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Non-invasive detection of fatty liver in dairy cows by digital analyses of hepatic ultrasonograms

Published online by Cambridge University Press:  29 January 2008

Gerd Bobe
Affiliation:
Department of Animal Science, Iowa State University, Ames IA 50011, USA
Viren R Amin
Affiliation:
Department of Electrical and Computer Engineering, Iowa State University, Ames IA 50011, USA
Arnold R Hippen
Affiliation:
Department of Animal Science, Iowa State University, Ames IA 50011, USA
Pengxiang She
Affiliation:
Department of Animal Science, Iowa State University, Ames IA 50011, USA
Jerry W Young
Affiliation:
Department of Animal Science, Iowa State University, Ames IA 50011, USA
Donald C Beitz*
Affiliation:
Department of Animal Science, Iowa State University, Ames IA 50011, USA
*
For correspondence; e-mail: [email protected]

Abstract

During early lactation, many dairy cows develop fatty liver, which is associated with decreased health and reproductive performance. Currently, fatty liver can be detected reliably only by using liver biopsy followed by chemical or histological analysis, which is not practical in most on-farm situations. We tested whether digital analyses of hepatic ultrasonograms can be used to detect non-invasively fatty liver and estimate liver triacylglycerol content. A total of 49 liver biopsies and ultrasonograms were taken from 29 dairy cows within 2 weeks postpartum. The usefulness of 17 first- or second-order parameters from digital analysis of B-mode ultrasonograms were evaluated by discriminant, correlation, and regression analyses. A group of linear combinations of the 17 parameters correctly classified 40 of 49 samples into normal liver as well as mild, moderate and severe fatty liver when cut-off values were 1%, 5% and 10% and correctly classified 45 of 49 samples when cut-off values were 5% and 10% triacylglycerol of wet weight. A linear combination of 16 image parameters estimated triacylglycerol concentrations of 38 of the 39 liver samples below the cut-off value of 10% within 2·5% of liver wet weight, and a linear combination of 3 parameters estimated triacylglycerol concentrations of the 10 liver samples above the cut-off value of 10% within 2% of liver wet weight. Therefore, ultrasound imaging followed by digital analysis of sonograms has potential to non-invasively detect fatty liver and estimate liver triacylglycerol content.

Type
Research Article
Copyright
Copyright © Proprietors of Journal of Dairy Research 2008

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References

Acorda, JA, Yamada, H & Ghamsari, SM 1994 Ultrasonographic features of diffuse hepatocellular disorders in dairy cattle. Veterinary Radiology and Ultrasound 35 196200CrossRefGoogle Scholar
Acorda, JA, Yamada, H & Ghamsari, SM 1995 Comparative evaluation of hydropic degeneration of the liver in dairy cattle through biochemistry, ultrasonography and digital analysis. Veterinary Radiology and Ultrasound 36 322326CrossRefGoogle Scholar
Allison, JW, Barr, LL, Massoth, RJ, Berg, GP, Krasner, BH & Garra, BS 1994 Understanding the process of quantitative ultrasonic tissue characterization. Radiographics 14 10991108CrossRefGoogle ScholarPubMed
Amin, VR, Roberts, RA, Patel, AB, Wilson, DE, Rouse, GH & Zhang, H 1995 Ultrasound tissue characterization for quality grading of beef carcasses. In Review of Progress in Quantitative Nondestructive Evaluation (Vol. 14), pp. 17571764 (Eds Thompson, DO & Chimenti, DE). New York NY, USA: PlenumCrossRefGoogle Scholar
Amin, VR, Wilson, DE & Rouse, GH 1997 USOFT: An ultrasound image analysis software for beef quality research. A.S. Leaflet R1437 Iowa State University, Ames IA, USA 1997Google Scholar
Amin, VR, Bobe, G, Young, JW, Ametaj, BN & Beitz, DC 2001 Ultrasound image texture processing for evaluating fatty liver in peripartal cows. Proceedings of SPIE Medical Imaging 4322 15271533CrossRefGoogle Scholar
Biller, DS, Kantrowitz, B & Miyabayashi, T 1992 Ultrasonography of diffuse liver disease. Journal of Veterinary Internal Medicine 6 7176CrossRefGoogle ScholarPubMed
Bobe, G, Young, JW & Beitz, DC 2004 Invited review: pathology, etiology and treatments of fatty liver in dairy cows. Journal of Dairy Science 87 31053124CrossRefGoogle ScholarPubMed
Braun, U, Pusterla, N & Wild, K 1995 Ultrasonographic findings in eleven cows with a hepatic abscess. Veterinary Record 137 284290CrossRefGoogle Scholar
Folch, J, Lees, M & Sloane Stanley, GH 1957 Simple method for the isolation and purification of total lipids from animal tissues. Journal of Biological Chemistry 226 497509CrossRefGoogle ScholarPubMed
Haberkorn, U, Zuna, I, Lorenz, A, Zerban, H & Layer, G 1990 Echographic tissue characterization in diffuse parenchymal liver disease: correlation of image structure with histology. Ultrasonic Imaging 12 155170CrossRefGoogle ScholarPubMed
Hassen, A, Wilson, DE, Amin, VR, Rouse, GH & Hays, CL 2001 Predicting percentage of intramuscular fat using two types of real-time ultrasound equipment. Journal of Animal Science 79 1118CrossRefGoogle ScholarPubMed
Jorritsma, R, Jorritsma, H, Schukken, YH, Bartlett, PC, Wensing, T & Wentink, GH 2001 Prevalence and indicators of post partum fatty infiltration of the liver in nine commercial dairy herds in the Netherlands. Livestock Production Science 68 5360CrossRefGoogle Scholar
Lechtenberg, KF & Nagaraja, TG 1991 Hepatic ultrasonography and blood changes in cattle with experimentally induced hepatic abscesses. American Journal of Veterinary Research 52 803809CrossRefGoogle ScholarPubMed
Nyland, TG, Mattoon, JS, Herrgesell, EJ & Wisner, ER 2002 Liver. In Small Animal Diagnostic Ultrasound (2nd Edn), pp. 93127 (Eds Nyland, TG & Mattoon, JS). Philadelphia PA, USA: SandersCrossRefGoogle Scholar
O'Brien, RT, Zagzebski, JA, Lu, ZF & Steinberg, H 1996 Measurement of acoustic backscatter and attenuation in the liver of dogs with experimentally induced steroid hepatopathy. American Journal of Veterinary Research 57 16901694CrossRefGoogle ScholarPubMed
Ramsey, FL & Schafer, DW 1997 In The Statistical Sleuth. A Course in Methods of Data Analysis, pp. 342345. Belmont CA, USA: Wadsworth Publishing CompanyGoogle Scholar
SAS 2002 SAS® User's Guide: Statistics, Version 9.1. SAS Institute Inc, Cary NC, USAGoogle Scholar
Smith, TR, Hippen, AR, Beitz, DC & Young, JW 1997 Metabolic characteristics of induced ketosis in normal and obese dairy cows. Journal of Dairy Science 80 15691581CrossRefGoogle ScholarPubMed
Smith-Levitin, M, Blickstein, I, Albrecht-Shach, AA, Goldman, RD, Gurewitsch, E, Streltzoff, J & Chervenak, FA 1997 Quantitative assessment of gray-level perception: observers' accuracy is dependent on density differences. Ultrasound in Obstetrics and Gynecology 11 346349CrossRefGoogle Scholar