Active stress vs. active strain in mechanobiology: constitutive issues

Effect of fibre orientation and bulk modulus on the electromechanical modelling of human ventricles ⋮ An accurate, robust, and efficient finite element framework with applications to anisotropic, nearly and fully incompressible elasticity ⋮ Loss of mass and performance in skeletal muscle tissue: a continuum model ⋮ Modeling and simulation of fish swimming with active muscles ⋮ Modeling the cardiac electromechanical function: A mathematical journey ⋮ How viscous is the beating heart? Insights from a computational study ⋮ An orthotropic active-strain model for the myocardium mechanics and its numerical approximation ⋮ Thermodynamically consistent orthotropic activation model capturing ventricular systolic wall thickening in cardiac electromechanics ⋮ Reduced biomechanical models for precision-cut lung-slice stretching experiments ⋮ Sensitivity analysis of a strongly-coupled human-based electromechanical cardiac model: effect of mechanical parameters on physiologically relevant biomarkers ⋮ A model and simulation of uterine contractions ⋮ Modeling and simulation of human induced pluripotent stem cell‐derived cardiac tissue ⋮ Development of finite element models for studying the electrical excitation of myocardium ⋮ The cardiovascular system: Mathematical modelling, numerical algorithms and clinical applications ⋮ Simulating hyperelasticity and fractional viscoelasticity in the human heart ⋮ Isogeometric mixed collocation of nearly-incompressible electromechanics in finite deformations for cardiac muscle simulations ⋮ Mechanobiology and morphogenesis in living matter: a survey ⋮ A stable loosely-coupled scheme for cardiac electro-fluid-structure interaction ⋮ CarNum: parallel numerical framework for computational cardiac electromechanics ⋮ Projection-based reduced order models for parameterized nonlinear time-dependent problems arising in cardiac mechanics ⋮ The generalized Hill model: a kinematic approach towards active muscle contraction ⋮ An intergrid transfer operator using radial basis functions with application to cardiac electromechanics ⋮ Influence of myocardial fiber/sheet orientations on left ventricular mechanical contraction ⋮ Segregated Algorithms for the Numerical Simulation of Cardiac Electromechanics in the Left Human Ventricle ⋮ Mathematical and numerical models for the cardiac electromechanical function ⋮ Stability of active muscle tissue ⋮ A comparison between active strain and active stress in transversely isotropic hyperelastic materials ⋮ Bioelectrical effects of mechanical feedbacks in a strongly coupled cardiac electro-mechanical model ⋮ Existence for a quasi-static interaction problem between a viscous fluid and an active structure ⋮ Modelling of fibre dispersion and its effects on cardiac mechanics from diastole to systole ⋮ Integrated heart -- coupling multiscale and multiphysics models for the simulation of the cardiac function ⋮ On the existence of elastic minimizers for initially stressed materials ⋮ Solvability analysis and numerical approximation of linearized cardiac electromechanics ⋮ Modeling Cardiac Mechanics on a Sub-Cellular Scale ⋮ Deep-HyROMnet: a deep learning-based operator approximation for hyper-reduction of nonlinear parametrized PDEs ⋮ Parallel multilevel solvers for the cardiac electro-mechanical coupling ⋮ Partitioned and Monolithic Algorithms for the Numerical Solution of Cardiac Fluid-Structure Interaction

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• A simplified mechanical modeling for myocardial contractions and the ventricular pressure-volume relationships
• Mechanical response of fiber-reinforced incompressible non-linearly elastic solids
• A structural model of the left ventricle including muscle fibres and coronary vessels: Mechanical behaviour in normal conditions
• Growth and balance.
• Soft tissue modelling of cardiac fibres for use in coupled mechano-electric simulations
• Pacemakers in a reaction-diffusion mechanics system
• On the active response of soft living tissues
• Electromechanics of the heart: a unified approach to the strongly coupled excitation-contraction problem
• Electromechanical Coupling in Cardiac Dynamics: The Active Strain Approach
• Constitutive modelling of passive myocardium: a structurally based framework for material characterization
• Towards a unified theory for morphomechanics
• Multiscale computational modelling of the heart
• Cardiac Electromechanics: The Effect of Contraction Model on the Mathematical Problem and Accuracy of the Numerical Scheme
• Nonlinear problems of elasticity
• Modeling heart development