The Second Essential Visual Guide to Cardiac Electrophysiology Following the bestselling Cardiac Electrophysiology: A Visual Guide for Nurses, Techs, and Fellows, this book builds upon the basic concepts of electrophysiology introduced in the first volume and guides the reader to a more in-depth understanding of cardiac electrophysiology by working through commonly encountered scenarios in the EP lab. 45 full-page landscape, high-quality color intracardiac tracings are presented as “every-day” observations and unknowns, followed by annotated tracings and discussions that emphasize a systematic approach to the interpretation of EP tracings. Authored by a team of experts, Cardiac Electrophysiology: An ADVANCED Visual Guide for Nurses, Techs, and Fellows is an invaluable resource, providing superb guidance in developing the knowledge and skills required to practice clinical cardiac electrophysiology.
The Second Essential Visual Guide to Cardiac Electrophysiology Following the bestselling Cardiac Electrophysiology: A Visual Guide for Nurses, Techs, and Fellows, this book builds upon the basic concepts of electrophysiology introduced in the first volume and guides the reader to a more in-depth understanding of cardiac electrophysiology by working through commonly encountered scenarios in the EP lab. 45 full-page landscape, high-quality color intracardiac tracings are presented as “every-day” observations and unknowns, followed by annotated tracings and discussions that emphasize a systematic approach to the interpretation of EP tracings. Authored by a team of experts, Cardiac Electrophysiology: An ADVANCED Visual Guide for Nurses, Techs, and Fellows is an invaluable resource, providing superb guidance in developing the knowledge and skills required to practice clinical cardiac electrophysiology.
The Essential Visual Guide to Basic Cardiac Electrophysiology Cardiac Electrophysiology: A Visual Guide for Nurses, Techs, and Fellows, Second Edition fulfills the need of allied health personnel and new fellows for a practical, hands-on pictorial guide that clearly illustrates the essential concepts of clinical cardiac electrophysiology. More than 85 high-quality tracings, diagrams, fluoroscopic images, and electroanatomic maps, accompanied by detailed discussions of each image, offer a fundamental understanding of cardiac electrophysiology equipment, principles, and procedures: • Catheter placement, hardware connections, and intracardiac signals • Normal electrogram sequences associated with sinus rhythm • Methodologies used to uncover the mechanisms of common clinical tachycardias Authored by a team of experts, Cardiac Electrophysiology: A Visual Guide for Nurses, Techs, and Fellows, Second Edition is an invaluable resource for a complex technology, providing superb guidance in acclimating new trainees and personnel to the EP laboratory and empowering them with the knowledge and skills needed to practice clinical electrophysiology. New to the Second Edition: • A new unit—Cardiac Electrical Axis • 16 video clips with a focus on electrogram sequences • An illustrated glossary and abbreviations list • A free eBook included
From senior electrophysiologist and world-class educator George Klein, a fully illustrated guide with over 100 intracardiac tracings and figures that allow the physician to approach electrophysiologic problems effectively and systematically. The book is especially focused on electrophysiological maneuvers and provides a clear and understandable guide to their proper selection and interpretation using abundant clinical examples. Defines the integral role for "traditional" electrogram (EGM) analysis in order to understand the mechanism of a tachycardia. It goes without saying that a correct arrhythmia diagnosis is a prerequisite to catheter ablation regardless of the presence of sophisticated mapping and imaging technologies. Electrophysiological maneuvers are fundamental to this process, and proper selection and interpretation of maneuvers constitute a core skill of the electrophysiologist. In this volume, we make the case that most maneuvers are fundamentally similar in principle and can be understood by appreciating a few basic physiological and anatomical principles. The art lies not in a comprehensive knowledge by rote of every maneuver or its application, but rather a systematic approach using common principles. We illustrate this by showing abundant examples and emphasizing the "game plan," including checklists that can be applied to virtually any maneuver. —George J. Klein In my opinion, this book should be on the shelf of every electrophysiologist trainee as well as every clinical cardiac electrophysiologist. It is a classic, like its editor. Dr. Klein deserves high praise for organizing his and his colleagues’ clinical experiences and thought processes into a concise, practical text that should be part of all training programs in electrophysiology. —From the foreword by Mark E. Josephson, MD
Evidence from neuroscience shows that individuals and organizations are more successful when people are encouraged to take risks, explore new ideas, and channel their energies in ways that work for them. And yet many organizations are filled with bullies, vicious gossip, undermining behaviours, hijacking tactics, political jockeying for position, favouritism and other factors that instil fear and impede productivity. It is no wonder that organizations are actively looking at how they can improve and maintain the psychological health and wellbeing of their employees to the benefit of all concerned. The Fear-free Organization reveals how our new understanding of the neurobiology of the self - how the brain constructs the person - can transform for the better the way our businesses and organizations work. Academic yet accessible, The Fear-free Organization addresses head on the issue that scared people spend a lot more time plotting their survival than working productively. The book helps leaders understand the neurobiology of fear, face the damage it is doing, and replace it with building relationships, managing energy flow and fostering trust. It guides you in making your workplace one that's full of energy, not adrenalin; focused on possibility, not profit; and generates independent thinking, not obedience so you can promote the psychological wellbeing that is strongly correlated with greater energy, motivation and better cognitive function.
The domains of Pattern Recognition and Machine Learning have experienced exceptional interest and growth, however the overwhelming number of methods and applications can make the fields seem bewildering. This text offers an accessible and conceptually rich introduction, a solid mathematical development emphasizing simplicity and intuition. Students beginning to explore pattern recognition do not need a suite of mathematically advanced methods or complicated computational libraries to understand and appreciate pattern recognition; rather the fundamental concepts and insights, eminently teachable at the undergraduate level, motivate this text. This book provides methods of analysis that the reader can realistically undertake on their own, supported by real-world examples, case-studies, and worked numerical / computational studies.
Molecular Cell Biology presents the key concepts in cell biology and their experimental underpinnings. The authors, all world-class researchers and teachers, incorporate medically relevant examples where appropriate to help illustrate the connections between cell biology and health and human disease. As always, a hallmark of Molecular Cell Biology is the use of experiments to engage students in the history of cell biology and the research that has contributed to the field. New Co-Author, Angelika Amon: The new edition of Molecular Cell Biology introduces a new member to our author team, respected researcher and teacher Angelika Amon of the Massachusetts Institute of Technology. Dr. Amon is an Investigator at the Howard Hughes Medical Institute as well as a member of the Koch Institute for Integrative Cancer Research and the National Academy of Sciences. Her laboratory studies the molecular mechanisms that govern chromosome segregation during mitosis and meiosis and the consequences when these mechanisms fail during normal cell proliferation and cancer development. Increased Clarity, Improved Pedagogy: In the new edition, the authors have scrutinized every chapter with an eye toward bringing out key concepts and making connections easier to follow. Perennially challenging topics, such as cellular energetics, cell signaling and immunology, have been revised to improve student understanding. Coverage of developmental biology has been streamlined to focus on just those key areas central to cell biology courses. Every figure in the book was reconsidered and, if possible, simplified to highlight key lessons. Revised end-of-chapter materials include new questions, including additional Analyze the Data problems to give students added practice at interpreting experimental evidence. The result is a book that balances currency and experimental focus with attention to clarity, organization, and pedagogy. Highlights of the New Edition: - Chapter 1 Molecules, Cells, and Evolution now frames cell biology in the light of evolution: because we all come from the same ancestor cell, the molecules and processes of cell biology are similar in all forms of life. We can use model organisms to study aspects of cell structure and function that have been conserved across millions of years of evolution. - Chapter 9 Culturing, Visualizing, and Perturbing Cells has been rewritten to include cutting edge methods including FRAP, FRET, siRNA, and chemical biology, making it a state-of-the art methods chapter. - Cell signaling chapters (Chapters 15 & 16) have been reorganized and illustrated with simplified overview figures, to help students navigate the complexity of signaling pathways. - Fully Reconceived, Thoroughly Updated Chapter 19 The Eukaryotic Cell Cycle now begins with the concept of "START" (a cell's commitment to entering the cell cycle starting with DNA synthesis) and then progresses through the cycle stages. The chapter focuses on yeast and mammals and uses general names for cell cycle components as much as possible. New Discoveries, Methodologies and Medical Examples: New discoveries, new methodologies and new medical examples are included throughout.
Thank you for visiting our website. Would you like to provide feedback on how we could improve your experience?
This site does not use any third party cookies with one exception — it uses cookies from Google to deliver its services and to analyze traffic.Learn More.