Efficacy of Hormonal Protocols on Haematological and Micro-minerals Parameters in Postpartum Anestrus Cows
DOI:
https://doi.org/10.48165/ijar.2023.44.01.10Keywords:
Postpartum anestrus cows, CIDR, serum Progesterone, biochemical parameters, PGF2α and GnRHAbstract
Thirty six post partum anestrus cows were selected for the present research work. Group I (n=12) were treated with CIDR based protocols and Group II (n=12) were administered Ovsynch protocol and Group III (n=12) was kept as a untreated control. In Group I, II and III the values of Hematological parameters like Hb (9.00±0.17, 9.15±0.15 and 8.65±0.30, 8.66±0.20, 8.73±0.20 and 8.25±0.20, 7.76±0.16, 7.69±0.32 and 8.18±0.18 g/dl) RBC (7.28±0.37, 9.15±0.15 and 8.65±0.30, 7.20±0.38, 8.73±0.20 and 8.25±0.33, 5.77±0.32, 7.69±0.32 and 8.18±0.18 x1012/l) and TLC 10.36±0.26, 10.49±0.25 and 9.77±0.40, 9.67±0.28, 9.90±0.47 and 8.08±0.57, 8.29±0.53, 7.98±0.54 and 8.63±0.44 x109/l) on Day 0, 7 and 25 were recorded in Group I, II and III, respectively. Microminerals parameters (μg/dl) like Iron (147.9±4.44, 147.9±4.44 and 150.1±7.84, 143.4±4.5, 158.2±4.65 and 149.4±7.71, 118.6±3.23, 118.6±3.12 and 118.4±3.04) Cobalt (1.8±0.14, 2.2±0.10 and 1.99±0.11, 1.7±0.10, 2.1±0.08 and 1.74±0.13, 1.6±0.12, 1.5±0.10 and 1.6±0.11) Copper (0.65±0.02, 0.78±0.03 and 0.71±0.04, 0.63±0.01, 0.77±0.03 and 0.69±0.03, 0.64±0.02, 0.63±0.02 and 0.65±0.02) and Zinc (87.6±1.18, 104.9±2.00 and 96.4±3.27, 86.7±1.22, 104.7±2.02 and 93.6±2.51, 85.5±1.03, 85.6±1.02 and 86.5±0.92) on Day 0, 7 and 25 were recorded in Group I, II and III, respectively. It can be concluded that the use of different hormonal protocols in postpartum anestrus cows has shown different effects on haematological and micro-minerals parameters.
References
Ahmad, I., Gohar, A., Ahmad, N. and Ahmad, M. (2003). Haematological Profile in Cyclic, Non Cyclic and Endometritic Cross-Bred Cattle. Int. J. Agri. Biol., 5(3):332–334.
Chandrakar, D., Tiwari, R.P., Awasthi M.K. and Tiwari, S.P. (2002). Serum trace element level in repeat breeding cross bred cows. Ind. Vety. Medic. J., 26: 242-244.
Devipriya, K., Eswari, S., Prathaban, S., Nanjappan, K. and Selvaraj, P. (2016). Effect of Heat Stress on Haemato biochemical and Endocrinological Profile. Journal Anim. Res., 6(2):135-138.
Emad, M.M., El-Razek, A. and Allam, T.S. (2019). Some Biochemical Parameters and Hematological Picture in Cases of Smooth Inactive Ovaries in Buffalo-Cows. Alexandria J. for Vet. Sci., 61(1):83-92.
Fernandez, and Khan, 1971. By using Atomic Absorption Spectroscopy (Perkin Elmer A Analyst 100).
Hidiroglou, M. (1979). Trace element deficiencies and infertility in ruminants: A Review. Ind. J. Dairy Sci., 62(8):1195-1206. Jayanti, N., CheUapandian, M. and Balchandran, S. (2003). Blood bio-chemical profile repeat breeding cows in Tirunelveli region of Tamilnadu. Indian Vet. J., 80:939-940.
Jayachandran, S., Nanjappan, K., Muralidharan, J., Selvaraj, P. and Manoharan, A. (2013). Blood biochemical and mineral status in cyclic and postpartum anestrus buffaloes. Int. J. Food Agric. Vet. Sci, 3(1), 99-97.
Kandasamy, R., Leela, V., Vairamuthu, S. and Gowrishankar, S. (2018). Haematological and Biochemical Profile of Lactating Kangeyam Cows. Int. J. Livestock Res., 8(09):172-176.
Klinkon, M. and Zadnik, T. (1999). Dynamics of red and white blood picture in dairy cows during the per-parturient period. Comparative Haem. Int. 9(3):156-161.
Moreira, F., Orlandi, C., Risco, C.A., Mattos, R., Lopes, F. and Thatcher, W.W. (2001). Effects of presynchronization and bovine somatotropin on pregnancy rates to a timed artifi cial insemination protocol in lactating dairy cows. J. Dairy Sci. 84(7):1646-1659.
Prasad, C.S., Sharma, D.V., Reddy, A.O. and Chinnalya, G.P. (1989). Trace elements and ovarian hormonal levels during different reproductive conditions in crossbred cattle. Ind. J. Dairy Sci. 42(1):498-492.
Prasad, K.S. N. and Rao, S.V.N. (1997). Blood mineral profile of anestrus and repeat breeder cross-bred cows, a field study. Ind. J. Anim Nutri., 14(2):135-137.
Ramakrishna, K.V. (1997). Comparative studies on certain bio chemical constituents of anestrus crossbred Jersey rural cows. Ind. J. Anim. Reprod., 18(1):33-35.
Roche, J.F., Crowe, M.A. and Boland, M.P. (1992). Postpartum anestrus in dairy and beef cows. Anim. Reprod. Sci. 28:371- 378.
Sarkar, B., Ray, K. and Sarkar, U. (2016). Prevalence of uterine infection in relation to certain haematological and bio chemical changes of blood serum in dairy cows. Ind. J. of Anim. Res., 50(4):557-560.
Sastry, G.A. (1983). Veterinary Clinical Pathology 3rd Ed. C.B.S. Publisher and Distributors, New Delhi.
Sattar, A. and Mirza, R.H. (2009). Haematological parameters in exotic cows during gestation and lactation under subtropi cal conditions. Pak. Vet. J., 29(3):129-132.
Saxena, M.S. and Gupta, S.K. (1995). Variations in the plasma levels of copper and zinc in cross bred cows with early ad delayed postpartum conception. Ind. J. Anim. Reprod., 16(1):25-27.
Underwood, E.J. (1977). Trace element in Human and Animal Nutrition. 4th Ed. Academic Press, London pp-545. Vadnere, S.V. and Singh, S. (1989). Blood plasma level of iodine, calcium, inorganic phosphorus, copper and iron in post partum anestrus crossbred cows. Ind. J. Anim. Reprod. 10(2):145-146.