Cardiac Bioelectric Therapy: Mechanisms and Practical Implications
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Overview
Pacing and defibrillation have become the leading therapeutic treatments of heart rhythm disorders, including bradycardia and tachycardia. The success of these therapies is largely due to centuries of scientific inquiry into the fundamental mechanisms of bioelectric phenomena in the heart. History of successful development of bioelectric therapies includes development of experimental and theoretical methodologies, novel bioengineering approaches, and state-of-the-art clinical implantable device therapies.
The purpose of this book is to present a uniform thematic collection of reviews written by the leading basic and applied scientists working in basic bioengineering research laboratories, who have contributed to the development of current understanding of the fundamental mechanisms of pacing and electrophysiology, and who are at the leading edge of further developments in electrotherapy.
The book will start from the historic overview of the subject, including the development of the pacemaker and defibrillator, evolution of theories of cardiac arrhythmias and experimental methods used in the field over the centuries. Leading experts in the field will write these chapters. The second part of the book will focus on rigorous treatment of the fundamental theory of interaction between electric field and cardiac cell, tissue, and organ. Chapters will be written by top notch scientists, who made critically important contributions to the development of these theories. Part 3 will provide summary of several decades of research involving electrode recordings and multielectrode mapping of ventricular fibrillation and defibrillation in humans and animal models of arrhythmias. Part 4 will present new insights into defibrillation gained due to the advent of optical imaging technology, which permitted to map defibrillation without overwhelming shock-induced artifacts present in electrode recordings. Part 5 will provide rigorous overview of the methodologies, which made research of physiological and engineering aspects of electrotherapy possible. And finally, part 6 will present possible future of implantable devices and electrotherapy in the treatment of cardiac rhythm disorders.
Synopsis
Pacing and defibrillation have become the leading therapeutic treatments of heart rhythm disorders, including bradycardia and tachycardia. The success of these therapies is largely due to centuries of scientific inquiry into the fundamental mechanisms of bioelectric phenomena in the heart. History of successful development of bioelectric therapies includes development of experimental and theoretical methodologies, novel bioengineering approaches, and state-of-the-art clinical implantable device therapies.
The purpose of this book is to present a uniform thematic collection of reviews written by the leading basic and applied scientists working in basic bioengineering research laboratories, who have contributed to the development of current understanding of the fundamental mechanisms of pacing and electrophysiology, and who are at the leading edge of further developments in electrotherapy.
The book will start from the historic overview of the subject, including the development of the pacemaker and defibrillator, evolution of theories of cardiac arrhythmias and experimental methods used in the field over the centuries. Leading experts in the field will write these chapters. The second part of the book will focus on rigorous treatment of the fundamental theory of interaction between electric field and cardiac cell, tissue, and organ. Chapters will be written by top notch scientists, who made critically important contributions to the development of these theories. Part 3 will provide summary of several decades of research involving electrode recordings and multielectrode mapping of ventricular fibrillation and defibrillation in humans and animal models of arrhythmias. Part 4 will present new insights into defibrillation gained due to the advent of optical imaging technology, which permitted to map defibrillation without overwhelming shock-induced artifacts present in electrode recordings. Part 5 will provide rigorous overview of the methodologies, which made research of physiological and engineering aspects of electrotherapy possible. And finally, part 6 will present possible future of implantable devices and electrotherapy in the treatment of cardiac rhythm disorders.
Doody Review Services
Reviewer:Louis A Salvaggio, M.D.(Ochsner Clinic Foundation)
Description:This book discusses the background of the theory and methodology that drive current pacing and defibrillation strategies.
Purpose:Although many books cover the clinical applications of electrophysiology, there is a void in the literature when it comes to the basic mechanisms of cardiac bioelectric theory. This book aims to fill that void and, with leaders in the various fields underlying this broad area, it accomplishes this very well.
Audience:The most likely readers are electrophysiologists, research scientists in the field of cardiac bioelectric therapy, or physician-scientists with an interest in this field.
Features:The book is divided into four major areas. The history of pacing and defibrillation is covered first. The next two sections, which make up the majority of the book, are an in-depth recapitulation of the theory of electric stimulation and defibrillation and the principle mechanisms that have led to electrode and optical mapping in the field. Finally, past, present, and future clinical implications for implantable devices are covered.
Assessment:This is an extremely thorough book on the mechanisms that drive the current clinical utility of pacemakers and defibrillators. It will be a useful reference for many electrophysiologists and researchers in the field.
Editorials
From The Critics
Reviewer: Louis A Salvaggio, M.D.(Ochsner Clinic Foundation)Description: This book discusses the background of the theory and methodology that drive current pacing and defibrillation strategies.
Purpose: Although many books cover the clinical applications of electrophysiology, there is a void in the literature when it comes to the basic mechanisms of cardiac bioelectric theory. This book aims to fill that void and, with leaders in the various fields underlying this broad area, it accomplishes this very well.
Audience: The most likely readers are electrophysiologists, research scientists in the field of cardiac bioelectric therapy, or physician-scientists with an interest in this field.
Features: The book is divided into four major areas. The history of pacing and defibrillation is covered first. The next two sections, which make up the majority of the book, are an in-depth recapitulation of the theory of electric stimulation and defibrillation and the principle mechanisms that have led to electrode and optical mapping in the field. Finally, past, present, and future clinical implications for implantable devices are covered.
Assessment: This is an extremely thorough book on the mechanisms that drive the current clinical utility of pacemakers and defibrillators. It will be a useful reference for many electrophysiologists and researchers in the field.