Basic Cardiac Electrophysiology for the Clinician
Jose Jalife
Basic Cardiac Electrophysiology for the Clinician - 2nd edition - London John Wiley & Sons 2011 - 360 pages
Contents:
Acknowledgments
Bioelectricity
Ion Channels
Ion Channel Regulation
Impulse Initiation and Propagation
Propagation of the Cardiac Impulse
Propagation in ThreeDimensional Cardiac Muscle
Basic Mechanisms of Cardiac
Rotors Spirals and Scroll Waves in
Spiral Waves and Wavelets
Rotors and the Mechanisms of Atrial
Stretch and Activation in the Left Atrium during
The Spatial Distribution
This book translates fundamental knowledge in basic cardiac electrophysiology from the bench to the bedside. Revised and updated for its second edition, the text offers new coverage of the molecular mechanisms of ion channel behavior and its regulation, complex arrhythmias, and the broadening roles of devices and ablation. Clear, straightforward explanations are illustrated by plentiful diagrams to make the material accessible to the non-specialist.
144436037X 9781444360370 = action potential upstroke adenosine amplitude arrhythmias atrial fibrillation atrium Brugada syndrome Ca2+ calcium cardiac cells Cardiac Electrophysiology cardiac muscle cardiac tissue cell membrane channel protein Chapter Circ Res circuit clinical complex conduction velocity curvature cycle length demonstrated depolarization diastolic dynamics EADs effect electrical electrophysiological electrotonic entrainment epicardial fibrillatory conduction Figure filament frequency function gap junctions gene heart impulse inactivation increase initiated interaction interval intracellular ion channels ionic currents Jalife long QT syndrome LQTS mechanisms membrane potential milliseconds molecular mutations myocardium myocytes Na-K pump normal occur outward current pacemaker activity pacemaker cells panel pathway patients patterns phase polymorphic potassium channels propagation pulse Purkinje fibers QT syndrome receptor reentrant reentrant activity reentry region response result rotation rotor SCN5A scroll wave shown shows spiral wave stimulation studies subunit torsades de pointes transmembrane triggered ventricles ventricular fibrillation ventricular tachycardia voltage wave front Wavebreak
--Medical / Physiology--Medical / General --Medical › Physiology --Heart–physiology.-- Electrophysiology.
QP112.5.E46B37 2009 WG 202 B3107 2009
612.1′71 JAL
Basic Cardiac Electrophysiology for the Clinician - 2nd edition - London John Wiley & Sons 2011 - 360 pages
Contents:
Acknowledgments
Bioelectricity
Ion Channels
Ion Channel Regulation
Impulse Initiation and Propagation
Propagation of the Cardiac Impulse
Propagation in ThreeDimensional Cardiac Muscle
Basic Mechanisms of Cardiac
Rotors Spirals and Scroll Waves in
Spiral Waves and Wavelets
Rotors and the Mechanisms of Atrial
Stretch and Activation in the Left Atrium during
The Spatial Distribution
This book translates fundamental knowledge in basic cardiac electrophysiology from the bench to the bedside. Revised and updated for its second edition, the text offers new coverage of the molecular mechanisms of ion channel behavior and its regulation, complex arrhythmias, and the broadening roles of devices and ablation. Clear, straightforward explanations are illustrated by plentiful diagrams to make the material accessible to the non-specialist.
144436037X 9781444360370 = action potential upstroke adenosine amplitude arrhythmias atrial fibrillation atrium Brugada syndrome Ca2+ calcium cardiac cells Cardiac Electrophysiology cardiac muscle cardiac tissue cell membrane channel protein Chapter Circ Res circuit clinical complex conduction velocity curvature cycle length demonstrated depolarization diastolic dynamics EADs effect electrical electrophysiological electrotonic entrainment epicardial fibrillatory conduction Figure filament frequency function gap junctions gene heart impulse inactivation increase initiated interaction interval intracellular ion channels ionic currents Jalife long QT syndrome LQTS mechanisms membrane potential milliseconds molecular mutations myocardium myocytes Na-K pump normal occur outward current pacemaker activity pacemaker cells panel pathway patients patterns phase polymorphic potassium channels propagation pulse Purkinje fibers QT syndrome receptor reentrant reentrant activity reentry region response result rotation rotor SCN5A scroll wave shown shows spiral wave stimulation studies subunit torsades de pointes transmembrane triggered ventricles ventricular fibrillation ventricular tachycardia voltage wave front Wavebreak
--Medical / Physiology--Medical / General --Medical › Physiology --Heart–physiology.-- Electrophysiology.
QP112.5.E46B37 2009 WG 202 B3107 2009
612.1′71 JAL