Download Free Molecular Cardiology For The Cardiologists Book in PDF and EPUB Free Download. You can read online Molecular Cardiology For The Cardiologists and write the review.

Molecular Cardiology for the Cardiologist provides a short, easily readable summary of what the new biology brings to cardiology. With this in mind, special efforts have been made to present many comprehensive schemes and drawings, as well as teaching tables. The five parts of the book provide a general introduction to the new language of biology; the normal structure of the heart and blood vessels; the physiopathology and the new therapeutic avenues that have been opened up by the new biology. A concise summary of the keys that assist the cardiologist or student who seeks to learn and read more about this field. Provides practical examples to illustrate the clinical interest of the new approach.
Cellular and Molecular Pathobiology of Cardiovascular Disease focuses on the pathophysiology of common cardiovascular disease in the context of its underlying mechanisms and molecular biology. This book has been developed from the editors' experiences teaching an advanced cardiovascular pathology course for PhD trainees in the biomedical sciences, and trainees in cardiology, pathology, public health, and veterinary medicine. No other single text-reference combines clinical cardiology and cardiovascular pathology with enough molecular content for graduate students in both biomedical research and clinical departments. The text is complemented and supported by a rich variety of photomicrographs, diagrams of molecular relationships, and tables. It is uniquely useful to a wide audience of graduate students and post-doctoral fellows in areas from pathology to physiology, genetics, pharmacology, and more, as well as medical residents in pathology, laboratory medicine, internal medicine, cardiovascular surgery, and cardiology. - Explains how to identify cardiovascular pathologies and compare with normal physiology to aid research - Gives concise explanations of key issues and background reading suggestions - Covers molecular bases of diseases for better understanding of molecular events that precede or accompany the development of pathology
This new book reviews the latest advances in the embryology, genetics, diagnosis, imaging, and therapy of congenital heart disease. The international cast of authors has combined its talents to produce a unique, expert perspective. This publication arrives at a very exciting time when new genetic, imaging, and therapeutic developments are changing the field. It is relevant to pediatricians, internal medicine specialists, medical geneticists, both pediatric and adult cardiologists, embryologists, imaging physicians, and cardiac surgeons. The reader is taken on a journey that begins with a historical overview of congenital cardiovascular anomalies and ends with developments in stem cell and tissue engineering. In between are chapters on cardiac embryogenesis; epidemiology; genetic syndromes associated with cardiovascular anomalies; single gene disorders; cardiac imaging; surgical and interventional therapies; and ethical considerations.
Molecular Cardiology for the Cardiologist, Second Edition provides a short, easily readable summary of what the new biology brings to cardiology. Special efforts have been made to include comprehensive diagrams and drawings, as well as teaching tables, and also to keep the size of the second edition within the modest limits of the first edition. The book remains divided into 5 parts. The first part is a general introduction to the new terminology. The second part is devoted to the normal structure of the heart and vessels. Parts 3 and 4 deal with physiopathology. One of the important contributions of molecular biology to cardiology is a better understanding of the general process of adaptation of the heart and vessels to a permanent mechanical overloading. Such a process is generally called remodeling, and results from coordinate changes in the expression of the genes. The last part of the book includes information on gene and cellular therapy.
ATP plays a central role in the two leading causes of cardiac morbidity and mortality in the western world: ischemia and heart failure. We are in our infancy applying what is known about biology and chemistry of ATP toward developing effective therapies for these diseases. In this volume, the current understanding of the chemistry and biology of ATP specifically in the cardiomyocyte is presented. New insights into ATP have been gleaned using biophysical techniques allowing dynamic measurement of chemical events in the intact beating heart and using new animal models in which cardiac proteins are either over expressed, deleted or harbor specific mutations. This book provides a summary of the basic understanding and includes illustrations of why ATP and the Heart is important to both the clinician and scientist.
The 2nd Edition of this heralded companion to Braunwald's Heart Disease explores the molecular mechanisms of cardiology and the scientific advances that are changing the practice of cardiology today. International experts discuss the role of genetics in cardiovascular disease the molecular basis of ischemic disease, thrombosis and hypertension genetic mapping approaches to inherited disorders biologically targeted agents for hypertension and heart failure and much more. Abundant figures and tables illustrate key concepts. Addresses most common cardiovascular problems from a molecular standpoint. Explores developing treatments for cardiovascular problems based on genetics. Provides references to Braunwald's Heart Disease, 6th Edition Examines today's cutting edge advances in molecular cardiology and the future of gene therapy, Examines the implications of cellular cholesterol metabolism in health and disease. . Delivers up-to-date information on understanding the origin of inherited disease.
Recent years have seen numerous advances in cardiovascular nuclear medicine technology, leading to more precise diagnoses and treatment and an expanded understanding of the molecular basis for cardiac disease. Nuclear Cardiology and Multimodal Cardiovascular Imaging is a one-stop, comprehensive guide to the diagnostic and clinical implications of this complex and increasingly important technology. Part of the Braunwald family of renowned cardiology references, it provides cutting-edge coverage of multimodal cardiac imaging along with case vignettes and integrated teaching content—ideal for cardiologists, cardiology fellows, radiologists, and nuclear medicine physicians. - Features all the latest cardiovascular nuclear medicine studies with practical, evidence-based implications for personalized patient evaluation and treatment. - Presents a consistent, patient-centered approach using integrated case vignettes correlated with specific nuclear medicine imaging findings. Discusses patient assessment criteria, risk factor criteria, pathology, evaluation criteria, outcomes, and other clinical implications. - Covers a full range of imaging technologies, including SPECT/CT, PET/CT, and CT/MR hybrid radionuclide cardiovascular imaging studies. - Addresses emerging clinical applications of nuclear imaging techniques for precision-based medicine, including targeted molecular imaging and cell therapies. - Includes sections on instrumentation/principles of imaging; protocols and interpretation; applications in coronary artery disease, special populations, and heart failure; artificial intelligence, and more. - Contains guidelines and appropriate use documents to provide appropriate context for clinicians. - Features hundreds of high-quality figures including multimodal cardiac imaging studies, anatomic illustrations, and graphs. - Provides Key Point summaries, 50 procedural videos, and 100 multiple-choice questions and answers to reinforce understanding and facilitate review. - Enhanced eBook version included with purchase, which allows you to access all of the text, figures, and references from the book on a variety of devices
Subjects in the monograph “Biophysics of the Failing Heart” include state of the art chapters considering major biophysical mechanisms for why hearts responding to acquired or inherited stressors enter into maladaptive processes eventually leading to an inability of the heart to respond efficiently to hemodynamic loads especially during exercise. The chapters describe biophysical techniques that have been applied to determine the triggers for the heart failure process as well as the mechanisms for sustaining the disorders. These techniques include measurements of active and passive mechanical properties and hemodynamics at levels of organization ranging from molecules to hearts beating in situ. Biophysical concepts and approaches are also applied to determination of signaling and signal transduction, energetics, ionic currents, transport processes, electro-chemical and chemo-mechanical coupling. By its emphasis on biophysical aspects of a prevalent clinical condition, the monograph is unique in its perspective and focus. The breadth of information in the chapters all in one place will be of value to clinicians and researchers at all levels. Modern research approaches and clinical understanding of heart failure demands integration of multiple aspects of the disorders. In most cases, combinations of clinician scientists and researchers author the chapters. A main benefit of the book is couched in its didactic approach together with its emphasis on how biophysical concepts and techniques aid in diagnosis and development of new therapies.
Inflammation in Heart Failure, edited by W. Matthijs Blankesteijn and Raffaele Altara, is the first book in a decade to provide an in-depth assessment on the causes, symptoms, progression and treatments of cardiac inflammation and related conditions. This reference uses two decades of research to introduce new methods for identifying inflammatory benchmarks from early onset to chronic heart failure and specifically emphasizes the importance of classifying at-risk subgroups within large populations while determining the patterns of cytokines in such classifications. Further, the book details clinical applications of the pathophysiological mechanisms of heart failure, diagnosis and therapeutic strategies. Inflammation in Heart Failure's breadth of subject matter, easy-to-follow structure, portability, and high-quality illustrations create an accessible benefit for researchers, clinicians and students. - Presents updated information and research on the relevant inflammatory mediators of heart failure to aid in targeting future translational research as well as the improvement of early diagnosis and treatment - Provides research into better understanding the different inflammatory mediators that signal the underlying diseases that potentially lead to heart failure - Contains 20 years of research, offering a brief overview of the topic leading to current opinions on, and treatment of, heart failure - Provides a structured, systematic and balanced overview of the role of inflammation in heart failure making it a useful resource for researchers and clinicians, as well as those studying cardiovascular diseases
The aim of Molecular Cardiology: Methods and Protocols is to document state-of-the-art molecular and genetic techniques in the area of cardiology. These modern approaches enable researchers to readily study heart diseases at the molecular level and will promote the development of new therapeutic str- egies. Methods for genetic dissection, signal transduction, and microarray analysis are excellent tools for the study of the molecular mechanisms of cardiovascular diseases. Protocols for transgenesis take advantage of recent advances in many areas of molecular and cell biology. Transgenic models of heart diseases (cardiac hypertrophy, cardiac dysfunction, and so on. ) are powerful tools for the study of heart disease pathogenesis. Methods for gene transfer to heart tissue using viral and nonviral vectors form the basis of gene therapy for heart diseases. Heart-specific promoters containing a hypox- inducible cardioprotective gene switch are key for protection of the heart from ischemia. Gene and stem cell therapies open novel and exciting avenues for the prevention and treatment of heart diseases. Molecular Cardiology: Methods and Protocols consists of 26 chapters de- ing with various aspects of molecular cardiology, including gene transfer and gene therapy for cardiovascular disease, stem cell therapy for cardiovascular disease, gene analysis in the injured and hypertrophied heart, and transgenesis in cardiovascular research. This book provides step-by-step methods for the successful completion of experimental procedures, and would be useful for both experienced and new investigators in the field of molecular cardiology.