
Cardiac Mechano-Electric Coupling and Arrhythmias offers a thoroughly reviewed compendium written by leading experts in the field on the mechanism and consequences of cardiac mechano-electrical coupling. Its coverage ranges from stretch-activated ion channels to mechanically induced arrhythmias and mechanical interventions for heart rhythm correction. Information is grouped into logical sections, from molecular mechanisms, to cell, tissue and whole organ responses, right through to patient-based observations and insight emerging from clinical trials. The information provided carefully highlights both consensus insight and current shortcomings in our understanding of cardiac mechano-electric coupling. The book has been thoroughly revised and expanded since publication of the first edition in 2005, extensively updated to reflect recent developments in the field, and now offers a more balanced view of mechano-electrical interactions in the heart and develops a more clinical focus. Written with the practising cardiologist and junior doctor in mind, it offers interesting new insight for the established physician with an interest in cardiac arrhythmogenesis and heart rhythm management.
This text investigates the physiological mechanisms of cardiac mechano-electric coupling and its direct role in the development of arrhythmias. The authors, including experts Frederick Sachs, Michael R. Franz, and Peter Kohl, synthesize current research ranging from molecular ion channel activity to clinical patient outcomes. The book provides a structured framework for understanding how mechanical forces influence electrical stability in the heart, addressing both established consensus and existing knowledge gaps.
What You Will Find
Scope Limits
Experts recognize this volume as a comprehensive reference for cardiologists and researchers focusing on arrhythmogenesis. Readers frequently note the technical density of the prose, which is tailored specifically for practitioners and clinicians seeking advanced insight into heart rhythm management.
Page Count:
608
Publication Date:
2011-01-01
Publisher:
OUP Oxford
ISBN-10:
0191636231
ISBN-13:
9780191636233
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