Documentos de Mountris K.A.

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Mostrando 9 resultados de: 9

A Novel Paradigm for in Silico Simulation of Cardiac Electrophysiology Through the Mixed Collocation Meshless Petrov-Galerkin Method

Conference Object

Abstract: Multi-scale cardiac electrophysiological modeling involves high computational load due to the inhere

Palabras claves:

Autores:

Esther Pueyo, Mountris K.A., Sanchez C.

Fuentes:

scopus

A meshless fragile points method for the solution of the monodomain model for cardiac electrophysiology simulation

Article

Abstract: Meshless methods for in silico modeling and simulation of cardiac electrophysiology are gaining more

Palabras claves:

Cardiac electrophysiology, FPM, Fragile points method, Meshless, Monodomain model

Autores:

Atluri S.N., Dong L., Esther Pueyo, Guan Y., Mountris K.A.

Fuentes:

scopus

Cell-based maximum entropy approximants for three-dimensional domains: Application in large strain elastodynamics using the meshless total Lagrangian explicit dynamics method

Article

Abstract: We present the cell-based maximum entropy (CME) approximants in E3 space by constructing the smooth

Palabras claves:

cell-based maximum entropy, essential boundary condition imposition, Explicit time integration, large strain elastodynamics, Meshless, weak Kronecker-delta

Autores:

Bourantas G.C., Esther Pueyo, Joldes G.R., Millán D., Miller K., Mountris K.A., Wittek A.

Fuentes:

scopus

Next-generation in Silico Cardiac Electrophysiology through Immersed Grid Meshfree Modeling: Application to Simulation of Myocardial Infarction

Conference Object

Abstract: State-of-art simulators of cardiac tissue electrophysiology are commonly based on the Finite Element

Palabras claves:

Autores:

Esther Pueyo, Mountris K.A.

Fuentes:

scopus

Image-based Cardiac Electrophysiology Simulation through the Meshfree Mixed Collocation Method

Conference Object

Abstract: State-of-the-art solvers for in silico cardiac electro-physiology employ the Finite Element Method t

Palabras claves:

Autores:

Doblare M., Esther Pueyo, Mountris K.A.

Fuentes:

scopus

Location of Parasympathetic Innervation Regions From Electrograms to Guide Atrial Fibrillation Ablation Therapy: An in silico Modeling Study

Article

Abstract: The autonomic nervous system (ANS) plays an essential role in the generation and maintenance of card

Palabras claves:

achetylocholine, Atrial Fibrillation, autonomic nervous system, catheter ablation, computational simulation, Electrograms, ganglionated plexi, repolarization EGM

Autores:

Celotto C., Esther Pueyo, Mountris K.A., Pablo Laguna, Sanchez C.

Fuentes:

scopus

Ventricular Conduction System Modeling for Electrophysiological Simulation of the Porcine Heart

Conference Object

Abstract: Depolarization sequences triggering mechanical contraction of the heart are largely determined by th

Palabras claves:

Autores:

Doblare M., Esther Pueyo, Mazo M.M., Mountris K.A., Rosales R.M.

Fuentes:

scopus

Rotor Termination in Cholinergic Paroxysmal Atrial Fibrillation by Small-Conductance Calcium-Activated K<sup>+</sup>Channels Inhibition and Isoproterenol: A Computational Study

Conference Object

Abstract: Hyperactivity of the parasympathetic nervous system has been linked to the onset of paroxysmal atria

Palabras claves:

Autores:

Celotto C., Esther Pueyo, Mountris K.A., Pablo Laguna, Sanchez C.

Fuentes:

scopus

Steady-state and transient effects of SK channel block and adrenergic stimulation to counteract acetylcholine-induced arrhythmogenic effects in the human atria: A computational study

Article

Abstract: Hyperactivity of the parasympathetic nervous system has been linked to the development of paroxysmal

Palabras claves:

Acetylcholine, Atrial Fibrillation, autonomic nervous system, Isoproterenol, Small-conductance calcium-activated potassium channels

Autores:

Celotto C., Esther Pueyo, Laguna P., Mountris K.A., Sanchez C.

Fuentes:

scopus

Mostrando 9 resultados de: 9

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Palabras Claves

A Novel Paradigm for in Silico Simulation of Cardiac Electrophysiology Through the Mixed Collocation Meshless Petrov-Galerkin Method

A meshless fragile points method for the solution of the monodomain model for cardiac electrophysiology simulation

Cell-based maximum entropy approximants for three-dimensional domains: Application in large strain elastodynamics using the meshless total Lagrangian explicit dynamics method

Next-generation in Silico Cardiac Electrophysiology through Immersed Grid Meshfree Modeling: Application to Simulation of Myocardial Infarction

Image-based Cardiac Electrophysiology Simulation through the Meshfree Mixed Collocation Method

Location of Parasympathetic Innervation Regions From Electrograms to Guide Atrial Fibrillation Ablation Therapy: An in silico Modeling Study

Ventricular Conduction System Modeling for Electrophysiological Simulation of the Porcine Heart

Rotor Termination in Cholinergic Paroxysmal Atrial Fibrillation by Small-Conductance Calcium-Activated K<sup>+</sup>Channels Inhibition and Isoproterenol: A Computational Study

Steady-state and transient effects of SK channel block and adrenergic stimulation to counteract acetylcholine-induced arrhythmogenic effects in the human atria: A computational study