Page 3 - YORAM RUDY BOOK FINAL
P. 3

CONTENTS







        1.     Prologue........................................................................................................................................................................................p.5



        2.     The Cardiac Ventricular Action Potential............................................................................................................p.7


               2.1     Computing the Action Potential from Macroscopic Transmembrane Currents.............p.7

               2.2     Computing the Action Potential from Ion Channels Kinetic Properties..............................p.9

               2.3     Generation of an Action Potential by the Cardiac Cell.....................................................................p.11


               2.4     Rate Dependence of the Action Potential...............................................................................................p.13

               2.5     Kinetics of Selected Ion Channels During the Action Potential................................................p.16

               2.6     The Human Ventricular Myocyte..................................................................................................................p.26

               2.7     The Purkinje Cell......................................................................................................................................................p.32


               2.8     Structure-Function Relationship of an Ion Channel During Gating......................................p.50

               2.9     Linking Ion-Channel Mutations to the Whole-Cell Electrophysiological
                       Phenotype...................................................................................................................................................................p.59

               2.10    Beyond Rate-Adaptation: Action Potential Alternans.....................................................................p.61

               2.11    Regulation of Cellular Calcium Cycling and Electrophysiological Processes...................p.65


               2.12    Calcium Cycling in Ventricular Myocytes: Macroscopic Consequences of
                       Microscopic Dyadic Function..........................................................................................................................p.71



        3.     Propagation of the Cardiac Action Potential..................................................................................................p.71

               3.1     Basic Biophysical Principles..............................................................................................................................p.71


               3.2     Discontinuous Conduction...............................................................................................................................p.73

               3.3     The Ionic Mechanisms of Conduction........................................................................................................p.81

               3.4     Propagation in the Wake of a Cardiac Action Potential................................................................p.95


               3.5     Ion Channels Heterogeneities and Action Potential Propagation.........................................p.98

               3.6     Dynamics of Reentry in a Fixed Pathway..............................................................................................p.102

               3.7     Propagation in Higher Spatial Dimensions..........................................................................................p.106
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