Nguyen-Truong, Michael, authorLiu, Wenqiang, authorLabus, Kevin, authorGray, Elisabeth, authorMcGilvray, Kirk, authorPuttlitz, Christian M., authorWang, Zhijie, author2018-11-132018-11-132018https://hdl.handle.net/10217/192833School of Biomedical Engineering; Department of Mechanical Engineering; Department of Chemical & Biological Engineering.Ventricular dysfunction contributes significantly to mortality and morbidity in modern society and is the most common cause of heart failure. In the present study, we compared the fundamental biaxial mechanical behavior of the left and right ventricles (LV, RV) in adult sheep using experimental and computational approaches. The LVs were found to have more equibiaxial strength, whereas the RVs were more anisotropic with a higher circumferential elastic modulus (compared to longitudinal elastic modulus). The modified Ogden model provided a good fit and correlation to the experimental data. This characterization and comparison of biaxial mechanical properties of LV and RV in a large animal model can assist with the understanding of pathological mechanisms in ventricular dysfunction.born digitalStudent workspostersengCopyright and other restrictions may apply. User is responsible for compliance with all applicable laws. For information about copyright law, please see https://libguides.colostate.edu/copyright.dysfunctionlongitudinalcircumferentialOgden modelfibrosiscollagenstressstrainmodulusfiberanisotropyelastictensilefinite deformation analysisDifferent anisotropic biomechanical behavior of left and right ventricles in adult sheepDifferent mechanical properties between adult sheep right and left ventricles229 - Michael Nguyen-TruongText