Czech J. Food Sci., 2014, 32(3):273-279 | DOI: 10.17221/360/2013-CJFS

Effect of cow energy status on the hypercholesterolaemic fatty acid proportion in raw milkOriginal Paper

Jaromír DUCHÁČEK, Luděk STÁDNÍK, Martin PTÁČEK, Jan BERAN, Monika OKROUHLÁ, Jaroslav ČÍTEK, Roman STUPKA
Department of Animal Husbandry, Faculty of Agrobiology, Food and Natural Resources, Czech University of Life Sciences Prague, Prague, Czech Republic

We evaluated the proportion of fatty acid groups, with an emphasis on hypercholesterolaemic fatty acids, in the milk of 25 Holstein cows during the 1st period of lactation in relation to their negative energy balance (NEB). Sampling of each cow's milk started on the 7th day after calving. Milk samples (n = 425) were collected at 7-day periods during the first 17 weeks of lactation. The proportion (%) of saturated (SFA), hypercholesterolaemic (HCFA), volatile (VFA), unsaturated (UFA), monounsaturated (MUFA), and polyunsaturated (PUFA) fatty acids in the milk fat was determined. Body condition score and fat to protein ratio in milk were applied for precise determination of the NEB breakpoint during the observed period. The effects of parity, NEB, regression on lactation week and fat to protein ratio were evaluated using SAS 9.3. Milk contained a lower proportion of SFA as well as equally higher UFA (± 2.13%; P < 0.01) during the NEB period. The overcoming of NEB caused an increase in SFA, however, and simultaneously a significant decline in total HCFA (-1.86%; P < 0.01) as well as main MUFA (-1.81%, P < 0.05). The results document the necessity of increasing Holstein cow robustness to meet the production conditions in dairy farms in relation to the requirement of higher nutrient quality as well as the potential health benefits of cow's raw milk for consumers.

Keywords: consumer; dairy cow; health; negative energy balance; milk fat

Published: June 30, 2014  Show citation

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DUCHÁČEK J, STÁDNÍK L, PTÁČEK M, BERAN J, OKROUHLÁ M, ČÍTEK J, STUPKA R. Effect of cow energy status on the hypercholesterolaemic fatty acid proportion in raw milk. Czech J. Food Sci. 2014;32(3):273-279. doi: 10.17221/360/2013-CJFS.
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    References

    1. Bauman D.E., Griinari J.M. (2003): Nutritional regulation of milk fat synthesis. Annual Review of Nutrition, 23: 203-227. Go to original source... Go to PubMed...
    2. Bauman D.E., Lock A.L. (2010): Milk fatty acid composition: challenges and opportunities related to human health. In: XXVI World Buiatrics Congress, Nov 14-18, 2010, Santiago, Chile: 278-289.
    3. Bauman D.E., Mather I.H., Wall R.J., Lock A.L. (2006): Major advances associated with the biosynthesis of milk. Journal of Dairy Science, 89: 1235-1243. Go to original source... Go to PubMed...
    4. Bhagwat A.M., De Baets B., Steen A., Vlaeminck B., Fievez V. (2012): Prediction of ruminal volatile fatty acid proportion of lactating dairy cows based on milk odd- and branched-chain fatty acid profiles: new models, better predictions. Journal of Dairy Science, 95: 3926-3937. Go to original source... Go to PubMed...
    5. Dhiman T.R., Helmink E.D., McMahon D.J., Fife R.L., Pariza M.W. (1999): Conjugated linoleic acid content of milk and cheese from cows fed extruded oilseeds. Journal of Dairy Science, 82: 412-419. Go to original source... Go to PubMed...
    6. Domagala J., Pluta-Kubica A., Pustkowiak H. (2013): Changes in conjugated linoleic acid content in Emmentaltype cheese during manufacturing. Czech Journal of Food Sciences, 31: 432-437. Go to original source...
    7. Duffield T.F., Kelton D.F., Leslie K.E., Lissemore K., Lumsden J.H. (1997): Use of test day milk fat and milk protein to predict subclinical ketosis in Ontario dairy cattle. Canadian Veterinary Journal, 38: 713-718.
    8. Ducháček J., Vacek M., Stádník L., Beran J., Okrouhlá M. (2012a): Changes in milk fatty acid composition in relation to indicators of energy balance in Holstein cows. Acta Universitatis Agriculturae et Silviculturae Mendelianae Brunensis, 60: 29-37. Go to original source...
    9. Ducháček J., Stádník L., Beran J. (2012b): Milk fat: protein ratio and its relationships to the incidence of ovarian cysts in cows. Reproduction in Domestic Animals, 47 (Suppl. 5): 81-81.
    10. Ducháček J., Stádník L., Beran J., Okrouhlá M. (2012c): The relationship between fatty acid and citric acid concentrations in milk from Holstein cows during the period of negative energy balance. Journal of Central European Agriculture, 13: 615-630. Go to original source...
    11. Ducháček J., Stádník L., Beran J., Okrouhlá M., Vacek M., Doležalová M. (2013): Body condition score and milk fatty acid composition in early lactation of Czech Fleckvieh cows. Acta Universitatis Agriculturae et Silviculturae Mendelianae Brunensis, 61: 1621-1628. Go to original source...
    12. Ferguson J.D., Galligano D.T., Thomsen N. (1994): Principal descriptors of body condition score in Holstein cows. Journal of Dairy Science, 77: 2695-2703. Go to original source... Go to PubMed...
    13. Gellrich K., Meyer H.H.D., Wiedemann S. (2014): Composition of major proteins in cow milk differing in mean protein concentration during the first 155 days of lactation and the influence of season as well as short-term restricted feeding in early and mid-lactation. Czech Journal of Animal Science, 59: 97-106. Go to original source...
    14. Gross J., van Dorl and H.A., Bruckmaier R.M., Schwarz F.J. (2011): Milk fatty acid profile related to energy balance in dairy cows. Journal of Dairy Research, 78: 478-488. Go to original source... Go to PubMed...
    15. Hanuš O., Samková E., Špička J., Sojková K., Hanušová K., Kopec T., Vyletělová M., Jedelská R. (2010): Vztah koncentrace zdravotně významných skupin mastných kyselin ke složkám a technologickým vlastnostem kravského mléka. Acta Universitatis Agriculturae et Silviculturae Mendelianae Brunensis, 58: 137-153. Go to original source...
    16. Harvatine K.J., Boisclair Y.R., Bauman D.E. (2009): Recent advances in the regulation of milk fat synthesis. Animal, 3: 40-54. Go to original source... Go to PubMed...
    17. Haug A., Høstmark A.T., Harstad O.M. (2007): Bovine milk in human nutrition - a review. Lipids in Health and Disease, 6: 1-16. Go to original source... Go to PubMed...
    18. Innis S.M. (2007): Essential fatty acids in infant nutrition: lessons and limitations from animal studies in relation to studies on infant fatty acid requirements. The American Journal of Clinical Nutrition, 71: 238S-244S. Go to original source... Go to PubMed...
    19. Jensen R.G. (2002): The composition of bovine milk lipids: January 1995 to December 2000. Journal of Dairy Science, 85: 295-350. Go to original source... Go to PubMed...
    20. Jokić S., Suder R., Svilović S., Vidović S., Bilić M., Velić D., Jurković V. (2013): Fatty acid composition of oil obtained from soyabeans by extraction with supercritical carbon dioxide. Czech Journal of Food Sciences, 31: 116-125. Go to original source...
    21. 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 Journal of Animal Science, 57: 353-360. Go to original source...
    22. Kadlecová V., Němečková D., Ječmínková K., Stádník L. (2014a): Association of bovine DGAT1 and leptin genes polymorphism with milk production traits and energy balance indicators in primiparous Holstein cows. Mljekarstvo, 64: 19-26.
    23. Kadlecová V., Němečková D., Ječmínková K., Stádník L. (2014b): The effects of polymorphism in the DGAT1 gene on energy balance and milk production traits in primiparous Holstein cows during the first six months of lactation. Bulgarian Journal of Agricultural Science, 20: 203-209.
    24. Kay J.K., Weber W.J., Moore C.E., Bauman D.E., Hansen L.B., Chester-Jones H., Crooker B.A., Baumgard L.H. (2005): Effects of week of lactation and genetic selection for milk yield on milk fatty acid composition in Holstein cows. Journal of Dairy Science, 88: 3886-3893. Go to original source... Go to PubMed...
    25. Kaylegian K.E., Lindsay R.C. (1995): Handbook of Milkfat Fractionation Technology and Applications. AOCS Press, Champaign: 657.
    26. Kirchnerová K., Foltys V., Špička J. (2013): Impact of lactation stage on milk fat fatty acids profile in grazing dairy cows. Journal of Microbiology, Biotechnology and Food Sciences, 2: 1164-1174.
    27. Kontkanen H., Rokka S., Kemppinen A., Miettinen H., Hellström J., Kruus K., Marnila P., Alatossava T., Korhonen H. (2011): Enzymatic and physical modification of milk fat: A review. International Dairy Journal, 21: 3-13. Go to original source...
    28. Kupczyński R., Kuczaj M., Szołtysik M., Stefaniak T. (2012): Influence of fish oil, palm oil and glycerol on milk fatty acid composition and metabolism in cows during early lactation. Archiv für Tierzucht, 55: 540-551. Go to original source...
    29. Louda F., Stádník L. (2000): Vliv rozdílné úrovně výživy na hormonální a ovulační aktivitu u přežvýkavců. Czech Journal of Animal Science, 45: 553-556.
    30. Marounek M., Pavlata L., Mišurová L., Volek Z., Dvořák R. (2012): Changes in the composition of goat colostrum and milk fatty acids during the first month of lactation. Czech Journal of Animal Science, 57: 28-33. Go to original source...
    31. Moallem U., Katz M., Arieli A., Lehrer H. (2007): Effects of peripartum propylene glycol or fats differing in fatty acid profiles on feed intake, production, and plasma metabolites in dairy cows. Journal of Dairy Science, 90: 3846-3856. Go to original source... Go to PubMed...
    32. Patton J., Kenny D.A., McNamara S., Mee J.F., O'Mara F.P., Diskin M.G., Murphy J.J. (2007): Relationship among milk production, energy balance, plasma analytes, and reproduction in Holstein-Friesian cows. Journal of Dairy Science, 90: 649-658. Go to original source... Go to PubMed...
    33. Pešek M., Špička J., Samková E. (2005): Comparison of fatty acid composition in milk fat of Czech Pied cattle and Holstein cattle. Czech Journal of Animal Science, 50: 122-128. Go to original source...
    34. Pešek M., Samková E., Špička J. (2006): Fatty acids and composition of their important groups in milk fat of Czech Pied cattle. Czech Journal of Animal Science, 51: 181-188. Go to original source...
    35. Podpečan O., Mrkun J., Zrimšek P. (2008): Diagnostic evaluation of fat to protein ratio in prolonged calving to conception interval using receiver operating characteristic analyses. Reproduction in Domestic Animals, 43: 249-254. Go to original source... Go to PubMed...
    36. Řehák D., Volek J., Bartoň L., Vodková Z., Kubešová M., Rajmon R. (2012): Relationships among milk yield, body weight, and reproduction in Holstein and Czech Fleckvieh cows. Czech Journal of Animal Science, 57: 274-282. Go to original source...
    37. Samková E., Pešek M., Špička J. (2008): Mastné kyseliny mléčného tuku skotu a faktory ovlivňující jejich zastoupení. Jihočeská univerzita v Českých Budějovicích. Zemědělská fakulta: 90.
    38. SAS Institute Inc. (2011): SAS/STAT® 9.3 User's Guide. SAS Institute Inc., Cary.
    39. Shibano K., Kawamura S. (2006): Serum free amino acid concentration in hepatic lipidosis of dairy cows in the periparturient period. The Journal of Veterinary Medical Science, 68: 393-396. Go to original source... Go to PubMed...
    40. Soyeurt V., Dardenne P., Gillon A., Croquet C., Vanderick S., Mayeres P., Bertozzi C., Gengler N. (2006): Variation in fatty acid content of milk and milk fat within and across breeds. Journal of Dairy Science, 89: 4858-4865. Go to original source... Go to PubMed...
    41. Soyeurt H., Gillon A., Vanderick S., Mayeres P., Bertozzi C., Gengler N. (2007): Estimation of heritability and genetic correlations for the major fatty acids in bovine milk. Journal of Dairy Science, 90: 4435-4442. Go to original source... Go to PubMed...
    42. Staňková B., Kremmyda L.S., Tvrzická E., Žák A. (2013): Fatty acid composition of commercially available nutrition supplements. Czech Journal of Food Sciences, 31: 241-248. Go to original source...
    43. Stádník L., Louda F. (1999): Vliv genetických parametrů býků zjišťovaných ve Francii na užitkovost a reprodukci dcer dovezených a otelených v České republice. Czech Journal of Animal Science, 44: 433-439.
    44. Stádník L., Louda F., Ježková A. (2002): The effect of selected factors at insemination on reproduction of Holstein cows. Czech Journal of Animal Science, 47: 169-175.
    45. Stádník L., Ducháček J., Okrouhlá M., Ptáček M., Beran J., Stupka R., Zita L. (2013): The effect of parity on the proportion of important healthy fatty acids in raw milk of Holstein cows. Mljekarstvo, 63: 195-202.
    46. Stoop W.M., Bovenhuis H., Heck J.M.L., van Arendonk J.A.M. (2009): Effect of lactation stage and energy status on milk fat composition of Holstein-Friesian cows. Journal of Dairy Science, 92: 1469-1478. Go to original source... Go to PubMed...
    47. Szencziová I., Strapák P., Stádník L., Ducháček J., Beran J. (2013): Relationship of udder and teat morphology to milking characteristics and udder health determined by ultrasonographic examinations in dairy cows. Annals of Animal Science, 13: 783-795. Go to original source...
    48. Toušová R., Stádník L., Ducháček J. (2013): Effect of season and the time of milking on spontaneous and induced lipolysis in bovine milk fat. Czech Journal of Food Sciences, 31: 20-26. Go to original source...
    49. Vacek M., Stádník L., Štípková M. (2007): Relationships between the incidence of health disorders and the reproduction traits of Holstein cows in the Czech Republic. Czech Journal of Animal Science, 52: 227-235. Go to original source...
    50. Vacek M., Podaná H., Stádník L. (2011): Milk composition as NEB indicator. Náš chov, 71(11): 18-21.
    51. Velčovská S., Sadílek T. (2014): Analysis of quality labels included in European Union quality schemes. Czech Journal of Food Sciences, 32: 194-203. Go to original source...
    52. Wróblewska B., Kaliszewska A. (2012): Cow's milk proteins immunoreactivity and allergenicity in processed food. Czech Journal of Food Sciences, 30: 211-219. Go to original source...

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