9789090229553 - New Insights in morphology and pathophysiology of hypertrophic cardiomyopathy by cardiac magnetic resonance imaging

New Insights in morphology and pathophysiology of hypertrophic cardiomyopathy by cardiac magnetic resonance imaging

This book, 'New Insights in Morphology and Pathophysiology of Hypertrophic Cardiomyopathy by Cardiac Magnetic Resonance Imaging' by T. Germans, offers a groundbreaking exploration into the use of cardiac magnetic resonance imaging (CMR) to understand hypertrophic cardiomyopathy (HCM). The author delves into the morphological and pathophysiological aspects of HCM, a common genetic heart disease characterized by left ventricular hypertrophy. Through detailed CMR analysis, the book reveals new insights into the disease's progression, including myocardial fibrosis, microvascular dysfunction, and subtle structural changes. It covers advanced imaging techniques such as late gadolinium enhancement, T1 mapping, and feature tracking, which provide a comprehensive assessment of myocardial tissue characteristics and mechanics. The text is richly illustrated with high-resolution CMR images, making complex concepts accessible. This monograph is essential for cardiologists, radiologists, and researchers seeking to deepen their understanding of HCM. It bridges the gap between clinical imaging and underlying pathophysiology, offering potential biomarkers for prognosis and treatment monitoring. The book also discusses the limitations of current imaging and future directions, including machine learning applications. Overall, it stands as a pivotal resource in cardiovascular imaging, emphasizing the role of CMR in diagnosing and managing HCM with unprecedented detail.

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This monograph is a comprehensive and highly specialized resource that excels in its detailed presentation of CMR findings in hypertrophic cardiomyopathy. A major strength is its thorough integration of imaging data with pathophysiological mechanisms, offering readers a cohesive understanding of the disease. The use of high-quality images and clear diagrams enhances comprehension. However, the book's narrow focus may limit its appeal to a general cardiology audience; it is best suited for specialists in cardiac imaging or HCM. Additionally, the text is dense and technical, which might be challenging for trainees unfamiliar with advanced CMR techniques. The author provides a balanced view of the strengths and limitations of CMR, but could have expanded on alternative imaging modalities. Despite these minor drawbacks, the book is an invaluable update for those already versed in the field. It successfully synthesizes recent research into a coherent narrative, making it a must-read for clinicians and researchers dedicated to HCM. The references are current and extensive, supporting evidence-based practice.

This book provides a detailed examination of hypertrophic cardiomyopathy (HCM) through the lens of cardiac magnetic resonance imaging (CMR). It begins by introducing the epidemiology, genetics, and clinical features of HCM, emphasizing the diagnostic challenges. The core of the text focuses on CMR techniques, including cine imaging for morphology, late gadolinium enhancement for fibrosis detection, T1 mapping for diffuse fibrosis, and feature tracking for myocardial strain. The author explains how these methods reveal diverse phenotypic expressions of HCM, such as asymmetric septal hypertrophy, apical hypertrophy, and left ventricular outflow tract obstruction. Pathophysiological insights include the role of myocyte disarray, microvascular ischemia, and fibrosis in disease progression. The book also covers risk stratification for sudden cardiac death, incorporating CMR-derived markers like fibrosis extent and left ventricular ejection fraction. Treatment implications are discussed, including septal reduction therapies and implantable cardioverter-defibrillator placement. Finally, future directions are outlined, such as artificial intelligence for image analysis and novel contrast agents. Throughout, the author emphasizes the superior ability of CMR to characterize myocardial tissue and mechanics, making it an indispensable tool for understanding and managing HCM.