Relationship of anti-müllerian hormone with the quantity and quality of oocytes collected by ultrasound-guided aspiration in Holstein heifers
Abstract
The experiment had two phases, the first one determined the relationship between the antral follicle count (AFC) and the concentration of Anti-Müllerian hormone (AMH) valued on the day the follicular wave restarted in 61 crossbred Holstein heifers, raised on farms, from the high tropics of Ecuador. The second phase compared the AFC assessed on the day of ultrasound-guided aspiration (OPU); as well as the quantity and quality of Cumulus Oocyte Complexes (COCs) recovered in animals with high (n=8) and low (n=8) concentrations of AMH. Follicular wave synchronization in the first phase of the study was performed with estradiol benzoate plus an intravaginal progesterone (IVD) and prostaglandin (PG) implant. The AFC and the taking of the blood samples in the first phase of the experiment were carried out on day 11 of the protocol. AMH cut-off values of greater than 0.12 ng·mL-1 were established for the high AMH group and 0.05 ng·mL-1 for the low AMH concentration group. The AMH concentration on day 0 (start of the follicular wave) was 0.13 ± 0.01 ng·mL-1 , with an AFC of 17.31 ± 0.69 follicles and a high and positive correlation between AMH and the AFC of r=0.93; P<0.001. In the second phase of the experiment, it was observed that the heifers with a high concentration of AMH had double the number of follicles and COCs compared to those with a low concentration; however, the recovery rate was similar (57 %) in the two groups. The existence of a high and positive correlation between AFC and AMH concentration was confirmed; Furthermore, a strong relationship was observed between AMH and the quantity and quality of COCs recovered by OPU. Heifers with greater than 12 ng·mL-1 should be selected as oocyte donors, since they provided double the COC's suitable for the production of embryos in vitro (PIVE), which will influence the quantity and quality of embryos obtained at the end of the PIVE.
Downloads
References
ABDEL, R.L.; KHALIL, A.A.Y.; ABDEL-WAHAB, A.; HASSAN, N.Y.; ABDEL-HAMIED, E.; KASIMANICKAM, R.K. Relationship among circulating anti-Müllerian hormone, insulin like growth factor 1, cadmium and superovulatory response in dairy cows. Theriogenol. 100: 72–79. 2017.
AYALA, L.; ASTIZ, S.; DUTAN, J.; SAMANIEGO, J.; LÓPEZ, R.; PEREA, F.; HERNANDEZ-FONSECA, H.; PESÁNTEZ, J. Relationship between the concentration of anti-Müllerian hormone and antral follicle count in pasture-managed Holstein cows in the high tropics. J. Dairy Res. 22: 1–5. 2022.
AYALA, L.; PESANTEZ, L.; RODAS, E.; DUTÁN, J.; CALLE, G.; MURILLO, Y.; VÁZQUEZ, J.; NIETO, P.; ORTEGA, V.; SAMANIEGO, J. Dinámica folicular de vaquillas Criollas al pastoreo en el altiplano ecuatoriano. Arch. Zoot. 68(262): 186–192. 2019.
AYALA, L.; SAMANIEGO, J.; ARGUDO, D.; PEREA, M.; PEREA, F.; RODAS, E.; NIETO, P. El intervalo de tiempo entre la estimulación ovárica con FSH/LH y la colecta afecta la cantidad, calidad y capacidad de desarrollo de los ovocitos recuperados de novillas criollas ecuatorianas. Rev. Invest. Vet. Perú. 31(1): e17571. 2020.
BALDRIGHI, J.; SÁ FILHO, M.F.; BATISTA, E.O.S.; LOPES, R.N.V.R.; VISINTIN, J.A.; BARUSELLI, P.S.; ASSUMPÇÃO, M.E.O.A. Anti-Mullerian hormone concentration and antral ovarian follicle population in Murrah heifers compared to Holstein and Gyr kept under the same management. Reprod. Dom. Anim. 49(6): 1015–1020. 2014.
BATISTA, E.O.S.; MACEDO, G.G.; SALA, R.V.; ORTOLAN, M.D.D.V.; SÁ FILHO, M.F.; DEL VALLE, T.A.; JESUS, E.F.; LOPES, R.N.V.R.; RENNÓ, F.P.; BARUSELLI, P.S. Plasma antimullerian hormone as a predictor of ovarian antral follicular population in Bos indicus (Nelore) and Bos taurus (Holstein) heifers. Reprod. Dom. Anim. 49(3): 448–452. 2014.
BOLS, P.E.; VAN SOOM, A.; YSEBAERT, M.T.; VANDENHEEDE, J.M.; DE KRUIF, A. Effects of aspiration vacuum and needle diameter on cumulus oocyte complex morphology and developmental capacity of bovine oocytes. Theriogenol. ;45(5): 1001–1014. 1996.
ÇIZMECI, S.A.; DINC, D.A.; BUCAK, M.N.; ÇIFTCI, M.F.; YESILKAYA, Ö.F.; AGIR V. (2022). The effect of Anti-Mullerian hormone on yield of oocytes recovered by ovum pick-up (OPU) in heifers. J. Adv. VetBio. Sci. Tech. 7(2): 161–168. 2022.
DE LOOS, F.; VAN VLIET, C.; VAN MAURIK, P.; KRUIP, T.A.M. Morphology of immature bovine oocytes. Gamete Res. 24(2): 197–204. 1989.
GHANEM, N.; JIN, J.I.; KIM, S.S.; CHOI, B.H.; LEE, K.L.; HA, A.N.; SONG, S.H.; KONG. The Anti-Müllerian Hormone Profile is Linked with the in Vitro Embryo Production Capacity and Embryo Viability after Transfer but Cannot Predict Pregnancy Outcome. Reprod. Dom. Anim. 51(2): 301–310. 2016.
GOBIKRUSHANTH, M.; DUTRA, P.A.; BRUINJÉ, T.C.; COLAZO, M.G.; BUTLER, S.T.; AMBROSE, D.J. Repeatability of antral follicle counts and anti-Müllerian hormone and their associations determined at an unknown stage of follicular growth and an expected day of follicular wave emergence in dairy cows. Theriogenol. 92: 90–94. 2017.
GUERREIRO, B.M.; BATISTA, E.O.S.; VIEIRA, L.M.; SÁ FILHO, M.F.; RODRIGUES, C.A.; CASTRO-NETTO, A.; SILVEIRA, C.R.A.; BAYEUX, B.M.; DIAS, E.A.R.; MONTEIRO, F.M.; ACCORSI, M.; LOPES, R.N.V.R.; BARUSELLI, P.S. Plasma anti-mullerian hormone: An endocrine marker for in vitro embryo production from Bos taurus and Bos indicus donors. Dom. Anim. Endocr. 49(1): 96–104. 2014.
IBM CORP. IBM SPSS Statistics for Windows, Version 25.0. Armonk, NY: IBM Corp. RELEASED 2017.
MONNIAUX, D.; RICO, C.; LARROQUE, H.; DALBIÈS-TRAN, R.; MÉDIGUE, C.; CLÉMENT, F.; FABRE, S. L’hormone antimüllérienne, prédicteur endocrinien de la réponse une stimulation ovarienne chez les bovins. Gynecol. Obst. Fert. 38(7–8): 465–470. 2010.
MOSSA, F.; CARTER, F.; WALSH, S.W.; KENNY, D.A.; SMITH, G.W.; IRELAND, J.L.H.; HILDEBRANDT, T.B.; LONERGAN, P.; IRELAND, J.J.; EVANS, A.C.O. Maternal undernutrition in cows impairs ovarian and cardiovascular systems in their offspring. Biol. Reprod. 88(4): 1–9. 2013.
NABENISHI, H.; KITAHARA, G.; TAKAGI, S.; YAMAZAKI, A.; OSAWA, T. Relationship between plasma anti-Müllerian hormone concentrations during the rearing period and subsequent embryo productivity in Japanese black cattle. Dom. Anim. Endocr. 60: 19–24. 2017.
ORGANIZACIÓN MUNDIAL DE SANIDAD ANIMAL (OIE). Código Sanitario para los Animales Terrestres. 19na. Ed. Paris. Pp 357. 2010.
PARRAGUEZ, V.H.; GONZALEZ-BULNES, A. Endocrinology of reproductive function and pregnancy at high altitudes. Curr. Opinion Endoc. Metab. Res. 11: 27–32. 2020.
RIBEIRO, E.S.; BISINOTTO, R.S.; LIMA, F.S.; GRECO, L.F.; MORRISON, A.; KUMAR, A.; THATCHER, W.W.; SANTOS, J.E.P. Plasma anti-Müllerian hormone in adult dairy cows and associations with fertility. J. Dairy Sci. 97(11): 6888–6900. 2014.
RICO, C.; FABRE, S.; MEDIGUE, C.; CLEMENTE, N.D.; CLEMENT, F.; BONTOUX, M.; TOUZE, J.L.; DUPONT, M.; BRIANT, E.; REMY, B.; BECKERS, J.F.; MONNIAUX, D. Anti-Mullerian Hormone Is an Endocrine Marker of Ovarian Gonadotropin-Responsive Follicles and Can Help to Predict Superovulatory Responses in the Cow. Biol. Reprod. 80(1): 50–59. 2009.
RUIZ, S.; ROMERO-AGUIRREGOMEZCORTA, J.; ASTIZ, S.; PEINADO, B.; ALMELA, L.; POTO, A. Application of reproductive biotechnology for the recovery of endangered breeds: Birth of the first calf of murciana-levantina bovine breed derived by OPU, in vitro production and embryo vitrification. Reprod. Dom. Anim. 48(6): e81–e84. 2013.
SANTOS, J.E.P.; CERRI, R.L.A.; SARTORI, R. Nutritional management of the donor cow. Theriogenol. 69(1): 88–97. 2008.
SARTORI, R.; GIMENES, L.U.; MONTEIRO, P.L.J.; MELO, L.F.; BARUSELLI, P.S.; BASTOS, M.R. Metabolic and endocrine differences between Bos taurus and Bos indicus females that impact the interaction of nutrition with reproduction. Theriogenol. 86(1): 32–40. 2016.
SCARAMUZZI, R.J.; BROWN, H.M.; DUPONT, J. Nutritional and metabolic mechanisms in the ovary and their role in mediating the effects of diet on folliculogenesis: A perspective. Reprod. Dom. Anim. 45: 32–41. 2010.
SILVA, K.C.; SANTOS, G.M.G.; SILOTO, L.S.; SANTOS, J.T.; OLIVEIRA, E.R D.E.; MACHADO, F.Z.; ROSA, C.O.; SENEDA, M.M. The correlation between the number of antral follicles and ovarian reserves (preantral follicles) in purebred Bos indicus and Bos taurus cows. Anim. Reprod. Sci. 151(3–4): 119–125. 2014.
SONG, X.; BOKKERS, E.A.M.; VAN MOURIK, S.; GROOT-KOERKAMP, P.W.G.; VAN DER TOL, P.P.J. Automated body condition scoring of dairy cows using 3-dimensional feature extraction from multiple body regions. J. Dairy Sci. 102(5): 4294–4308. 2019.
SOUZA, A.H.; CARVALHO, P.D.; ROZNER, A.E.; VIEIRA, L.M.; HACKBART, K.S.; BENDER, R.W.; DRESCH, A.R.; VERSTEGEN, J.P.; SHAVER, R.D.; WILTBANK, M.C. Relationship between circulating anti-Müllerian hormone (AMH) and superovulatory response of high-producing dairy cows. J. Dairy Sci. 98(1): 169–178. 2015.
VERNUNFT, A.; SCHWERHOFF, M.; VIERGUTZ, T.; DIEDERICH, M.; KUWER, A. Anti-Mullerian hormone levels in plasma of Holstein-Friesian heifers as a predictive parameter for ovum pick-up and embryo production outcomes. J. Reprod. Develop. 61(1): 74–79. 2015.
WEBB, R.; GARNSWORTHY, P.C.; GONG, J.G.; ARMSTRONG, D.G. Control of follicular growth: Local interactions and nutritional influences. J. Anim. Sci. 82: E63–E74. 2004.
Copyright (c) 2023 Jorge Dután, Jorge Samaniego, Fernando Perea, Hugo Hernández-Fonseca, José Luis Pesántez, Andrés Jácome, Gabriela Garay, Luis Ayala
This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.
