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Article type: Research Article
Authors: Chatelin, Simon | Oudry, Jennifer; | Périchon, Nicolas | Sandrin, Laurent | Allemann, Pierre | Soler, Luc | Willinger, Rémy;
Affiliations: University of Strasbourg, IMFS-CNRS, Strasbourg, France | Department of Research and Development, Echosens, Paris, France | Institut de Recherche contre les Cancers de l'Appareil Digestif, Strasbourg, France
Note: [] Address for correspondence: Rémy Willinger, University of Strasbourg, IMFS-CNRS, 2 rue Boussingault, 67000 Strasbourg, France. Tel.: +33 3 68 85 29 23; Fax: +33 3 68 85 29 36; E-mail: remy.willinger@imfs.u-strasbg.fr.
Abstract: Understanding the mechanical properties of human liver is one of the most critical aspects of its numerical modeling for medical applications or impact biomechanics. Generally, model constitutive laws come from in vitro data. However, the elastic properties of liver may change significantly after death and with time. Furthermore, in vitro liver elastic properties reported in the literature have often not been compared quantitatively with in vivo liver mechanical properties on the same organ. In this study, both steps are investigated on porcine liver. The elastic property of the porcine liver, given by the shear modulus G, was measured by both Transient Elastography (TE) and Dynamic Mechanical Analysis (DMA). Shear modulus measurements were realized on in vivo and in vitro liver to compare the TE and DMA methods and to study the influence of testing conditions on the liver viscoelastic properties. In vitro results show that elastic properties obtained by TE and DMA are in agreement. Liver tissue in the frequency range from 0.1 to 4 Hz can be modeled by a two-mode relaxation model. Furthermore, results show that the liver is homogeneous, isotropic and more elastic than viscous. Finally, it is shown in this study that viscoelastic properties obtained by TE and DMA change significantly with post mortem time and with the boundary conditions.
Keywords: Soft tissues, liver, viscoelasticity, transient elastography, dynamic mechanical analysis
DOI: 10.3233/BIR-2011-0584
Journal: Biorheology, vol. 48, no. 2, pp. 75-88, 2011
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