Limited Correlation Between Conventional Pathologist and Automatic Computer-Assisted Quantification of Hepatic Steatosis due to Difference Between Event-Based and Surface-Based Analysis

Computer-assisted automatic quantification (CAQ) was developed as an alternative method for the diagnosis of hepatic steatosis in order to compensate for observer-dependent bias. Here, we aim to demonstrate that CAQ can provide an accurate and precise result in analysis of fatty content, but that it is inappropriate to validate CAQ by comparison with conventional pathologist estimation (PE). Male rats were fed with a methionine-choline-deficient plus high-fat diet for three days, one week, or two weeks to induce mild, moderate, or severe steatosis. Samples were collected from all liver lobes. Severity of hepatic steatosis was assessed by an experienced pathologist who estimated the percentage of hepatocytes containing lipid droplets. Fatty content was quantified by PE, CAQ, and biochemical analysis (BA). CAQ, PE, and BA can correctly reflect severe fatty change. However, in the case of mild and moderate steatosis, PE could not reflect the true fatty content ( r between PE and BA was <;0). The result of CAQ correlated well with that of BA among the various degrees of severity of hepatic steatosis. In conclusion, due to a difference between event-based and surface-based analysis, it is inappropriate to validate the CAQ of hepatic steatosis by comparison with PE.

[1]  B. Neuschwander‐Tetri,et al.  Nonalcoholic steatohepatitis: a proposal for grading and staging the histological lesions , 1999, American Journal of Gastroenterology.

[2]  Scott L Nyberg,et al.  Assessment of donor liver steatosis: pathologist or automated software? , 2004, Human pathology.

[3]  Zachary Evans,et al.  Development of an unbiased method for the estimation of liver steatosis , 2004, Clinical transplantation.

[4]  E. Brunt Pathology of fatty liver disease , 2007, Modern Pathology.

[5]  D. Gouma,et al.  Steatosis as a Risk Factor in Liver Surgery , 2007, Annals of surgery.

[6]  R. McCuskey,et al.  Hepatic Microcirculation in Fatty Liver Disease , 2008, Anatomical record.

[7]  Robert Kleinert,et al.  Statistical and Economical Efficiency in Assessment of Liver Regeneration Using Defined Sample Size and Selection in Combination With a Fully Automated Image Analysis System , 2009, The journal of histochemistry and cytochemistry : official journal of the Histochemistry Society.

[8]  K. Washington,et al.  Assessment of Hepatic Steatosis by Expert Pathologists: The End of a Gold Standard , 2009, Annals of surgery.

[9]  P. Berk,et al.  Digital analysis of hepatic sections in mice accurately quantitates triglycerides and selected properties of lipid droplets , 2010, Experimental biology and medicine.

[10]  Philipp Dutkowski,et al.  Liver transplantation using fatty livers: always feasible? , 2011, Journal of hepatology.

[11]  John Hart,et al.  Comparing morphometric, biochemical, and visual measurements of macrovesicular steatosis of liver. , 2011, Human pathology.

[12]  A. Dima,et al.  Non-alcoholic fatty liver disease and the statins treatment. , 2012, Romanian journal of internal medicine = Revue roumaine de medecine interne.

[13]  Keller Sullivan Oliveira Rocha,et al.  A new computational method for hepatic fat microvesicles counting in histological study in rats. , 2012, Biochemical and biophysical research communications.

[14]  W. Gedroyc,et al.  Quantifying hepatic steatosis – more than meets the eye , 2012, Histopathology.

[15]  Andrew R. Hall,et al.  Hepatic steatosis estimated microscopically versus digital image analysis , 2013, Liver international : official journal of the International Association for the Study of the Liver.