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N Trayanova

Showing results (11-20 of 46) with videos related to

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Electromyography and Clinical Neurophysiology|October 1, 1986
Some features of the extracellular potential field of active single muscle fibres. A model investigationN Trayanova, A Gydikov
Electromyography and Clinical Neurophysiology|June 1, 1987
Extracellular potential field caused by the resting potential of a myelinated nerve fibreN Trayanova, A Gydikov
Journal of Cardiovascular Electrophysiology|July 1, 1997
Membrane refractoriness and excitation induced in cardiac fibers by monophasic and biphasic shocksN Trayanova, M A Bray
Electromyography and Clinical Neurophysiology|January 1, 1983
Mathematical models of the extracellular potentials generated by excitable fibres in a volume conductorN Trayanova, G V Dimitrov
Medical & Biological Engineering & Computing|November 1, 1991
Examination of the choice of models for computing the extracellular potential of a single fibre in a restricted volume conductorN Trayanova, C S Henriquez
Mathematical Biosciences|April 1, 1991
Modification of a cylindrical bidomain model for cardiac tissueN Trayanova, C S Henriquez
IEEE Transactions on Bio-Medical Engineering|May 1, 1993
A bidomain model with periodic intracellular junctions: a one-dimensional analysisN Trayanova, T C Pilkington
Journal of Cardiovascular Electrophysiology|August 2, 2000
Success and failure of the defibrillation shock: insights from a simulation studyK Skouibine, N Trayanova, P Moore
Medical & Biological Engineering & Computing|March 1, 1988
Extracellular (volume conductor) effect on adjoining cardiac muscle electrophysiologyR Plonsey, C Henriquez, N Trayanova
Mathematical Biosciences|July 7, 2000
A numerically efficient model for simulation of defibrillation in an active bidomain sheet of myocardiumK Skouibine, N Trayanova, P Moore
Pageof 5

Showing results (11-20 of 46) with videos related to

Sort By:
Pageof 5
Electromyography and Clinical Neurophysiology|October 1, 1986
Some features of the extracellular potential field of active single muscle fibres. A model investigationN Trayanova, A Gydikov
Electromyography and Clinical Neurophysiology|June 1, 1987
Extracellular potential field caused by the resting potential of a myelinated nerve fibreN Trayanova, A Gydikov
Journal of Cardiovascular Electrophysiology|July 1, 1997
Membrane refractoriness and excitation induced in cardiac fibers by monophasic and biphasic shocksN Trayanova, M A Bray
Electromyography and Clinical Neurophysiology|January 1, 1983
Mathematical models of the extracellular potentials generated by excitable fibres in a volume conductorN Trayanova, G V Dimitrov
Medical & Biological Engineering & Computing|November 1, 1991
Examination of the choice of models for computing the extracellular potential of a single fibre in a restricted volume conductorN Trayanova, C S Henriquez
Mathematical Biosciences|April 1, 1991
Modification of a cylindrical bidomain model for cardiac tissueN Trayanova, C S Henriquez
IEEE Transactions on Bio-Medical Engineering|May 1, 1993
A bidomain model with periodic intracellular junctions: a one-dimensional analysisN Trayanova, T C Pilkington
Journal of Cardiovascular Electrophysiology|August 2, 2000
Success and failure of the defibrillation shock: insights from a simulation studyK Skouibine, N Trayanova, P Moore
Medical & Biological Engineering & Computing|March 1, 1988
Extracellular (volume conductor) effect on adjoining cardiac muscle electrophysiologyR Plonsey, C Henriquez, N Trayanova
Mathematical Biosciences|July 7, 2000
A numerically efficient model for simulation of defibrillation in an active bidomain sheet of myocardiumK Skouibine, N Trayanova, P Moore
Pageof 5