Pregnancy rate in dairy cows treated with human chorionic gonadotropin five days after insemination

Abstract

This study tested whether the administration of hCG five days after insemination increased progesterone concentration and pregnancy rate (PR) in dairy cows. A total of 989 lactating Holstein cows with different parity and number of prior services were used. Cows were inseminated after overt estrus or at a fixed-time. Five days post-insemination, cows were randomly assigned to two treatment groups: hCG (n=482), which received 3500 IU of hCG by intramuscular injection; and the control group (n=507), which did not receive any treatment. Pregnancy was diagnosed by ultrasound on day 30 post-insemination, and gestation was confirmed on day 60 post-insemination by rectal palpation. In 15 cows from each treatment group, plasma progesterone concentration was determined on days 5, 11, and 15 post-insemination. Pregnancy rate was analysed using logistic regression. Variations in progesterone concentration between treatments were tested by ANOVA for repeated measurements. Progesterone concentration was higher on days 11 and 15 in cows treated with hCG, compared to the control group (P<0.05). Treatment with hCG increased pregnancy rate (47.5 vs. 37.4%. Odds ratio 1.3; P<0.05). No interaction was observed between treatment and body condition, prior services, milk production, parity, or insemination type (overt estrus or fixed time). Treatment with hCG did not reduce pregnancy losses between day 30 and 60 post-insemination (P>0.1). We conclude that injection of hCG five days after insemination increased progesterone concentration and pregnancy rate in dairy cows.

References

1. Butler WR. 2000. Nutritional interactions with reproductive performance in dairy cattle. Anim Reprod Sci 60-61, 449-457.
2. Chebel RC, Santos JE, Reynolds JP, Cerri RL, Juchem SO, et al. 2004. Factors affecting conception rate after artificial insemination and pregnancy loss in lactating dairy cows. Anim Reprod Sci 84, 239-255.
3. Diskin MG, Parr MH, Morris DG. 2011. Embryo death in cattle: an update. Reprod Fertil Dev 24, 244-251.
4. Geisert RD, Morgan GL, Short EC, Zavy MT. 1992. Endocrine events associated with endometrial function and conceptus development in cattle. Reprod Fertil Dev 4, 301-305.
5. Hanlon DW, Jarratt GM, Davidson PJ, Millar AJ, Douglas VL. 2005. The effect of hCG administration five days after insemination on the first service conception rate of anestrous dairy cows. Theriogenology 63, 1938-1945.
6. Kendall NR, Flint AP, Mann GE. 2009. Incidence and treatment of inadequate postovulatory progesterone concentrations in repeat breeder cows. Vet J 181, 158-162.
7. Lonergan P. 2011. Influence of progesterone on oocyte quality and embryo development in cows. Theriogenology 76, 1594-1601.
8. Mann GE, Lamming GE, Fray MD. 2006. Effects of time of progesterone suplementation on embryo development and interferon-tau production in cow. Vet J 171, 500-503.
9. Mann GE, Lamming GE. 2001. Relationship between maternal endocrine enviroment, early embryo development and inhibition of the luteolytic mechanism in cows. Reproduction 121, 175-180.
10. Morales-Roura JS, Zarco L, Hernández-Cerón J, Rodríguez G. 2001. Effect of short-term treatment with bovine somatotropin at estrus on conception rate and luteal function of repeat-breeding dairy cows. Theriogenology 55, 1831-1841.
11. Nascimento AB, Bender RW, Souza AH, Ayres H, Araujo RR, et al. 2013. Effect of treatment with human chorionic gonadotropin on day 5 after timed artificial insemination on fertility of lactating dairy cows. J Dairy Sci 96, 2873-2882.
12. Orozco M, Gutiérrez CG, López R, Aguilar C, Roque C, et al. 2016. Pregnancy rate in dairy cows treated with progesterone for six days during estrus synchronization with PGF2α. Anim Reprod Sci 166, 128-132.
13. Patton J, Kenny DA, McNamara S, Mee JF, O’Mara FP, et al. 2007. Relationships among milk production, energy balance, plasma analytes, and reproduction in Holstein-Friesian cows. J Dairy Sci 90, 649-658.
14. Price CA, Webb R. 1989. Ovarian responses to hCG treatment during the oestrus cycle in heifers. J Reprod Fertil 86, 303-308.
15. Roque C, Montaldo HH, Gutiérrez CG, Hernández Cerón J. 2016. Efecto de una inyección única de progesterona, cinco días después de la inseminación, en la fertilidad de vacas lecheras. Agrociencia 50, 287-296.
16. Sangsritavong S, Combs DK, Sartori R, Amentano LE, Wiltbank MC. 2002. High feed intake increases liver blood flow and metabolism of progesterone and estradiol-17 in dairy cattle. J Dairy Sci 85, 2831-2842.
17. Santos JEP, Thatcher WW, Pool L, Overton MW. 2001. Effect of human chorionic gonadotropin on function and reproductive performance of high-producing lactating Holstein dairy cows. J Anim Sci 79, 2881-2894.
18. SAS, Statistical Analysis System. 2010. SAS version 9.3. SAS Institute Inc., Cary, NC, USA.
19. Schmitt EJP, Barros CM, Fiels PA, Fiels MJ, Díaz T, et al. 1996. Differential response of the luteal phase and fertility in cattle following ovulation of the first-wave follicle with human chorionic gonadotropin or an agonist of gonadotropin-releasing hormone. J Anim Sci 74, 1074-1083.
20. Stronge AJH, Sreenan JM, Diskin MG, Mee JF, Kenny DA, et al. 2005. Post insemination milk progesterone concentration and embryo survival in dairy cows. Theriogenology 64, 1212-1224.
21. Walton JS, Gary WH, Robinson NA, Kenneth EL. 1990. Effects of progesterone and human chorionic gonadotrophin administration five days postinsemination on plasma and milk concentrations of progesterone and pregnancy rates of normal and repeat breeder dairy cows. Can J Vet Res 54, 305-308.
22. Wiltbank MC, Souza AH, Carvalho PD, Bender RW, Nascimento AB. 2012. Improving fertility to timed artificial insemination by manipulation of circulating progesterone concentrations in lactating dairy cattle. Reprod Fertil Dev 24, 238-243.
23. Wiltbank MC, Souza AH, Carvalho PD, Cunha AP, Giordano JO, et al. 2014. Physiological and practical effects of progesterone on reproduction in dairy cattle. Animal 8, supp, 70-81.