Serum Biochemical Profile During Early, Mid, Late Pregnancy, and Calving Periods in Dairy Cows in Algeria

1. Al-Miahy, A. J. F., Saleh, B. A., 2022: Comparative estimation of serum biochemical profile during oestrus, pregnancy, and calving periods for dairy cows in Thiqar province. Kufa J. Vet. Med. Sci., 13, 1, 22‒28. Search in Google Scholar

2. Ashmawy, N. A., 2015: Blood metabolic profile and certain hormone concentrations in Egyptian buffalo during different physiological states. Asian J. Anim. Vet. Adv., 10, 271–280. DOI: 10.3923/ajava.2015.271.280. Search in Google Scholar

3. Astuti, A. B. P., Widyobroto, B. P., Noviandi, C. T., 2021: Nutrient status, haematological and blood metabolite profile of mid-lactating dairy cows during wet and dry seasons raised under Indonesian tropical environmental conditions. J. Anim. Behav. Biometeorol., 10, 1, 22007. DOI: 10.31893/ jabb.22007. Search in Google Scholar

4. Aziz, A., Mujalli, A., 2008: Studies on some serum constituents of dairy cows in Saudi Arabia. Sci. J. King Faisal Univ., 9, 1429. Search in Google Scholar

5. Brugere-Picoux, J., 1995: Maladies métaboliques et biochimie clinique de la vache laitière. La Dépêche Technique, 46‒30. Search in Google Scholar

6. Celeska, I., Janevski, A., Dzadzovski, I., Ulchar, I., Kirivski, D., 2015: The dynamics of biochemical parameters in blood of clinically healthy Holstein cows from day 5 before day 60 after calving. Mac. Vet. Rev., 38, 2, 189‒193. DOI: 10.14432/j.macvetrev.2015.07.049. Search in Google Scholar

7. Chacha, F., Bouzebda, Z., Bouzebda-Afri, F., Gherissi, D. E., Lamraoui, R., Mouffok, C. H., 2018: Body condition score and biochemical indices change in Montbeliard dairy cattle: influence of parity and lactation stage. Glob. Vet., 20, 36‒47. DOI: 10.5829/idosi.gv.2018.36.47. Search in Google Scholar

8. Chillar, Y., Bocquier, F., Doreau, M., 1998: Digestive and metabolic adaptations of ruminants to undernutrition, and consequences on reproduction. Repro. Nutr. Dev., 38, 131‒152. Search in Google Scholar

9. Das, H., Lateef, A., Panchasara, H. H., Ali, M. A., 2016: Haemato-biochemical alterations during different stages of lactation in Mehshani buffaloes. Buffalo Bull., 35, 3, 307‒315. Search in Google Scholar

10. Djokovic, R. D., Kurkubic, V. S., Ilic, Z. Z., 2014: Blood serum levels of macro and micronutrient in transition and full lactation cows. Bulg. J. Agric. Sci., 20, 715–720. Search in Google Scholar

11. Douglas, G. N., Overton, T. R., Bateman, H. G., Dann, H. M., Drackley, J. K., 2006: Prepartal plane of nutrition, regardless of dietary energy source, affects periparturient metabolism and dry matter intake. J. Dairy Sci., 89, 2141–2157. DOI: 10.3168/jds.S0022 0302(06)72285-8. Search in Google Scholar

12. Fadlalla, I., Omer, T. S. A., Atta, M., 2020: Determination of some serum macroelement minerals levels at different lactation stages of dairy cows and their correlations. Sci. Afr., 8, e00351. DOI: 10.1016/j.sciaf.2020.e00351. Search in Google Scholar

13. Gianesella, M., Perillo, L., Fiore, E., Giudice, E., Zumbo, A., Morgante, M., Piccione, G., 2018: Transition period in healthy and diseased dairy cows: Evaluation of metabolic modifications. Large Anim. Rev., 24, 107–101. Search in Google Scholar

14. Hagawane, S. D., Shinde, D. N., Rajgru, S. B., 2009: Haematological and blood biochemical profile in lactating buffaloes in and around Parbhani city. Vet. World., 2, 467–469. Search in Google Scholar

15. Haou, A., Miroud, K., Gherissi, D. E., 2021: Impact des caractéristiques du troupeau et des pratiques d’élevage sur les performances de reproduction des vaches laitières dans le Nord-Est algérien. Rev. Élev. Méd. Vét. Pays Trop., 74, 183–191. DOI: 10.19182/remvt.36798. Search in Google Scholar

16. Herdt, T. H., 2000: Variability characteristics and test selection in herd-level nutritional and metabolic profile testing. Vet. Clin. N. Am-Food. A., 9, 387–403. DOI: 10.1016/ S0749-0720(15)30111-0. Search in Google Scholar

17. Kadhim, M. S., Ali, B. H. A., 2019: Levels of some biochemical markers in sera of pregnant and non-pregnant lactating dairy cows in Baghdad, Iraq. Int. J. Vet. Sci., 2, 353–358. Search in Google Scholar

18. Kahn, C. M., Line, S., 2010: The Merck Veterinary Manual (Vol. 2825), 10h Edn., Kenilworth, NJ, Merck, 2945 pp. Search in Google Scholar

19. Kheffache, H., Bedrani, S., 2012: Les importations subventionnées de génisses à haut potentiel laitier: Un échec du à l’absence de politique laitière globale. Les cahiers du CREAD, 14 pp. Search in Google Scholar

20. Kristanto, D., Widiyono, I., Hartati, S., 2021: Blood metabolite parameters during pregnancy and lactation of Brahman crossbred cows grazed under oil palm plantation in Kali-mantan, Indonesia. J. Anim. Health Prod., 9, 312–320. Search in Google Scholar

21. Kupczynski, R., Chudoba-Drowdowska, B., 2002: Values of selected biochemical parameters of cow’s blood during their drying-off and the beginning of lactation. EJPAU Ser. Vet. Med., 5, 1. Search in Google Scholar

22. Latimer, K. S., Duncan, J. R., Mahafrey, E. A., Phrasse, K. W., 2011: Duncan and Prasse’s Veterinary Laboratory Medicine: clinical pathology. John Wiley and Sons, Chichester, 509 pp. Search in Google Scholar

23. Madani, T., Far, Z., 2002: Performances de races bovines laitières améliorées en région semi-aride algérienne. 9èmes Rencontres Recherches Ruminants, 122 pp. Search in Google Scholar

24. Mohamed, A. K., Mohamed, G., Akerejola, O. O., 2007: Haematological and serum biochemical changes in Bunaji work bulls after farmland ridging exercise in Kaduna State, Nigeria. J. Anim. Vet. Adv., 6, 576–579. Search in Google Scholar

25. Mohamed, G., 2014: Investigation of some enzymes level in blood and milk serum in two stages of milk yield dairy cows at Assiut City. Assiut. Vet. Med. J., 60, 142. DOI: 10.21608/ avmj.2014.170982. Search in Google Scholar

26. Mohammed, S. E., Ahmed, F. O., Frah, E. M. A., Elfaki, I., 2021: Determination of blood glucose, total protein, certain minerals, and triiodothyronine during late pregnancy and postpartum periods in crossbred dairy cows. Vet. Med. Int., 2021, 6610362. DOI: 10.1155/2021/6610362 Search in Google Scholar

27. ONIL, 2018: National Interprofessional Office for Milk and Dairy Products. Algeria. Available at https://onil.dz/office/. Search in Google Scholar

28. Pouroucholtamane, R., Chatterjee, A., Sheikh, M., Sarkar, M., Gorgi, D., 2005: Blood biochemical constituents of female yak in different physiological status. Indian. Vet. J., 82, 1108–1109. Search in Google Scholar

29. Radostits, O. N., Blood, D. C., Gay, C. C., 2007: Veterinary Medicine. A Textbook of the Diseases of Cattle, Sheep, Goats and Horses. 8th edn., London, Saunders Elsevier, Edinburg, Bailliere Tindall Ltd., 1763 pp. Search in Google Scholar

30. Shareef, A. B. O., Luaibi, O. K., 2020: Clinical and biochemical profile of Iraqi local breed cows during pregnancy and early lactation. Int. J. Vet. Med., 44, 51–56. DOI: 0.30539/ ijvm.v44i(E0).1021. Search in Google Scholar

31. Sulieman, M. S., Makawis, A., Ibrahim, K. E., 2017: Association between postpartum blood levels of glucose and urea and fertility of cross-bred dairy cows in Sudan. S. Afr. J. Anim. Sci., 47, 595–605. DOI: 10.4314/sajas.v47i5.2. Search in Google Scholar

32. Turk, R., Juretić, D., Gereš, D., Turk, N., Rekić, B., Simeon-Rudolf, V., Svetina, A., 2005: Serum paraoxonase activity in dairy cows during pregnancy. Res. Vet. Sci., 79, 15–18. Search in Google Scholar

33. Whitaker, D. A., 2000: Use and interpretation of metabolic profiles in dairy cows. In Andrews, A. H.: The Health of Dairy Cattle. Blackwell Science, Oxford, UK, 89–107. Search in Google Scholar

34. Yaylak, E., Yenisey, C., Seyrak, K., 2009: Effects of lameness, stage of lactation, and body condition score on some blood parameters in Holstein cows. Asian J. Anim. Vet. Adv., 4, 245–251. Search in Google Scholar