Details

Title

Effect of organic zinc supplementation on hematological, mineral, and metabolic profile in dairy cows in early lactation

Journal title

Polish Journal of Veterinary Sciences

Yearbook

2023

Volume

vol. 26

Issue

No 4

Authors

Affiliation

Dresler, S. : Department of Animal Husbandry Sciences, Faculty of Agriculture and Technology, University of South Bohemia in České Budějovice, Studentská 1668, 370 05 České Budějovice, Czech Republic ; Šoch, M. : Department of Animal Husbandry Sciences, Faculty of Agriculture and Technology, University of South Bohemia in České Budějovice, Studentská 1668, 370 05 České Budějovice, Czech Republic ; Illek, J. : Faculty of Veterinary Medicine, Large Animal Clinical Laboratory, University of Veterinary and Pharmaceutical Sciences Brno, Palackého tř. 1946/1, 612 42 Brno, Czech Republic ; Cebulska, K. : Department of Internal Disease, Faculty of Veterinary Medicine, University of Warmia and Mazury in Olsztyn, Oczapowskiego 14, 10-957 Olsztyn, Poland

Keywords

trace elements ; zinc ; hematocrit ; biochemical parameters

Divisions of PAS

Nauki Biologiczne i Rolnicze

Coverage

675-686

Publisher

Polish Academy of Sciences Committee of Veterinary Sciences ; University of Warmia and Mazury in Olsztyn

Bibliography

1. Alhussien MN, Tiwari S, Panda BSK, Pandey Y, Lathwal SS, Dang AK (2021) Supplementation of antioxidant micronutrients reduces stress and improves immune function/ response in periparturient dairy cows and their calves. J Trace Elem Med Biol 65: 126718.
2. Ambooken B, Binitha MP, Sarita S (2013) Zinc deficiency associated with hypothyroidism: an overlooked cause of severe alopecia. Int J Trichology 5: 40-42.
3. Ballantine HT, Socha MT, Tomlinson DJ, Johnson AB, Fielding AS, Shearer JK, Van Amstel SR (2002) Effect of feeding complexed to zinc, manganese, copper and cobalt to late gestation and lactating dairy cows on claw integrity, reproduction and lactation performance. Prof Anim Sci 18: 211-218.
4. Brown ED, Chan W, Smith JC Jr. (1978) Bone Mineralization During a Developing Zinc Deficiency. Proc Soc Exp Biol Med 157: 211-214.
5. Byrne L, Murphy RA (2022) Relative Bioavailability of Trace Minerals in Production Animal Nutrition: A Review. Animals (Basel) 12: 1981.
6. Caldera E, Weigel B, Kucharczyk VN, Sellins KS, Archibeque SL, Wagner JJ, Han H, Spears JW, Engle TE (2019) Trace mineral source influences ruminal distribution of copper and zinc and their binding strength to ruminal digesta. J Anim Sci 97: 1852-1864.
7. Cao J, Henry PR, Guo R, Holwerda RA, Toth JP, Littell RC, Miles RD, Ammerman CB (2000) Chemical characteristics and relative bi-oavailability of supplemental organic zinc sources for poultry and ruminants. J Anim Sci 78: 2039-2054.
8. Cebulska K, Sobiech P, Tobolski D, Wysocka D, Janiszewski P, Zalewski D, Gugolek A, Illek, J (2021) Comparison of the content of selected heavy metals in the liver tissue of the wild boar (Sus scrofa), red fox (Vulpes vulpes) and red deer (Cervus elaphus), living in north-eastern Poland. Pol J Vet Sci 24: 425-432.
9. Chen F, Li Y, Shen Y, Guo Y, Zhao X, Li Q, Cao Y, Zhang X, Li Y, Wang Z, Gao Y, Li J (2020) Effects of prepartum zinc-methionine supplementation on feed digestibility, rumen fermentation patterns, immunity status, and passive transfer of immunity in dairy cows. J Dairy Sci 103: 8976-8985.
10. Chen SM, Kuo CD, Ho LT, Liao JF (2005) Effect of hypothyroidism on intestinal zinc absorption and renal zinc disposal in five-sixths nephrectomized rats. Jpn J Physiol 55: 211-219.
11. Chesters JK (1997) Zinc. In: O’Dell BS, Sunde RA (eds), Handbook of Nutritionally Essential 260 Mineral Elements. Marcel Dekker, New York, p 185.
12. Choi JW, Kim SK (2005) Relationships of lead, copper, zinc, and cadmium levels versus hematopoiesis and iron parameters in healthy adolescents. Ann Clin Lab Sci 35 (4): 428-434
13. Dash S, Brewer GJ, Oelshlegel FJ Jr (1974) Effect of zinc on heamoglobin binding by red blood cell membranes. Nature 250: 251-252.
14. Dirksen G, Gründer H D, Stöber M; Baumgartner W, Braun U, Doll K, Fürll M, Giese W, Haas L, Hoffmann W, Klee W, Köstlin R, Kümper H, Laiblin CH, Martig J, Moenning V, Mülling CH, Pohlenz J, Rademacher G, Renner E, Scholz H, Stanek CH, Staufenbiel R, Steiner A, Stöber M, Straub OCh, Trautwein G (2006) Internal medicine and surgery of cattle (in German). 5. ed. Parey Verlag, Thieme Verlagsgruppe, Berlin.
15. Dresler S, Illek J, Zeman L (2016) Effects of organic zinc supplementation in weaned calves. Acta Vet Brno 85: 049-054.
16. El-Maghraby MM, Mahmoud AE (2021) Clinical, hematological, and biochemical studies on hypozincemia in neonatal calves in Egypt. Vet World 14: 314-318.
17. Freake HC, Govoni KE, Guda K, Huang C, Zinn SA (2001) Actions and interactions of thyroid hormone and zinc status in growing rats. J Nutr 131: 1135-1141.
18. Giugliano R, Millward DJ (1984) Growth and zinc homeostasis in the severely Zn-deficient rat. Br J Nutr 52: 545-560.
19. Griffiths LM, Loefler SH, Socha MT, Tomlinson DJ, Johnson AB (2007) Effects of supplementing complexed zinc, manganese, copper and cobalt on lactation and reproductive performance of intensively grazed lactating dairy cattle on the South Island of New Zealand. Anim Feed Sci Technol 137: 69-83.
20. Gude D (2011) Tracing elements in hair. Int J Trichology 3: 132-133.
21. Hamilton RP, Fox MRS, Fry BE Jr, Jones AOL, Jacobs RM (1979) Zinc interference with copper, iron and manganese in young japa-nese quail. J Food Sci 44: 738-741.
22. Horst EA, Mayorga EJ, Al-Qaisi M, Abeyta MA, Goetz BM, Ramirez Ramirez HA, Kleinschmit DH, Baumgard LH (2019) Effects of dietary zinc source on the metabolic and immunological response to lipopolysaccharide in lactating Holstein dairy cows. J Dairy Sci 102: 11681-11700.
23. Hussein AN (2018) The effect of zinc and copper deficiency on hematological parameters, oxidative stress, and antioxidants levels in the sheep. Bas J Vet Res 16(2): 344-355.
24. Illek J (1987) The incidence and diagnosis, therapy and prevention of cobalt, manganese, copper, and zinc deficiency (in Czech). Doctoral thesis, University of Veterinary and Pharmaceutical Sciences Brno, Czech Republic, p 330.
25. Jagoš P, Bouda J, Hejlíček K, Hojovec J, Kozumplík J, Kudláč E, Roztočil V, Veselý Z (1985) Diagnosis, therapy and prevention of cat-tle diseases (in Czech). 1st ed., State Agriculture Publishing House, Prague, Czech Republic. p 472.
26. Jones GM, Wildman EE, Troutt HF Jr, Lesch TN, Wagner PE, Boman RL, Lanning NM (1982) Metabolic profiles in Virginia dairy herds of different milk yields. J Dairy Sci 65: 683-688.
27. Kalaeva E, Kalaev V, Chernitskiy A, Alhamed M, Safonov V (2020) Incidence risk of bronchopneumonia in newborn calves associated with intrauterine diselementosis. Vet World 13: 987-995.
28. Kardaya D, Dihansih E, Sudrajat D (2020) Flushing diets influence on blood mineral and haematological profile of late-pregnant cows under extensive grazing. Adv Anim Vet Sci 8: 1310-1317.
29. Kellogg DW, Tomlinson DJ, Socha MT, Johnson AB (2004) Effects of zinc methionine complex on milk production and somatic cell count of dairy cows: Twelve-trial summary. Prof Anim Sci 20: 295-301.
30. Kinal S, Twardoń J, Bednarski M, Preś J, Bodarski R, Słupczyńska M, Ochota M, Dejneka GJ (2011) The influence of administration of biotin and zinc chelate (Zn-methionine) to cows in the first and second trimester of lactation on their health and productivity. Pol J Vet Sci 14: 103-110.
31. Kincaid RL, Socha MT (2004) Inorganic versus complexed trace mineral supplements on performance of dairy cows. Prof Anim Sci 20: 66-73.
32. Kleczkowski M, Klucinski W, Sikora J, Sitarska E, Winnicka A, Ładysz R, Ziekan P, Wojewoda J, Skowronski M (1995) The effect of the low concentration of copper, zinc, molybdenum, selenum, sulphur in the fodder on selected hematological parameters and glutathione peroxidase activity in calves and cows. Mengen-und Spurenelemente. 15, Arbeitstagung: 400-407.
33. Kovačević V, Cincović MR, Belić B, Đoković R, Lakić I, Radinović M, Potkonjak A (2021) Biological variations of hematologic and biochemical parameters in cows during early lactation. Pol J Vet Sci 24: 119-125.
34. Machado VS, Bicalho MLS, Pereira RV, Caixeta LS, Knauer WA, Oikonomou G, Gilbert RO, Bicalho RC (2013) Effect of an injectable trace mineral supplement containing selenium, copper, zinc, and manganese on the health and production of lactating Holstein cows. Vet J 197: 451-456.
35. Malcom-Callis KJ, Duff GC, Gunter SA, Kegley EB, Vermeire DA (2000) Effects of supplemental zinc concentration and source on performance, carcass characteristics, and serum values in finishing beef steers. J Anim Sci 78: 2801-2808.
36. Mattioli GA, Rosa DE, Turic E, Testa JA, Lizarraga RM, Fazzio LE (2019) Effect of Injectable Copper and Zinc Supplementation on Weight, Hematological Parameters, and Immune Response in Pre-weaning Beef Calves. Biol Trace Elem Res 189: 456-462.
37. Milne DB, Ralston NV and Wallwork JC (1985) Zinc content of cellular components of blood: methods for cell separation and analysis evaluated. Clin Chem 31: 65-69.
38. Miyamoto T, Sakurai A, DeGroot LJ (1991) Effects of zinc and other divalent metals on deoxyribonucleic acid binding and hor-mone-binding activity of human alpha 1 thyroid hormone receptor expressed in Escherichia coli. Endocrinology 129: 3027-3033.
39. Mohajeri G, Norouzian MA, Mohseni M, Afzalzadeh A (2014) Changes of blood metals, hematology and hepatic enzyme activities in lactating cows reared in the vicincity of a lead-zinc smelter. Bull Environ Contam Toxicol 92: 693-697.
40. Mullur R, Liu YY, Brent GA (2014) Thyroid hormone regulation of Metabolism. Physiol Rev 94: 355-382.
41. Nagalakshmi D, Dhanalakshmi K, Himabindu D (2009) Effect of dose and source of supplemental zinc on immune response and oxida-tive enzymes in lambs. Vet Res Commun 33: 631-644.
42. Neathery MW, Miller WJ, Blackmon DM, Gentry RP (1973) Performance and milk zinc from low-zinc intake in Holstein cows. J Dairy Sci 56: 212-217.
43. Nocek JE, Socha MT, Tomlinson DJ (2006) The effect of trace mineral fortification level and source on performance of dairy cattle. J Dairy Sci 89: 2679-2693.
44. NRC (2001) Nutrient requirements of domestic animals, nutrient requirements of dairy cattle. 7th Edition rev. Ed. National Academies Press, Washington DC, p 408.
45. Osorio JS, Trevisi E, Li C, Drackley JK, Socha MT, Loor JJ (2016) Supplementing Zn, Mn, and Cu from amino acid complexes and Co from cobalt glucoheptonate during the peripartal period benefits postpartal cow performance and blood neutrophil function. J Dairy Sci 99: 1868-1883.
46. Payne JM, Hibbitt KG, Sansom BF (1973) Production disease in farm animals. The Whitefriars Press Ltd., London and Tonbridge, UK, p 253.
47. Siciliano-Jones JL, Socha MT, Tomlinson DJ, De Frain JM (2008) Effect of Trace Mineral Source on Lactation Performance, Claw In-tegrity, and Fertility of Dairy Cattle. J Dairy Sci 91: 1985-1995.
48. Sobhanirad S, Naserian AA (2012) Effects of high dietary zinc concentration and zinc sources on hematology and biochemistry of blood serum in Holstein dairy cows. Anim Feed Sci Tech 177: 242-246.
49. Spain J (1993) Tissue integrity: a key defense against mastitis infection: the role of zinc proteinates and a theory for mode of action. In: Lyons TP (ed), Biotechnology in the Feed Industry, Proceedings of the 9th Annual Symposium. Alltech Technical Publication, Nicho-lasville, KY, USA, pp 53-58.
50. Spears JW (1989) Zinc methionine for ruminants: relative bioavailability of zinc in lambs and effects of growth and performance of growing heifers. J Anim Sci 67: 835-843.
51. Spears JW (1996) Organic trace minerals in ruminant nutrition. Anim Feed Sci Technol 58: 151-163.
52. Spears JW, Kegley EB (2002) Effect of zinc source (zinc oxide vs. zinc proteinate) and level on performance, carcass characteristics, and immune response of growing and finishing steers. J Anim Sci 80: 2747-2752.
53. Šoch M, Broucek J, Vydrova P, Travnicek J, Raabova M, Uhrincat M (2010) Effect of enviromental and management factors on hema-tological and trace blood elements of cows. Slovak J Anim Sci 43(4): 195-204.
54. Šrejberová P, Šoch M, Brouček J (2008) Relationship between copper and zinc on selected hematological parameters in beef and dairy cattle. Slovak J Anim Sci 41: 42-45.
55. Triggiani V, Tafaro E, Giagulli VA, Sabbà C, Resta F, Licchelli B, Guastamacchia E (2009) Role of iodine, selenium and other micronu-trients in thyroid function and disorders. Endocr Metab Immune Disord Drug Targets 9: 277-294.
56. Underwood EJ and Suttle NF (1999) Mineral Nutrition of Livestock. 3rd ed., CAB Imternational, Wallingford, p 614.
57. Wedekind KJ, Hortin AE, Baker DH (1992) Methodology for assessing zinc bioavailability: Efficacy estimates for zinc-methionine, zinc sulfate, and zinc oxide. J Anim Sci 70: 178-187.
58. Yokus B, Cakir UD (2006) Seasonal and physiological variations in serum chemistry and mineral concentrations in cattle. Biol Trace Elem Res 109: 255-266.
59. Żarczyńska K, Sobiech P, Tobolski D, Mee JF, Illek J (2021) Effect of a single, oral administration of selenitetriglycerides, at two dose rates, on blood selenium status and haematological and biochemical parameters in Holstein-Friesian calves. Ir Vet J 74: 2-11.

Date

2023.12.12

Type

Article

Identifier

DOI: 10.24425/pjvs.2023.148287
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