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Journal Abstract Search

336 related items for PubMed ID: 27016835

  • 1. Development of Fourier transform mid-infrared calibrations to predict acetone, β-hydroxybutyrate, and citrate contents in bovine milk through a European dairy network.
    Grelet C, Bastin C, Gelé M, Davière JB, Johan M, Werner A, Reding R, Fernandez Pierna JA, Colinet FG, Dardenne P, Gengler N, Soyeurt H, Dehareng F.
    J Dairy Sci; 2016 Jun; 99(6):4816-4825. PubMed ID: 27016835
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  • 4. Prediction of blood β-hydroxybutyrate content and occurrence of hyperketonemia in early-lactation, pasture-grazed dairy cows using milk infrared spectra.
    Bonfatti V, Turner SA, Kuhn-Sherlock B, Luke TDW, Ho PN, Phyn CVC, Pryce JE.
    J Dairy Sci; 2019 Jul; 102(7):6466-6476. PubMed ID: 31079906
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  • 5. Screening for subclinical ketosis in dairy cattle by Fourier transform infrared spectrometry.
    de Roos AP, van den Bijgaart HJ, Hørlyk J, de Jong G.
    J Dairy Sci; 2007 Apr; 90(4):1761-6. PubMed ID: 17369216
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  • 6. Predicting hyperketonemia by logistic and linear regression using test-day milk and performance variables in early-lactation Holstein and Jersey cows.
    Chandler TL, Pralle RS, Dórea JRR, Poock SE, Oetzel GR, Fourdraine RH, White HM.
    J Dairy Sci; 2018 Mar; 101(3):2476-2491. PubMed ID: 29290445
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  • 9. Routine detection of hyperketonemia in dairy cows using Fourier transform infrared spectroscopy analysis of β-hydroxybutyrate and acetone in milk in combination with test-day information.
    van der Drift SGA, Jorritsma R, Schonewille JT, Knijn HM, Stegeman JA.
    J Dairy Sci; 2012 Sep; 95(9):4886-4898. PubMed ID: 22916893
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  • 10. Genetic parameters of blood β-hydroxybutyrate predicted from milk infrared spectra and clinical ketosis, and their associations with milk production traits in Norwegian Red cows.
    Belay TK, Svendsen M, Kowalski ZM, Ådnøy T.
    J Dairy Sci; 2017 Aug; 100(8):6298-6311. PubMed ID: 28571993
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  • 11. Genetic and nongenetic profiling of milk β-hydroxybutyrate and acetone and their associations with ketosis in Holstein cows.
    Klein SL, Scheper C, May K, König S.
    J Dairy Sci; 2020 Nov; 103(11):10332-10346. PubMed ID: 32952022
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  • 12. Screening of dairy cows for ketosis by use of infrared spectroscopy and multivariate calibration.
    Hansen PW.
    J Dairy Sci; 1999 Sep; 82(9):2005-10. PubMed ID: 10509260
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  • 13. Predictive ability of host genetics and rumen microbiome for subclinical ketosis.
    Gebreyesus G, Difford GF, Buitenhuis B, Lassen J, Noel SJ, Højberg O, Plichta DR, Zhu Z, Poulsen NA, Sundekilde UK, Løvendahl P, Sahana G.
    J Dairy Sci; 2020 May; 103(5):4557-4569. PubMed ID: 32197852
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  • 14. Accuracy of milk ketone bodies from flow-injection analysis for the diagnosis of hyperketonemia in dairy cows.
    Denis-Robichaud J, Dubuc J, Lefebvre D, DesCôteaux L.
    J Dairy Sci; 2014 May; 97(6):3364-70. PubMed ID: 24657085
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  • 15. Developing a predictive model for beta-hydroxybutyrate and non-esterified fatty acids using milk fourier-transform infrared spectroscopy in dairy cows.
    Walleser E, Mandujano Reyes JF, Anklam K, Höltershinken M, Hertel-Boehnke P, Döpfer D.
    Prev Vet Med; 2021 Dec; 197():105509. PubMed ID: 34678645
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  • 16. Determination of acetone in cow milk by Fourier transform infrared spectroscopy for the detection of subclinical ketosis.
    Heuer C, Luinge HJ, Lutz ET, Schukken YH, van der Maas JH, Wilmink H, Noordhuizen JP.
    J Dairy Sci; 2001 Mar; 84(3):575-82. PubMed ID: 11286409
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  • 19. [Determination of beta-hydroxybutyrate in milk using test strips: a new aid for the diagnosis of subclinical and clinical ketosis in the cow].
    Gutzwiller A.
    Schweiz Arch Tierheilkd; 1998 Mar; 140(3):120-4. PubMed ID: 9528350
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