Pages that link to "Item:Q1381027"
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The following pages link to Spread of excitation in 3-D models of the anisotropic cardiac tissue. II: Effects of fiber architecture and ventricular geometry (Q1381027):
Displaying 29 items.
- Joint influence of transmural heterogeneities and wall deformation on cardiac bioelectrical activity: a simulation study (Q328866) (← links)
- Development of finite element models for studying the electrical excitation of myocardium (Q405055) (← links)
- Cardiac excitation mechanisms, wavefront dynamics and strength-interval curves predicted by 3D orthotropic bidomain simulations (Q433677) (← links)
- Exploring anodal and cathodal make and break cardiac excitation mechanisms in a 3D anisotrop\-ic bidomain model (Q532442) (← links)
- An effective algorithm for the generation of patient-specific Purkinje networks in computational electrocardiology (Q728953) (← links)
- A coupled 3D-1D numerical monodomain solver for cardiac electrical activation in the myocardium with detailed Purkinje network (Q729457) (← links)
- Effects of transmural electrical heterogeneities and electrotonic interactions on the dispersion of cardiac repolarization and action potential duration: A simulation study (Q868208) (← links)
- Modeling ventricular repolarization: Effects of transmural and apex-to-base heterogeneities in action potential durations (Q938708) (← links)
- Existence and uniqueness of the solution for the bidomain model used in cardiac electrophysiology (Q1003293) (← links)
- An eikonal-curvature equation for action potential propagation in myocardium (Q1177001) (← links)
- Measurements of curvature in an ionic model of cardiac tissue (Q1266829) (← links)
- Re-entry in an anatomical model of the heart (Q1266850) (← links)
- Spread of excitation in 3-D models of the anisotropic cardiac tissue. III: Effects of ventricular geometry and fiber structure on the potential distribution (Q1307006) (← links)
- Modeling ventricular excitation: Axial and orthotropic anisotropy effects on wavefronts and potentials. (Q1427618) (← links)
- Efficient algebraic solution of reaction-diffusion systems for the cardiac excitation process (Q1612386) (← links)
- The study of the influence of heart ventricular wall thickness on pseudo-ECG (Q1633490) (← links)
- Fast tetrahedral mesh generation and segmentation of an atlas-based heart model using a periodic uniform grid (Q1633495) (← links)
- Spreading of excitation in 3-D models of the anisotropic cardiac tissues. I: Validation of the eikonal model (Q1802918) (← links)
- Time-varying delays in electrophysiological wave propagation along cardiac tissue and minimax control problems associated with uncertain bidomain type models (Q2127805) (← links)
- A geometric theory for scroll wave filaments in anisotropic excitable media (Q2389373) (← links)
- The effect of tissue geometry on the activation recovery interval of atrial myocytes (Q2389375) (← links)
- Simulating patterns of excitation, repolarization and action potential duration with cardiac bidomain and monodomain models (Q2573507) (← links)
- Reconstruction and quantification of diffusion tensor imaging-derived cardiac fibre and sheet structure in ventricular regions used in studies of excitation propagation (Q2786756) (← links)
- A Finite Element Method for an Eikonal Equation Model of Myocardial Excitation Wavefront Propagation (Q3149863) (← links)
- DYNAMICAL EFFECTS OF MYOCARDIAL ISCHEMIA IN ANISOTROPIC CARDIAC MODELS IN THREE DIMENSIONS (Q3502916) (← links)
- Heart Muscle as a Reaction–Diffusion Medium: The Roles of Electric Potential Diffusion, Activation Front Curvature, and Anisotropy (Q4374514) (← links)
- Computational electrocardiology: mathematical and numerical modeling (Q4638233) (← links)
- ACCURATE COMPUTATION OF ELECTROGRAMS IN THE LEFT VENTRICULAR WALL (Q4798804) (← links)
- A PARALLEL SOLVER FOR REACTION–DIFFUSION SYSTEMS IN COMPUTATIONAL ELECTROCARDIOLOGY (Q5315606) (← links)