Integrated heart -- coupling multiscale and multiphysics models for the simulation of the cardiac function

Effect of fibre orientation and bulk modulus on the electromechanical modelling of human ventricles, A cardiac electromechanical model coupled with a lumped-parameter model for closed-loop blood circulation, The role of statistics in the era of big data: a computational scientist' perspective, Parallel Newton--Krylov BDDC and FETI-DP Deluxe Solvers for Implicit Time discretizations of the Cardiac Bidomain Equations, Finite element methods for large-strain poroelasticity/chemotaxis models simulating the formation of myocardial oedema, Towards an efficient computational strategy for electro-activation in cardiac mechanics, Sensitivity analysis of a strongly-coupled human-based electromechanical cardiac model: effect of mechanical parameters on physiologically relevant biomarkers, Hierarchical modeling of length-dependent force generation in cardiac muscles and associated thermodynamically-consistent numerical schemes, Calibration of a fully coupled electromechanical meshless computational model of the heart with experimental data, 3D-0D closed-loop model for the simulation of cardiac biventricular electromechanics, A Multiscale Poromechanics Model Integrating Myocardial Perfusion and the Epicardial Coronary Vessels, A comparative study of scalable multilevel preconditioners for cardiac mechanics, A mathematical model of the human heart suitable to address clinical problems, An inverse problem for a semilinear parabolic equation arising from cardiac electrophysiology, Local and global canonical forms for differential-algebraic equations with symmetries, A positive cell vertex Godunov scheme for a Beeler–Reuter based model of cardiac electrical activity, The cardiovascular system: Mathematical modelling, numerical algorithms and clinical applications, A comprehensive and biophysically detailed computational model of the whole human heart electromechanics, Simulating hyperelasticity and fractional viscoelasticity in the human heart, Isogeometric mixed collocation of nearly-incompressible electromechanics in finite deformations for cardiac muscle simulations, SPHinXsys: an open-source multi-physics and multi-resolution library based on smoothed particle hydrodynamics, Computational model of gastric motility with active‐strain electromechanics, A matrix-free high-order solver for the numerical solution of cardiac electrophysiology, A stable loosely-coupled scheme for cardiac electro-fluid-structure interaction, Preserving the positivity of the deformation gradient determinant in intergrid interpolation by combining RBFs and SVD: Application to cardiac electromechanics, Whole-heart modelling with valves in a fluid-structure interaction framework, A reduced order model for domain decompositions with non-conforming interfaces, On uniqueness theorems for the inverse problem of electrocardiography in the Sobolev spaces, A multi-order smoothed particle hydrodynamics method for cardiac electromechanics with the purkinje network, An intergrid transfer operator using radial basis functions with application to cardiac electromechanics, Numerical approximation of a 3D mechanochemical interface model for skin patterning, Modelling and simulation for preclinical cardiac safety assessment of drugs with human iPSC-derived cardiomyocytes, On the determination of ischemic regions in the monodomain model of cardiac electrophysiology from boundary measurements, Segregated Algorithms for the Numerical Simulation of Cardiac Electromechanics in the Left Human Ventricle, An integrative smoothed particle hydrodynamics method for modeling cardiac function, A curvilinear isogeometric framework for the electromechanical activation of thin muscular tissues, Incorporating inductances in tissue-scale models of cardiac electrophysiology, Complex blood flow patterns in an idealized left ventricle: A numerical study, Machine learning in drug development: characterizing the effect of 30 drugs on the QT interval using Gaussian process regression, sensitivity analysis, and uncertainty quantification, A virtual model architecture for engineering structures with twin extended support vector regression (T-X-SVR) method, Modelling Thermo-Electro-Mechanical Effects in Orthotropic Cardiac Tissue, Machine learning of multiscale active force generation models for the efficient simulation of cardiac electromechanics, Modeling cardiac muscle fibers in ventricular and atrial electrophysiology simulations, An oscillation-free fully staggered algorithm for velocity-dependent active models of cardiac mechanics, Accelerating cardiac and vessel mechanics simulations: an energy-transform variational formulation for soft-tissue hyperelasticity, Multipatch isogeometric analysis for electrophysiology: simulation in a human heart, Unnamed Item, A modeling framework for electro-mechanical interaction between excitable deformable cells, Apprehending the effects of mechanical deformations in cardiac electrophysiology: A homogenization approach, Hemodynamics of the heart's left atrium based on a variational multiscale-LES numerical method, Isogeometric approximation of cardiac electrophysiology models on surfaces: an accuracy study with application to the human left atrium, Modelling of fibre dispersion and its effects on cardiac mechanics from diastole to systole, A matrix DEIM technique for model reduction of nonlinear parametrized problems in cardiac mechanics, 8 Reduced-order modeling for applications to the cardiovascular system, Scalable and robust dual-primal Newton-Krylov deluxe solvers for cardiac electrophysiology with biophysical ionic models, Parallel inexact Newton-Krylov and quasi-Newton solvers for nonlinear elasticity, A coupling strategy for a first 3D-1D model of the cardiovascular system to study the effects of pulse wave propagation on cardiac function, Emulation of cardiac mechanics using graph neural networks, Newton-Krylov-BDDC deluxe solvers for non-symmetric fully implicit time discretizations of the bidomain model, Morphing the left atrium geometry: a deeper insight into blood stasis within the left atrial appendage, Partitioned and Monolithic Algorithms for the Numerical Solution of Cardiac Fluid-Structure Interaction

• Chaste
• Alya
• PhysioToolkit

• Finite element and finite volume-element simulation of pseudo-ECGs and cardiac alternans
• Solvability analysis and numerical approximation of linearized cardiac electromechanics
• Coupling strategies for biomedical fluid–structure interaction problems
• A PARALLEL SOLVER FOR REACTION–DIFFUSION SYSTEMS IN COMPUTATIONAL ELECTROCARDIOLOGY
• Splitting Methods Based on Algebraic Factorization for Fluid-Structure Interaction
• Rotation, inversion and perversion in anisotropic elastic cylindrical tubes and membranes
• Variational Multiscale Analysis: the Fine‐scale Green’s Function, Projection, Optimization, Localization, and Stabilized Methods
• Computing the Electrical Activity in the Heart
• Cardiac Electromechanics: The Effect of Contraction Model on the Mathematical Problem and Accuracy of the Numerical Scheme
• Coupling contraction, excitation, ventricular and coronary blood flow across scale and physics in the heart
• Computational mechanics of the heart.
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• Efficient simulation of cardiac electrical propagation using high-order finite elements. II: Adaptive \(p\)-version
• Convergence of a stabilized discontinuous Galerkin method for incompressible nonlinear elasticity
• Multi-scale computational model of three-dimensional hemodynamics within a deformable full-body arterial network
• On the physical consistency between three-dimensional and one-dimensional models in haemodynamics
• Efficient simulation of cardiac electrical propagation using high order finite elements
• Cardiac excitation mechanisms, wavefront dynamics and strength-interval curves predicted by 3D orthotropic bidomain simulations
• Gradient flows and variational principles for cardiac electrophysiology: toward efficient and robust numerical simulations of the electrical activity of the heart
• A displacement-based finite element formulation for incompressible and nearly-incompressible cardiac mechanics
• Fluid-structure interaction analysis of bioprosthetic heart valves: significance of arterial wall deformation
• Model-order reduction of ion channel dynamics using approximate bisimulation
• A comparison of outlet boundary treatments for prevention of backflow divergence with relevance to blood flow simulations
• Computational model of three-dimensional cardiac electromechanics
• Chaste: A test-driven approach to software development for biological modelling
• Primal-mixed formulations for reaction-diffusion systems on deforming domains
• A coupled 3D-1D numerical monodomain solver for cardiac electrical activation in the myocardium with detailed Purkinje network
• Existence of weak solutions for the unsteady interaction of a viscous fluid with an elastic plate
• Reaction-diffusion systems for the macroscopic bidomain model of the cardiac electric field
• Variational multiscale residual-based turbulence modeling for large eddy simulation of incompressible flows
• A residual-based a posteriori error estimator for a two-dimensional fluid-solid interaction problem
• Solutions to muscle fiber equations and their long time behaviour
• Analysis of a class of degenerate reaction-diffusion systems and the bidomain model of cardiac tissue
• Cardiovascular mathematics. Modeling and simulation of the circulatory system
• A poroelastic model valid in large strains with applications to perfusion in cardiac modeling
• On non-physical response in models for fiber-reinforced hyperelastic materials
• Existence and uniqueness of the solution for the bidomain model used in cardiac electrophysiology
• A constrained finite element method satisfying the discrete maximum principle for anisotropic diffusion problems
• Time dependent subscales in the stabilized finite element approximation of incompressible flow problems
• A new finite element formulation for computational fluid dynamics. V: Circumventing the Babuška-Brezzi condition: A stable Petrov-Galerkin formulation of the Stokes problem accommodating equal-order interpolations
• Existence and approximation results for nonlinear mixed problems: Application to incompressible finite elasticity
• Applications of an energy-momentum tensor in non-linear elastostatics
• Convexity conditions and existence theorems in nonlinear elasticity
• Mathematical physiology
• Jacobian-free Newton-Krylov methods: a survey of approaches and applications.
• Factorization methods for the numerical approximation of Navier-Stokes equations
• A generalized-\(\alpha\) method for integrating the filtered Navier-Stokes equations with a stabilized finite element method
• Image-based large-eddy simulation in a realistic left heart
• Semi-implicit BDF time discretization of the Navier-Stokes equations with VMS-LES modeling in a high performance computing framework
• 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
• A multiscale model for eccentric and concentric cardiac growth through sarcomerogenesis
• Minimal model for human ventricular action potentials in tissue
• Patient-specific isogeometric structural analysis of aortic valve closure
• An immersogeometric variational framework for fluid-structure interaction: application to bioprosthetic heart valves
• Active stress vs. active strain in mechanobiology: constitutive issues
• Existence and stability of traveling pulses in a reaction-diffusion-mechanics system
• Simulation of laminar and turbulent concentric pipe flows with the isogeometric variational multiscale method
• Image-based fluid-structure interaction model of the human mitral valve
• Towards a large-scale scalable adaptive heart model using shallow tree meshes
• Modeling cardiac mechano-electrical feedback using reaction-diffusion-mechanics systems
• Computational modeling of non-linear diffusion in cardiac electrophysiology: a novel porous-medium approach
• Geometric multiscale modeling of the cardiovascular system, between theory and practice
• Global existence and uniqueness of a three-dimensional model of cellular electrophysiology
• Mathematical cardiac electrophysiology
• On the physical assumptions underlying the volumetric-isochoric split and the case of anisotropy
• A taxonomy and comparison of parallel block multi-level preconditioners for the incompressible Navier-Stokes equations
• Inverse deformation results in finite elasticity
• Flow patterns around heart valves: A numerical method
• Numerical models for differential problems. Translated from the 5th Italian edition by Silvia Quarteroni
• On the active response of soft living tissues
• Vortex dynamics in three-dimensional continuous myocardium with fiber rotation: Filament instability and fibrillation
• Analysis of a Coupled Fluid-Structure Model with Applications to Hemodynamics
• A SURFACE-BASED ELECTROPHYSIOLOGY MODEL RELYING ON ASYMPTOTIC ANALYSIS AND MOTIVATED BY CARDIAC ATRIA MODELING
• Design and Analysis of a Lightweight Parallel Adaptive Scheme for the Solution of the Monodomain Equation
• Modeling Growth in Biological Materials
• The significant effect of the choice of ionic current integration method in cardiac electro-physiological simulations
• An active strain electromechanical model for cardiac tissue
• Analysis of the Coupling of Lagrange and Arnold--Falk--Winther Finite Elements for a Fluid-Solid Interaction Problem in Three Dimensions
• A symmetric mixed finite element method for nearly incompressible elasticity based on biorthogonal systems
• Mathematical modelling of active contraction in isolated cardiomyocytes
• A discrete mechanics approach to the Cosserat rod theory-Part 1: static equilibria
• A multiresolution space-time adaptive scheme for the bidomain model in electrocardiology
• Computational modeling of passive myocardium
• Parallel Algorithms for Fluid-Structure Interaction Problems in Haemodynamics
• A Time Integration Algorithm for Structural Dynamics With Improved Numerical Dissipation: The Generalized-α Method
• A computational strategy for prestressing patient-specific biomechanical problems under finite deformation
• The immersed boundary method
• Adaptivity in Space and Time for Reaction-Diffusion Systems in Electrocardiology
• Continuous Interior Penalty Finite Element Method for Oseen's Equations
• A Coupled System of PDEs and ODEs Arising in Electrocardiograms Modeling
• Constitutive modelling of passive myocardium: a structurally based framework for material characterization
• Propagation and Its Failure in Coupled Systems of Discrete Excitable Cells
• Fiber architecture of the left ventricular wall: An asymptotic analysis
• Introduction to Numerical Continuation Methods
• Turbulent Flows
• Modelling cardiac fluid dynamics and diastolic function
• Numerical Treatment of Defective Boundary Conditions for the Navier--Stokes Equations
• Global solutions of the equations of elastodynamics of incompressible neo-Hookean materials.
• Implicit-Explicit Methods for Time-Dependent Partial Differential Equations
• Choosing the Forcing Terms in an Inexact Newton Method
• Iterative Solution Methods
• Computational Fluid–Structure Interaction
• Influence of myocardial fiber/sheet orientations on left ventricular mechanical contraction
• A Rescaled Localized Radial Basis Function Interpolation on Non-Cartesian and Nonconforming Grids