A mathematical model of make and break electrical stimulation of cardiac tissue by a unipolar anode or cathode.
about
A mathematical model for electrical stimulation of a monolayer of cardiac cellsModeling defibrillation of the heart: approaches and insightsElectric field perturbations of spiral waves attached to millimeter-size obstacles.The Mechanism of Reflection Type Reentry: A Simulation Study.Quatrefoil reentry in myocardium: an optical imaging study of the induction mechanism.Break excitation alone does not explain the delay and amplitude of anodal current-induced vasodilatation in human skin.Review of mechanisms by which electrical stimulation alters the transmembrane potential.New insights into defibrillation of the heart from realistic simulation studies.Virtual electrodes and deexcitation: new insights into fibrillation induction and defibrillation.Mechanism of anode break stimulation in the heartEffects of elevated extracellular potassium on the stimulation mechanism of diastolic cardiac tissue.Asymmetry in membrane responses to electric shocks: insights from bidomain simulations.Strength-duration relationship for extracellular neural stimulation: numerical and analytical modelsDefibrillation of the heart: insights into mechanisms from modelling studies.The induction of reentry in cardiac tissue. The missing link: How electric fields alter transmembrane potential.Strength-duration relationship for intra- versus extracellular stimulation with microelectrodes.Cardiac strength-interval curves calculated using a bidomain tissue with a parsimonious ionic current.What have we learned from mathematical models of defibrillation and postshock arrhythmogenesis? Application of bidomain simulationsThe role of mechanoelectric feedback in vulnerability to electric shock.A mechanism for the upper limit of vulnerability.Mechanisms of defibrillation.The strength-interval curve in cardiac tissue.Conduction block in myelinated axons induced by high-frequency (kHz) non-symmetric biphasic stimulation.Anodal sensory nerve action potentials: From physiological understanding to potential clinical applicability.Calculation of optical signal using three-dimensional bidomain/diffusion model reveals distortion of the transmembrane potential.Intracellular calcium and the mechanism of the dip in the anodal strength-interval curve in cardiac tissue.Arrhythmogenesis research: a perspective from computational electrophysiology viewpoint.Effect of non-symmetric waveform on conduction block induced by high-frequency (kHz) biphasic stimulation in unmyelinated axonHow hyperpolarization and the recovery of excitability affect propagation through a virtual anode in the heart.Chronaxie of defibrillation: a pathway toward further optimization of defibrillation waveform?Optical measurement of cell-to-cell coupling in intact heart using subthreshold electrical stimulation.Mechanisms of make and break excitation revisited: paradoxical break excitation during diastolic stimulation.Nonlinear effects in subthreshold virtual electrode polarization.Virtual electrode theory explains pacing threshold increase caused by cardiac tissue damage.Spatiotemporal effects of syncytial heterogeneities on cardiac far-field excitations during monophasic and biphasic shocks.The pinwheel experiment revisited: effects of cellular electrophysiological properties on vulnerability to cardiac reentry.The puzzle of defibrillation: putting the pieces together.Artifacts, assumptions, and ambiguity: Pitfalls in comparing experimental results to numerical simulations when studying electrical stimulation of the heart.Advantage of four-electrode over two-electrode defibrillators.Cathodal stimulation in the recovery phase of a propagating planar wave in the rabbit heart reveals four stimulation mechanisms.
P2860
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P2860
A mathematical model of make and break electrical stimulation of cardiac tissue by a unipolar anode or cathode.
description
1995 nî lūn-bûn
@nan
1995年の論文
@ja
1995年学术文章
@wuu
1995年学术文章
@zh
1995年学术文章
@zh-cn
1995年学术文章
@zh-hans
1995年学术文章
@zh-my
1995年学术文章
@zh-sg
1995年學術文章
@yue
1995年學術文章
@zh-hant
name
A mathematical model of make a ...... y a unipolar anode or cathode.
@en
A mathematical model of make a ...... y a unipolar anode or cathode.
@nl
type
label
A mathematical model of make a ...... y a unipolar anode or cathode.
@en
A mathematical model of make a ...... y a unipolar anode or cathode.
@nl
prefLabel
A mathematical model of make a ...... y a unipolar anode or cathode.
@en
A mathematical model of make a ...... y a unipolar anode or cathode.
@nl
P356
P1476
A mathematical model of make a ...... y a unipolar anode or cathode.
@en
P2093
P304
P356
10.1109/10.476124
P577
1995-12-01T00:00:00Z