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Channelopathies in Heart Disease
This book provides an expert overview on ion channel-related arrhythmia mechanisms, and describes important advances in our understanding of how ion channel dysfunction causes cardiac disease. Both, scientific findings and clinical implications are presented and discussed by scientists who have considerably contributed to the field. The book is organized in three parts: part I treats the molecular and electrophysiological mechanisms of function and dysfunction of ion channels, part II focuses on genetics and clinical findings, whereas part III describes novel research techniques, the use of stem cells and animal models and provides an outlook on future investigations and applications. The book is written for scientists in Cardiovascular Biology and Neuroscience and will be of general interest to Medical Doctors in Cardiology, Cardiac Electrophysiology and related disciplines.
AHA Scientific Sessions 2016: Program Information
The American Heart Association’s Scientific Sessions 2016 is bringing big science, big technology, and big networking opportunities to New Orleans, Louisiana this November. This event features five days of the best in science and cardiovascular clinical practice covering all aspects of basic, clinical, population and translational content.
Modeling Human Atrial Patho-Electrophysiology from Ion Channels to ECG - Substrates, Pharmacology, Vulnerability, and P-Waves
Half of the patients suffering from atrial fibrillation (AF) cannot be treated adequately, today. This book presents multi-scale computational methods to advance our understanding of patho-mechanisms, to improve the diagnosis of patients harboring an arrhythmogenic substrate, and to tailor therapy. The modeling pipeline ranges from ion channels on the subcellular level up to the ECG on the body surface. The tailored therapeutic approaches carry the potential to reduce the burden of AF.
Drowning by Accident
Drowning By Accident explains why it is so easy to drown, where accidents happen, and how to save lives by early rescue and resuscitation. More than 600 people die by drowning in Britain every year. Swimming is promoted as a particularly safe form of exercise, so that swimmers forget or ignore the dangers of frigid lakes, swollen rivers, incoming tides or outgoing rip currents. Drowning accidents take place because we don't recognise water as a hostile environment. We overestimate the strength and endurance of our bodies and underestimate the power and deceptiveness of water. Year after year, victims lose their lives in typical drowning accidents, often sinking so quickly and silently that n...
The hERG Cardiac Potassium Channel
This book draws together contributions from basic, pharmaceutical and clinical sciences aimed at a better understanding of the structure and function of hERG and the molecular basis for compound binding. It features regulatory authority perspectives on preferred preclinical test systems and includes topics on hERG channel gating, regulation of functional expression, pharmacological properties of hERG/IKr channels, drug-induced long QT syndrome and preclinical evaluation and regulatory recommendations for assessing QT prolongation risks. Better understanding of the role of the hERG channel in drug-induced cardiac arrhythmias should ultimately lead to the development of important, new and safer medicines.
Vascular Mechanobiology in Physiology and Disease
This volume of the series Cardiac and Vascular Biology presents the most relevant aspects of vascular mechanobiology along with many more facets of this fascinating, timely and clinically highly relevant field. Mechanotransduction, mechanosensing, fluid shear stress, hameodynamics and cell fate, are just a few topics to name. All important aspects of vascular mechanobiology in health and disease are reviewed by some of the top experts in the field. This volume, together with a second title on cardiac mechanobiology featured in this series, will be of high relevance to scientists and clinical researchers in the area of vascular biology, cardiology and biomedical engineering.
Cardiac Regeneration
This Volume of the series Cardiac and Vascular Biology offers a comprehensive and exciting, state-of-the-art work on the current options and potentials of cardiac regeneration and repair. Several techniques and approaches have been developed for heart failure repair: direct injection of cells, programming of scar tissue into functional myocardium, and tissue-engineered heart muscle support. The book introduces the rationale for these different approaches in cell-based heart regeneration and discusses the most important considerations for clinical translation. Expert authors discuss when, why, and how heart muscle can be salvaged. The book represents a valuable resource for stem cell researchers, cardiologists, bioengineers, and biomedical scientists studying cardiac function and regeneration.
Non-coding RNAs in the Vasculature
This volume describes important functions and roles of micro RNAs in the vasculature in health, disease, therapeutics and diagnostics. It shows how miRNAs can be used to improve stem cell-based regenerative therapies of cardiovascular diseases; further the role of miRNAs as regulators in lipoprotein metabolism in the liver and reverse cholesterol transport is depicted, as well as their pathological function in diabetes and atherosclerosis. The book discusses the use of circulating miRNAs as disease biomarkers and shows interesting correlations with the amount of detectable miRNAs in the blood and future cardiovascular risks. This book is edited and written by leading figures in the field and will be an invaluable resource for academics, researchers and students working on non-coding RNAs in biomedicine, physiology and vascular biology.
Platelets, Haemostasis and Inflammation
The book depicts the various roles of platelets in a variety of cardio-metabolic diseases. Traditional and non-traditional platelet functions are described in detail in atherosclerosis, metabolic syndrome, diabetes, myocardial infarction, and other vascular pathologies. Particular focus is put on platelets as a link between haemostasis and inflammation contributing to both. Last but not least the books links the most recent advances in basic sciences with promising novel therapeutic applications and first results of clinical trials. The book is written for biomedical scientists in the sub disciplines vascular biology, biochemistry and immunology; and it as well will be of interest and value for academic physicians like cardiologists, hematologists, general internists and vascular surgeons.
