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Akbar H., Grala T.M., Vailati Riboni M., Cardoso F.C., Verkerk G., Mc Gowa n J., Macdonald K., Webster J., Schutz K., Meier S., Matthews L., Roche J.R., Loor J.J. (2015). Body condition score at calving affects systemic and hepatic transcriptome indicators of inflammation and nutrient metabolism in grazing dairy cows. J. Dairy Sci., 98: 1019-1032.Search in Google Scholar

Busato A., Faissle D., Kupfer U., Blum J.W. (2002). Body condition scores in dairy cows: associations with metabolic and endocrine changes in healthy dairy cows. J. Vet. Med. A Physiol. Pathol. Clin. Med., 49: 455-460.Search in Google Scholar

Butler W.R. (2000). Nutritional interactions with reproductive performance in dairy cattle. Anim. Reprod. Sci., 60: 449-457.Search in Google Scholar

Chagas L.M., Bass J.J., Blache D., Burke C.R., Kay J.K., Lindsay D.R., Lucy M.C., Martin G.B., Meier S., Rhodes F.M., Roche J.R., Thatcher W.W., Webb R. (2007). New perspectives on the roles of nutrition and metabolic priorities in the subfertility of high-producing dairy cows. J. Dairy Sci., 90: 4022-4032.Search in Google Scholar

Chandra G., Aggarwal A., Singh A.K., Kumar M., Kushwaha R., Singh A., Singh Y.K. (2011). Negative energy balance and reproduction. Agric. Rev., 32: 246-254.Search in Google Scholar

Cincović R.M., Belić B., Radojičić B., Hristov S., Đoković R. (2012). Influence of lipolysis and ketogenesis to metabolic and hematological parameters in dairy cows during periparturient period. Acta Vet. Beograd., 62: 429-444.Search in Google Scholar

Crowe M.A. (2008). Resumption of ovarian cyclicity in post-partum beef and dairy cows. Reprod. Domest. Anim., 43: 20-28.Search in Google Scholar

Djoković R., Cincović M., Belić B., Toholj B., Davidov I., Hristovska T. (2015). Relationship between blood metabolic hormones, metabolites and energy balance in Simmental dairy cows during prepartum period and lactation. Pak. Vet. J., 35: 163-167.Search in Google Scholar

Duncomble W.G. (1964). The colorimetric micro-determination of non-esterified fatty acid in plasma. Clin. Chim. Acta, 9: 122-125.Search in Google Scholar

Edmonson A.J., Lean I.J., Weaver L.D., Farver T., Webster G. (1989). Abody condition scoring chart for Holstein dairy cows. J. Dairy Sci., 72: 68-78.Search in Google Scholar

Gerloff B.J. (2000). Dry cow management for the prevention of ketosis and fatty liver in dairy cows. Vet. Clin. N. Am.-Food A., 16: 283-292.Search in Google Scholar

Gonzales F.D., Muino R., Pereira V., Campos R., Benedito J.L. (2011). Relationship among blood indicators of lipomobilization and hepatic function during early lactation in highyielding dairy cows. J. Vet. Sci., 12: 251-255.Search in Google Scholar

Gross J.,van Dorland H.A., Bruckmaier R.M., Schwarz F.J. (2011). Performance and metabolic profile of dairy cows duringalactational and deliberately induced negative energy balance with subsequent realimentation. J. Dairy Sci., 94: 1820-1830.Search in Google Scholar

Herdt T.H. (1988). Fatty liver in dairy cows. Vet. Clin. N. Am.-Food A., 4: 269-287.Search in Google Scholar

Holly J.M.P., Wass J.A.H. (1989). Insulin-like growth factors; autocrine, paracrine or endocrine? New perspectives of the somatomedin hypothesis in the light of recent developments. J. Endocrinol., 122: 611-618.Search in Google Scholar

Huszenicza G., Kulcsar M., Nicolic A.J., Schmidt J., Korodi P., Katai L., Diele- man S., Ribiczei-Szabo A., Rudas P. (2001). Plasma leptin concentration and its interrelation with some blood metabolite, metabolic hormones and the resumption of cyclic ovarian function in postpartum dairy cows supplemented with Monensin or inert fat in feed. Brit. Soc. Anim. Sci., 35: 405-409.Search in Google Scholar

Kawashima C., Fukihara S., Maeda M., Kaneko E., Montoya C.A., Matsui M., Shimizu T., Matsunaga N., Kida K., Miyake Y., Schams D., Miyamoto A. (2007). Relationship between metabolic hormones and ovulation of dominant follicle during the first follicular wave post-partum in high-producing dairy cows. Reproduction, 133: 155-163.Search in Google Scholar

Klimiene I., Mockeliunas R., Špakauskas V., Černauskas A., Sakalauskiene R. (2008). Metabolic changes of thyroid hormones in cattle. Vet. Ir. Zootech., 42: 3-13.Search in Google Scholar

Konigsson K., Savoini G., Govoni N., Invernizzi G., Prandi A., Kindahl H., Ve - ronesi M.C. (2008). Energy balance, leptin, NEFAand IGF-Iplasma concentrations and resumption of post-partum ovarian activity in Swedish red and white breed cows. Acta Vet. Scand., 50: 3.Search in Google Scholar

Locher L., Häussler S., Laubenthal L., Singh S.P., Winkler J., Kinoshita A., Kenéz A., Rehage J., Huber K., Sauerwein H., Dänicke S. (2015). Effect of increasing body condition on key regulators of fat metabolism in subcutaneous adipose tissue depot and circulation of nonlactating dairy cows. J. Dairy Sci., 98: 1057-1068.Search in Google Scholar

Matthews L.R., Cameron C., Sheahan A.J., Kolver E.S., Roche J.R. (2012). Associations among dairy cow body condition and welfare-associated behavioral traits. J. Dairy Sci., 95: 2595-2601.Search in Google Scholar

Ping L., Bao X.H., Xian L.Y., Xiao L.H., Jian B.H., Yin H.H., Pei N., Hui F.D., Xiang X.D. (2012). Bioactivity evaluation of certain hepatic enzymes in blood plasma and milk of Holstein cows. Pakistan Vet. J., 32: 601-604.Search in Google Scholar

Pires J.A.A., Delavaud C., Faulconnier Y., Pomiès D., Chilliard Y. (2013). Effects of body condition score at calving on indicators of fat and protein mobilization of periparturient Holstein-Friesian cows. J. Dairy Sci., 96: 6423-6439.Search in Google Scholar

Remppis S., Steingass H., Gruber L., Schenkel H. (2011). Effects of energy intake on performance, mobilization and retention of body tissue, and metabolic parameters in dairy cows with special regard to effects of pre-partum nutrition on lactation. Asian-Aust. J. Anim. Sci., 4: 540-572.Search in Google Scholar

Roberts T., Chapinal N., Le Blanc S.J., Kelton D.F., Dubuc J., Duffield T.F. (2012). Metabolic parameters in transition cows as indicators for early lactation culling risk. J. Dairy Sci., 95: 3057-3063.Search in Google Scholar

Roche J.R., Macdonald K.A., Schütz K.A., Matthews L.R., Verkerk G.A., Meier S., Loor J.J., Rogers A.R., Mc Gowan J., Morgan S.R., Taukiri S., Webster R.J. (2013). Calving body condition score affects indicators of health in grazing dairy cows. J. Dairy Sci., 96: 5811-5825.Search in Google Scholar

Šamanc H., Kirovski D., Stojić V., Stojanovic D., Vujanac I., Prodanovic R., Bojkovic-Kovacevic S. (2011). Application of the metabolic profile test in the prediction and diagnosis of fatty liver in Holstein cows. Acta Vet., 61: 543-553.Search in Google Scholar

Šamanc H., Gvozdić D., Fratrić N., Kirovski D., Djokovi R., Sladojevic Z., Cincovic M. (2015). Body condition score loss, hepatic lipidosis and selected blood metabolites in Holstein cows during transition period. Anim. Sci. Pap. Rep., 1: 35-47.Search in Google Scholar

Seifi H.A., Gorji- Dooz M., Mohri M., Dalir- Nagadeh B., Farzaneh N. (2007). Variations of energy-related biochemical metabolites during transition period in dairy cows. Comp. Clin. Pathol., 16: 253-258.Search in Google Scholar

Yellow R.S., Berson S.A. (1960). Immunoassay of endogenous plasma insulin in man. J. Clin. Invest., 39: 1157-1175.Search in Google Scholar

van Dorland H.A., Richter S., Morel I., Doherr G.H., Castro N., Bruckmaier R.M. (2009). Variation in hepatic regulation of metabolism during the dry period and in early lactation in dairy cows. J. Dairy Sci., 92: 1924-1940.Search in Google Scholar

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Life Sciences, Biotechnology, Zoology, Medicine, Veterinary Medicine