Current injection into a two-dimensional anisotropic bidomain - Wikidata - wikimedia - TriplyDB

Current injection into a two-dimensional anisotropic bidomain

Current injection into a two-dimensional anisotropic bidomain

http://www.wikidata.org/entity/Q24536181

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Virtual electrodes in cardiac tissue: a common mechanism for anodal and cathodal stimulation A mathematical model for electrical stimulation of a monolayer of cardiac cells Imaging of Ventricular Fibrillation and Defibrillation: The Virtual Electrode Hypothesis Modeling defibrillation of the heart: approaches and insights Electrical Pacing of Cardiac Tissue Including Potassium Inward Rectification The Mechanical Bidomain Model: A Review Roles of electric field and fiber structure in cardiac electric stimulation.Mechanisms of vortices termination in the cardiac muscle.Spiral-wave turbulence and its control in the presence of inhomogeneities in four mathematical models of cardiac tissue.New insights into defibrillation of the heart from realistic simulation studies.Algebraic multigrid preconditioner for the cardiac bidomain model.A generalized activating function for predicting virtual electrodes in cardiac tissue.An extended bidomain framework incorporating multiple cell types.Virtual electrode effects in myocardial fibers.Spatial distribution of cardiac transmembrane potentials around an extracellular electrode: dependence on fiber orientation Phase-resolved analysis of the susceptibility of pinned spiral waves to far-field pacing in a two-dimensional model of excitable media.Mechanism of anode break stimulation in the heart Effects of elevated extracellular potassium on the stimulation mechanism of diastolic cardiac tissue.Asymmetry in membrane responses to electric shocks: insights from bidomain simulations.Defibrillation of the heart: insights into mechanisms from modelling studies.Probing field-induced tissue polarization using transillumination fluorescent imaging.The induction of reentry in cardiac tissue. The missing link: How electric fields alter transmembrane potential.Wave trains induced by circularly polarized electric fields in cardiac tissues.Cardiac strength-interval curves calculated using a bidomain tissue with a parsimonious ionic current.Removal of pinned scroll waves in cardiac tissues by electric fields in a generic model of three-dimensional excitable media.What have we learned from mathematical models of defibrillation and postshock arrhythmogenesis? Application of bidomain simulations The role of mechanoelectric feedback in vulnerability to electric shock.Solvers for the cardiac bidomain equations Virtual electrodes and the induction of fibrillation in Langendorff-perfused rabbit ventricles: the role of intracellular calcium.Diastolic field stimulation: the role of shock duration in epicardial activation and propagation From mitochondrial ion channels to arrhythmias in the heart: computational techniques to bridge the spatio-temporal scales Effects of unipolar stimulation on voltage and calcium distributions in the isolated rabbit heart.An efficient finite element approach for modeling fibrotic clefts in the heart.High defibrillation threshold: the science, signs and solutions.Unpinning of rotating spiral waves in cardiac tissues by circularly polarized electric fields.The strength-interval curve in cardiac tissue.Near-real-time simulations of biolelectric activity in small mammalian hearts using graphical processing units.Optimal control approach to termination of re-entry waves in cardiac electrophysiology.On boundary stimulation and optimal boundary control of the bidomain equations.Physiological mechanisms of QRS narrowing in bundle branch block patients undergoing permanent His bundle pacing

P2860

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P2860

Current injection into a two-dimensional anisotropic bidomain

http://www.wikidata.org/entity/Q24536181

description

1989 nî lūn-bûn

@nan

1989 թուականի Մայիսին հրատարակուած գիտական յօդուած

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1989 թվականի մայիսին հրատարակված գիտական հոդված

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1989年の論文

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1989年論文

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1989年論文

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1989年論文

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1989年論文

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1989年論文

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1989年论文

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Current injection into a two-dimensional anisotropic bidomain

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Current injection into a two-dimensional anisotropic bidomain

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Current injection into a two-dimensional anisotropic bidomain

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Current injection into a two-dimensional anisotropic bidomain

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Current injection into a two-dimensional anisotropic bidomain

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Current injection into a two-dimensional anisotropic bidomain

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Current injection into a two-dimensional anisotropic bidomain

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Current injection into a two-dimensional anisotropic bidomain

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Current injection into a two-dimensional anisotropic bidomain

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Current injection into a two-dimensional anisotropic bidomain

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Current injection into a two-dimensional anisotropic bidomain

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Current injection into a two-dimensional anisotropic bidomain

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S0006-3495(89)82897-8

P1433

Biophysical Journal

P1476

Current injection into a two-dimensional anisotropic bidomain

@en

P2093

B J Roth

http://www.w3.org/2001/XMLSchema#string

J P Wikswo

http://www.w3.org/2001/XMLSchema#string

N G Sepulveda

http://www.w3.org/2001/XMLSchema#string

P2860

Electric and magnetic fields from two-dimensional anisotropic bisyncytia

Current flow patterns in two-dimensional anisotropic bisyncytia with normal and extreme conductivities

Propagation of excitation in idealized anisotropic two-dimensional tissue

A bidomain model for the extracellular potential and magnetic field of cardiac tissue.

Electrical properties of spherical syncytia.

Interstitial potentials and their change with depth into cardiac tissue.

Simulation studies of the electrocardiogram. I. The normal heart.

Electric potential in three-dimensional electrically syncytial tissues.

[Electrical properties of anisotropic neuromuscular syncytia. I. Distribution of the electrotonic potential]

Influence of cardiac fiber orientation on wavefront voltage, conduction velocity, and tissue resistivity in the dog.

P304

987-999

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scholarly article

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10.1016/S0006-3495(89)82897-8

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5

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55

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1989-05-01T00:00:00Z

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2720084

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1330535

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