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Cardiac Electrophysiology, Circulation, and Transport
The cardiac system represents one of the most exciting challenges to human ingenuity. Critical to our survival, it consists of a tantalizing array of interacting phenomena, from ionic microscopic transport, membrane channels and receptors through cellular metabolism, energy production to fiber mechanics, microcirculation, electrical activation to the global, clinically observed, function, which is measured by pressure, volume, coronary flow, heart rate, shape changes and responds to imposed loads and pharmaceutical challenges. It is a complex interdisciplinary system requiring the joint efforts of the life sciences, the exact sciences, engineering and technology to understand and control the...
The Sinus Node
For the clinician the sinus node is more or less a hidden structure and only by indirect assessment he is able to say something about the function of this center of pacemaker activity. The morphologist, however, is able to describe the structural microscopic and even electronmicroscopic features of this structure. The only disadvantage is that, as soon as he is coming into the picture, the tissue is dead. The physiologist tries to investigate the electrophysiological behavior of the sinus node. Since there is not a human being willing to give his sinus node for research, he has to do his investigation on isolated preparations of animals. Though there are a lot of experts in the field of the sinus node they nearly never speak the same 'language'. Therefore, it was my dream to bring all those people - or at least some of them -together on a workshop. I had the feeling that it was important to organize such a meeting without an audience but only with 'experts'.
Regenerating the Heart
Medical research made huge strides in treating heart disease in the 20th century, from drug-eluding stents to automatic internal defibrillators. Public awareness of the dangers of heart disease has never been more pervasive. Now, though, ten years into a new millennium, scientists are gearing up for the next great challenges in tackling this pervasive condition. Cell therapy is going to be a key weapon in the fight against heart disease. It has the potential to address many cardiovascular conditions. From heart failure to atrioventricular nodal dysfunction, the young but promising field of cell therapy is set to play a significant role in developing the cures that the upcoming decades of har...
Lethal Arrhythmias Resulting from Myocardial Ischemia and Infarction
Proceedings of the Second Rappaport Symposium, Haifa, Israel, March 13-16, 1988
Cardiac Mechano-Electric Coupling and Arrhythmias
Ranging from stretch-activated ion channels to mechanically induced arrhythmias and mechanical interventions for heart rhythm correction, this new edition offers a thoroughly reviewed compendium of chapters, written by the top-experts in the world, on the mechanism and consequences of cardiac mechano-electrical coupling.
Heart Cell Communication in Health and Disease
In Heart Cell Communication in Health and Disease an extensive review of different aspects of heart cell communication is presented. The book starts with the fundamental concept that cardiac cells are communicated, and then proceeds to the role of gap junctions in heart development, the molecular biology of gap junctions, the biophysics of the intercellular channels, the control of junctional conductance and the influence of gap junctions on impulse propagation. This is the first time that a single volume has described cell communication in the normal heart and under different pathological conditions such as heart failure, coronary disease, myocardial ischemia and cardiac arrhythmias. In this way the process of cell communication is analyzed at different levels of complexity, providing the reader with a wide view of this field and its relevance to cardiology.
Analysis and Simulation of the Cardiac System Ischemia
Over thiry-five experts contribute to this publication about the various interactions and interrelationships of the parameters which affect the normal and ischemic heart. Mechanical aspects related to the global and regional function of the heart are discussed. Coronary perfusion of the ischemic heart is considered, with emphasis on the effects of reperfusion. Electrical activation, formation of arrhythmias, and the effects of ischemia or ionic transport in the myocardium are presented. Metabolic aspects of the ischemic heart, including calcium transport, are also explained.
Trafficking of Cardiac Ion Channels
Protein sorting and trafficking are regulated by well-conserved mechanisms. These allow a distinctive set of resident proteins to be present in the correct subcellular organelle, which is required for proper cell functioning. Voltage-gated ion channels, as responsible for cardiomyocyte action potential, must be properly localized. They participate in cell excitability and electrical coupling, ensuring uninterrupted and rhythmic heart beating. Ion channel complexes comprise one or more pore-forming α subunits, associated β subunits, and additional proteins. Channel localization and function are regulated by the β subunits and associated proteins, such as cytoskeletal elements, cell-adhesio...
Heart Cell Coupling and Impulse Propagation in Health and Disease
Heart Cell Coupling and Impulse Propagation in Health and Disease includes an up-to-date review on how heart cells communicate and impulse propagation under normal as well as under pathological conditions. The complexity of intercellular coupling and impulse propagation is discussed, providing the reader with a broad view of the importance of these processes and how they contribute to the generation of cardiac arrhythmias and heart failure. The different aspects and intricacies of heart cell communication is discussed by different authors, each one an expert in their own field. The present publication will be of interest to cardiologists, electrophysiologists, heart physiologists, cardiac pharmacologists, biophysicists, and cell or molecular biologists.
Cardiac Repolarization
A comprehensive review of all the latest developments in cardiac electrophysiology, focusing on both the clinical and experimental aspects of ventricular repolarization, including newly discovered clinical repolarization syndromes, electrocardiographic phenomena, and their correlation with the most recent advances in basic science. The authors illuminate the basic electrophysiologic, molecular, and pharmacologic mechanisms underlying ventricular repolarization, relate them to specific disease conditions, and examine the future of antiarrhythmic drug development based on both molecular and electrophysiological properties. They also fully review the clinical presentation and management of specific cardiac repolarization conditions.
