Relationships among Macro-Minerals, Other Selected Serum Markers of Bone Profile and Milk Components of Dairy Cows During Late Lactation

AOAC (2005). Official Methods of Analysis. 18th ed. AOAC International, Gaithersburg, MD. Search in Google Scholar

Arfuso F., Fazio F., Levanti M., Rizzo M., Di Pietro S., Giudice E., Piccione G.(2016). Lipid and lipoprotein profile changes in dairy cows in response to late pregnancy and the early postpartum period. Arch. Anim. Breed., 59: 429–434. Search in Google Scholar

Bobbo T., Fiore E.M., Gianesella M., Morgante M., Gall L., Ruegg P.L., Bittante G., Cecchianto A.(2017).Variation in blood serum proteins and association with somatic cell count in dairy cattle from multi-breed herds. Animal, 11: 2309–2319. Search in Google Scholar

Bodarski R., Kinal S., Preś J., Słupczyńska M., Twardoń J.(2013). The effect of MgSO₄ on the recurrence of hypocalcemia and hypophosphatemia in dairy cows. Polish J. Vet. Sci., 14: 655–662. Search in Google Scholar

Bondan C., Folchini J.A., Noro M., Quadros D.L., Machado K.M., Diaz González F.H.(2018). Milk composition of Holstein cows: a retrospective study. Cienc. Rural, 48: 12. Search in Google Scholar

Clarke B.(2008). Normal bone anatomy and physiology. Clin. J. Am. Soc. Nephrol., 3: 131–139. Search in Google Scholar

Cook N., Oetzelg G., Nordlund K.(2006). Modern techniques for monitoring high-producing dairy cows 1. Practical applications. In Pract., 28: 598–603. Search in Google Scholar

Cozzi G., Ravarotto L., Gottardo F., Stefani A.L., Contiero B., Moro L., Brscic M., Dalvit P.(2011). Reference values for blood parameters in Holstein dairy cows: Effects of parity, stage of lactation, and season of production. J. Dairy Sci., 94: 3895–3901. Search in Google Scholar

Datta H.K., Ng W.F., Walker J.A., Tuck S.P., Varanasi S.S.(2008). The cell biology of bone metabolism, J. Clin. Pathol., 61: 577–587. Search in Google Scholar

Djokovic R., Kurcubic V., Ilic Z.(2014). Blood serum levels of macro and micronutrients in transition and full lactation cows. Bul. J. Agri.. Sci., 20: 715–720. Search in Google Scholar

Djokovic R., Cincovic M., Ilic Z., Kurcubic V., Andjelic B., Petrovic M., Lalic N., Jasovic B.(2019). Relationships between contents of biochemical metabolites in blood and milk in dairy cows during transition and mid lactation. Intern. J. Appl. Res. Vet. Med., 17: 1–9. Search in Google Scholar

Downey P.A., Siegel M.I.(2006). Bone biology and the clinical implications for osteoporosis. Physical Therapy, 86: 77–91. Search in Google Scholar

Evans G.O., Parsons C. (1988) A comparison of two dye-binding methods for the determination of dog, rat and human plasma albumins. J. Comp. Pathol., 98: 453–460. Search in Google Scholar

Filipejová T., Kováčik J.(2009). Evaluation of selected biochemical parameters in blood plasma, urine and milk of dairy cows during the lactation period. Slovak J. Anim. Sci., 42 (suppl.1): 8–12. Search in Google Scholar

Fiore E., Arfuso F., Gianesella M., Vecchio D., Morgante M., Mazzotta E., Badon T., Rossi P., Bedin S., Piccione G.(2018). Metabolic and hormonal adaptation in Bubalus bubalis around calving and early lactation. PLoS One, 4;13(4):e0193803. Search in Google Scholar

Florencio-Silva R., Rodriguesda Silva Sasso G., Sasso-Cerri E, Simões M.J, Sérgio Cerri P.(2015). Biology of bone tissue: structure, function, and factors that influence bone cells. BioMed Res. Inter., 421746: 17 pp. Search in Google Scholar

Goff J.P.(2003). Managing of transition cows – considerations for optimizing energy and protein balance and immune function. Cattle Pract., 11: 51–63. Search in Google Scholar

Goff J.P.(2006). Major advances in our understanding of nutritional influence on bovine health. J. Dairy Sci., 89: 1292–1301. Search in Google Scholar

Gray C.P., St George T.D., Jonsson N.N.(2007). Milk fever in dairy cattle: a novel hypothesis for immune mediated aetiology. Cattle Pract., 15: 277–282. Search in Google Scholar

Hall L.W., Villar F., Chapman J.D., Mc Lean D.J., Long N.M., Xiao Y., Collier J.R., Collier R.J.(2018). An evaluation of an immunomodulatory feed ingredient in heat-stressed lactating Holstein cows: Effects on hormonal, physiological, and production responses. J. Dairy Sci., 101: 7095–7105. Search in Google Scholar

Heron V.(2018). Calcium, phosphate and magnesium disorders. In: Fluid and electrolyte disorders, U. Mahmood, (ed.). Intech Open., DOI: 10.5772/intechopen.81173.10.5772/intechopen.81173 Search in Google Scholar

Jóźwik A., Strzałkowska N., Bagnicka E., Grzybek W., Krzyżewski J., Poławska E., Kołataj A., Horbańczuk J.O.(2012). Relationship between milk yield, stage of lactation, and some blood serum metabolic parameters of dairy cows. Czech J. Anim. Sci., 57: 353–360. Search in Google Scholar

Kaneko J.J., Harvey J.W., Bruss M.L., Burs M.(1997). Clinical biochemistry of domestic animals. 5th ed. San Diego, California, USA Academic Press, pp. 678. Search in Google Scholar

Kendall N.R., Bone P.(2006). Fertility and trace elements – an underestimated problem. Cattle Pract., 14: 17–22. Search in Google Scholar

Khachlouf K., Hamed H., Gdoura R., Gargouri A.(2019). Effects of dietary Zeolite supplementation on milk yield and composition and blood minerals status in lactating dairy cows. J. Appl. Anim. Res., 47: 54–62. Search in Google Scholar

Kida K.(2003). Relationships of metabolic profiles to milk production and feeding in dairy cows. J. Vet. Med. Sci., 65: 671–677. Search in Google Scholar

Kimura K., Reinhardt T.A., Goff J.P.(2006). Parturition and hypocalcemia blunts calcium signals and immune cells of dairy cattle. J. Dairy Sci., 89: 2588–2595. Search in Google Scholar

Kołacz R., Dobrzański Z., Kupczyński R., Cwynar P., Opaliński S., Pogoda-Sewerniak K.(2017). Impact of the copper industry on the content of selected heavy metals and biochemical indicators in the blood of dairy cows. Med. Weter., 73: 171–175. Search in Google Scholar

Kroll M.H., Elin R.J.(1985). Relationships between magnesium and protein concentrations in serum. Clin. Chem., 31: 244–246. Search in Google Scholar

Kupczyński R., Adamski M., Falta D., Chládek G., Kruszyński W.(2011). The influence of condition on the metabolic profile of Czech Fleckvieh cows in the perinatal period. Arch. Anim. Breed., 54: 456–467. Search in Google Scholar

Le Blanc S.J.(2011). The association of serum metabolites with clinical disease during the transition period. J. Dairy Sci., 94: 4897–4903. Search in Google Scholar

López-Alonso M., Rey-Crespo F., Orjales I., Rodriguez-Bermudez R., Miranda M.(2016). Effects of different strategies of mineral supplementation (marine algae alone or combined with rumen boluses) in organic dairy systems. J. Anim. Physiol Anim. Nutr., 100: 836–843. Search in Google Scholar

Manolagas S.C.(2000). Birth and death of bone cells: basic regulatory mechanisms and implications for the pathogenesis and treatment of osteoporosis. Endocr. Rev., 21: 115–137. Search in Google Scholar

Mee J.F.(2004). The role of micronutrients in bovine periparturient problems. Cattle Pract., 12: 95–10. Search in Google Scholar

Mordak R., Nicpoń J.(2006). Selected blond parameters in cows at the periparturient period and increasing lactation Med. Weter., 62: 1292–1294. Search in Google Scholar

Mordak R., Nicpoń J., Illek J.(2017). Metabolic and mineral conditions of retained placenta in highly productive dairy cows: pathogenesis, diagnostics and prevention – a review. Acta Vet. Brno, 86: 239–248. Search in Google Scholar

Mordak R., Kupczyński R., Kuczaj M., Niżański W.(2020). Analysis of correlations between selected blood markers of liver function and milk composition in cows during late lactation period. Ann. Anim. Sci., 20: 871–886. Search in Google Scholar

Mulligan F.J., O’Grady L., Doherty M.L.(2008). Milk fever and subclinical hypocalcaemia: their role in transition cow health and prevention strategies. Cattle Pract., 16: 188–193. Search in Google Scholar

Nozad S., Ramin A.G., Moghadam G.(2011). Diurnal variations in milk, urea, protein and lactose concentrations in Holstein dairy cows. Acta Vet. Beograd, 61: 3–12. Search in Google Scholar

Nozad S., Ramin A.G., Moghadam G., Rezaei S.A., Babapour A., Ramin S.(2012). Relationship between blood urea, protein, creatinine, triglycerides and macro-mineral concentrations with the quality and quantity of milk in dairy Holstein cows. Vet. Res. Forum, 3: 55–59. Search in Google Scholar

Oezel G.R.(2004). Monitoring and testing dairy herds for metabolic diseases. Vet. Clin. N. Am. Food A., 20: 651–667. Search in Google Scholar

Patil M.P., Nagvekar A.S., Ingole S.D., Bharucha S.V., Palve V.T.(2015). Somatic cell count and alkaline phosphatase activity in milk for evaluation of mastitis in buffalo. Vet. World., 8: 363–366. Search in Google Scholar

Phan T.C.A., Xu J., Zheng M.H.(2004). Interaction between osteoblast and osteoclast: impact in bone disease. Histol. Histopathol., 19: 1325–1344. Search in Google Scholar

Prado J.O.R., Morales B., Molina J.O., García L.M., Macedo R.B., Hernández J.R., García A.C.(2019). Relationship between biochemical analytes and milk fat/protein in Holstein cows, Austral J. Vet. Sci., 51, http://dx.doi.org/10.4067/S071981322019000100102 Search in Google Scholar

Risteli J., Winter W.E., Kleerekoper M., Risteli L.(2012). Disorders of bone and mineral metabolism. Chapter 52. In: Tietz textbook of clinical chemistry and molecular diagnostics, Burtis C.A., Ashwood E.R., Bruns D.E. (eds). 5th Ed. St. Louis, MO Elsevier, pp. 1733–1802. Search in Google Scholar

Robling A.G., Castillo A.B., Turner C.H.(2006). Biomechanical and molecular regulation of bone remodeling, Ann. Rev. Biomed. Eng., 8: 455–498. Search in Google Scholar

Spears J.W., Weiss P.W.(2008). Role of antioxidants and trace elements in health and immunity of transition dairy cows. Vet. J., 176: 70–76. Search in Google Scholar

Tsiamadis V., Banos G., Panousis N., Kritsepi-Konstantinou M., Arsenos G., Valergakis G.E.(2016). Genetic parameters of calcium, phosphorus, magnesium, and potassium serum concentrations during the first 8 days after calving in Holstein cows. J. Dairy Sci., 99: 5535–5544. Search in Google Scholar

Whitaker D.A., Macrae A.I., Burrough E.(2005). Nutrition, fertility and dairy herd productivity. Cattle Pract., 13: 27–32. Search in Google Scholar

Winnicka A.(2011). Reference values of basic laboratory tests in veterinary medicine. 5th Ed., SGGW, Warsaw. Search in Google Scholar