine embryo production in vitro using ovum pick-up technology. Theriogenology, 54(3), 433-446.
  • Watanabe, Y. F., de Souza, A. H., Mingoti, R. D., Ferreira, R. M., Batista, E. O. S., Dayan, A., ... & Baruselli, P. S. (2017). Number of oocytes retrieved per donor during OPU and its relationship with in vitro embryo production and field fertility following embryo transfer. Animal Reproduction (AR), 14(3), 635-644.
  • Wrenzycki, C. (2018). In vitro production of (Farm) animal embryos. In H. Niemann & C. Wrenzycki (Ed). Animal Biotechnology 1: Reproductive Biotechnologies (pp. 269-304). Cham, Switzerland: Springer International Publishing.
  • Younis, J. S., Ezra, Y., Laufer, N., & Ohel, G. (1997). Late manifestation of pelvic abscess following oocyte retrieval, for in vitro fertilization, in patients with severe endometriosis and ovarian endometriomata. Journal of Assisted Reproduction and Genetics, 14, 343-346.
  • Zacarias, T. A., Kawamoto, T. S., Júnior, J. R. S., Guimarães, A. L. S., Franco, M. M., & Figueiredo, R. A. (2018). Hormonal stimulation in 4 to 7 months old Nelore (Bos taurus indicus) females improved ovarian follicular responses but not the in vitro embryo production. Theriogenology, 118, 130-136.
Toplam 120 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Veteriner Bilimleri (Diğer)
Bölüm Derleme Makaleler
Yazarlar

Hasan Dogan 0000-0002-2642-4931

Kudret Yenilmez 0000-0002-5532-0525

Yayımlanma Tarihi 30 Nisan 2024
Gönderilme Tarihi 12 Aralık 2023
Kabul Tarihi 10 Şubat 2024
Yayımlandığı Sayı Yıl 2024 Cilt: 8 Sayı: 1

Kaynak Göster

APA Dogan, H., & Yenilmez, K. (2024). Factors influencing ovum pick-up technique results in cattle. Journal of Istanbul Veterinary Sciences, 8(1), 13-23. https://doi.org/10.30704/http-www-jivs-net.1403722

Bu dergi Creative Commons attribution 4.0 international  (CC-BY 4.0). lisansı ile lisanslanmıştır.