Advances in Biological Tissue Biomechanics 

<br/><br/><br/>English[eng] 
<br/><br/><label>Subjects--Topical Terms: </label><br/>computational fluid dynamics||bileaflet mechanical heart valve||adverse hemodynamics||transvalvular pressure gradients||turbulent shear stresses||blood damage||platelet activation||aortic valve||calcification||elastin degradation||leaflet||curvature||biomarker||early detection||porcine brain||mechanical behavior||hydration effects||Split-Hopkinson pressure bar||micromechanics||finite element analysis||collagen crimp||elastin||microstructures||force-controlled mechanical testing||the tricuspid valve||functional tricuspid regurgitation||cardiovascular imaging||mechanical characterization||in-vitro experiments||constitutive modeling||geometrical modeling||finite element modeling||isogeometric analysis (IGA)||biaxial mechanical characterization||fluid-structure interactions||material anisotropy||sub-valvular components||soft tissue||liver||high-rate compression||polymeric split-Hopkinson pressure bar||pentagalloyl glucose||aneurysm||enzyme||biomechanics||aorta||biaxial mechanical testing||cardiac valves||osmotic swelling||parameter estimation||nonlinear preconditioning||gradient-based minimization||cirrus||myocardium||stiffness||viscoelastic property||anisotropy||fibrosis||the mitral valve||collagen fiber architecture||glycosaminoglycan||uniaxial mechanical testing||in-vitro flow loops||polarized spatial frequency domain imaging||tricuspid regurgitation||spatial alignment||collagen fiber reorientation||in vivo stress/strain quantification||constitutive models||soft tissues||growth and remodeling (G & R)||multiscale biomechanics||patient-specific modeling