Yeh W.-C.YUNG-MING JENGHsu H.-C.PO-LING KUOLi M.-L.PEI-MING YANGPO-HUANG LEEPAI-CHI LI2020-11-192020-11-19200110510117https://www.scopus.com/inward/record.uri?eid=2-s2.0-0035731760&partnerID=40&md5=efae6b5de40f6d8bb8bb6e625812cf8ahttps://scholars.lib.ntu.edu.tw/handle/123456789/521533Viral hepatitis causes fibrosis in liver and may change liver's mechanical properties. To evaluate the impact of fibrosis on elastic properties of human liver and to investigate potential benefits of ultrasonic elasticity imaging, nineteen fresh human liver samples and one hepatic tumor (focal nodular hyperplasia) sample obtained during operations were studied. Simple 1D estimates based on the cyclic compression-relaxation method were performed. Young's modulus values were derived from the pre-determined strain (controlled by a step motor system) and the stress values (measured by an electronic balance). Each specimen subsequently received histological examination and a grade of liver fibrosis was scored from 0 to 5. Results show that the Young's modulus values were at the order of several hundreds to thousands Pascals. The Young's modulus generally increased with the fibrosis grade though some discrepancies existed at the middle grades of fibrosis (score 1-3). The correlation between the fibrosis score and the Young's modulus was significant (P<0.01) based on the statistical analysis using the Pearson correlation method. It was concluded that severity of fibrosis had a good correlation with stiffness of liver. Results also indicated that the elasticity imaging of liver may provide significant clinical values if the Young's modulus can be accurately measured.[SDGs]SDG3Biological organs; Correlation methods; Elastic moduli; Histology; Pathology; Tissue; Tumors; Fibrosis; Human liver; Pearson correlation method; Ultrasonic imagingconference paper2-s2.0-0035731760