3-Dimensional Modeling in Cardiovascular Disease


Book Description

Written by physicians and surgeons, imaging specialists, and medical technology engineers, and edited by Dr. Evan M. Zahn of the renowned Cedars-Sinai Heart Institute, this concise, focused volume covers must-know information in this new and exciting field. Covering everything from the evolution of 3D modeling in cardiac disease to the various roles of 3D modeling in cardiology to cardiac holography and 3D bioprinting, 3-Dimensional Modeling in Cardiovascular Disease is a one-stop resource for physicians, cardiologists, radiologists, and engineers who work with patients, support care providers, and perform research. - Provides history and context for the use of 3D printing in cardiology settings, discusses how to use it to plan and evaluate treatment, explains how it can be used as an education resource, and explores its effectiveness with medical interventions. - Presents specific uses for 3D modeling of the heart, examines whether it improves outcomes, and explores 3D bioprinting. - Consolidates today's available information and guidance into a single, convenient resource.




3D Printing Applications in Cardiovascular Medicine


Book Description

3D Printing Applications in Cardiovascular Medicine addresses the rapidly growing field of additive fabrication within the medical field, in particular, focusing on cardiovascular medicine. To date, 3D printing of hearts and vascular systems has been largely reserved to anatomic reconstruction with no additional functionalities. However, 3D printing allows for functional, physiologic and bio-engineering of products to enhance diagnosis and treatment of cardiovascular disease. This book contains the state-of-the-art technologies and studies that demonstrate the utility of 3D printing for these purposes. - Addresses the novel technology and cardiac and vascular application of 3D printing - Features case studies and tips for applying 3D technology into clinical practice - Includes an accompanying website that provides 3D examples from cardiovascular clinicians, imagers, computer science and engineering experts




Rapid Prototyping in Cardiac Disease


Book Description

This book provides an overview of the use of rapid prototyping in patients with cardiac pathology. With the exponential increase in the use of prototyping, or 3D printing technology, medical applications are becoming more widespread across specialties. Although medical centers are beginning to apply this technology for improved patient care, there is no single text to which specialists can refer for guidance about this emerging modality. The book discusses the use of rapid prototyping in medicine; model creation; image acquisition; rapid prototyping techniques; applications in congenital and structural heart disease; and development and management of a rapid prototyping service. The use of rapid prototyping for pre-procedural planning in patients with cardiac disorders such as septal defects, Tetralogy of Fallot, transcatheter aortic valve replacement, and ventricular assist devices and heart transplant significantly enhances visualization of cardiovascular anatomy. Rapid Prototyping in Cardiac Disease is a unique and valuable resource for cardiac imaging specialists, cardiothoracic surgeons, radiologists, and biomedical engineers.




3D Echocardiography


Book Description

Since the publication of the second edition of this volume, 3D echocardiography has penetrated the clinical arena and become an indispensable tool for patient care. The previous edition, which was highly commended at the British Medical Book Awards, has been updated with recent publications and improved images. This third edition has added important new topics such as 3D Printing, Surgical and Transcatheter Management, Artificial Valves, and Infective Endocarditis. The book begins by describing the principles of 3D echocardiography, then proceeds to discuss its application to the imaging of • Left and Right Ventricle, Stress Echocardiography • Left Atrium, Hypertrophic Cardiomyopathy • Mitral Regurgitation with Surgical and Nonsurgical Procedures • Mitral Stenosis and Percutaneous Mitral Valvuloplasty • Aortic Stenosis with TAVI / TAVR • Aortic and Tricuspid Regurgitation • Adult Congenital Heart Disease, Aorta • Speckle Tracking, Cardiac Masses, Atrial Fibrillation KEY FEATURES In-depth clinical experiences of the use of 3D/2D echo by world experts Latest findings to demonstrate clinical values of 3D over 2D echo One-click view of 263 innovative videos and 352 high-resolution 3D/2D color images in a supplemental eBook.




Modeling the Heart and the Circulatory System


Book Description

The book comprises contributions by some of the most respected scientists in the field of mathematical modeling and numerical simulation of the human cardiocirculatory system. The contributions cover a wide range of topics, from the preprocessing of clinical data to the development of mathematical equations, their numerical solution, and both in-vivo and in-vitro validation. They discuss the flow in the systemic arterial tree and the complex electro-fluid-mechanical coupling in the human heart. Many examples of patient-specific simulations are presented. This book is addressed to all scientists interested in the mathematical modeling and numerical simulation of the human cardiocirculatory system.




Modelling Congenital Heart Disease


Book Description

This book combines medicinal and engineering knowledge to present engineering modelling applications (mainly computational, but also experimental) in the context of facilitating a patient-centred approach to treating congenital heart disease (CHD). After introducing the basic concepts of engineering tools, it discusses modelling and the applications of engineering techniques (e.g. computational fluid dynamics, fluid-structure interaction, structural simulations, virtual surgery, advanced image analysis, 3D printing) in specific congenital heart diseases. It also offers a number of clinical case studies describing the applications in real-life clinical practice. The final section focuses on the importance of surgical training, counselling and patient communication. Considering the unique anatomical arrangement pre/post repair in CHD, as well as the different surgical strategy and device options (e.g. stents) for interventions, a patient-specific approach is certainly warranted in this area of medicine, and engineering is helping improve our understanding of individual patients and their particular anatomy and physiology. To reinforce the idea of a necessary dialogue between clinicians and engineers, this book has not only been edited by two cardiologists and two bioengineers, but each chapter has been written by a clinician and an engineer, incorporating both voices in the description of state-of-the-art models for different CHDs.




Cardiopulmonary Bypass


Book Description

Cardiopulmonary Bypass: Advancements in Extracorporeal Life Support provides comprehensive coverage on the technological developments and clinical applications of extracorporeal technologies, including the underlying basic science and the latest clinical advances in the field. Written by experts around the world, this book comprises all characteristics of cardiopulmonary bypass as well as chapters regarding equipment, physiology and pathology, pediatric aspects and clinical applications. Important highlights include the latest updates regarding minimal invasive cardiopulmonary bypass (MICPB), extracorporeal circulatory and respiratory support (ECCRS) in cardiac and non-cardiac patients, ECMO support in COVID-19, and updated guidelines of extracorporeal technologies. This book is an invaluable resource to clinicians, researchers and medical students in the fields of cardiothoracic surgery, cardiac anesthesiology, intensive care, and perfusion technology. - Offers comprehensive and cutting-edge knowledge of cardiopulmonary bypass and extracorporeal life support during surgery and non-surgical situations - Discusses basic science principles along with practical clinical applications - Includes content from authors who are well-known experts in the field, and whose authoritative contributions are invaluable for early-career and experienced practitioners alike




Multimodality Imaging Innovations In Adult Congenital Heart Disease


Book Description

This book focuses on congenital heart disease (CHD) and emerging imaging technologies. It covers all clinically relevant aspects of the fascinating new cardiac imaging technologies, including a comprehensive explanation of their basic principles, practical aspects of novel clinical applications, and detailed descriptions of specific uses in the broad spectrum of clinically important adult CHD. Innovations and emerging technologies for diagnosis and therapeutics, evaluation and treatment are continually evolving, and due to these advances in non-invasive diagnosis, there has been a significant improvement in the survival rates for CHD patient. Novel approaches to trans-catheter interventions and advances in echocardiography, MRI and CT imaging are being developed and incorporated into routine clinical practice, while emerging three-dimensional printing technologies are fundamentally affecting patient care, research, trainee education, and interactions between multidisciplinary teams, patients, and caregivers. In addition, translational technologies on the horizon promise to take this nascent field even further. Exploring the applicability of these emerging technologies in improving our understanding of complex congenital cardiac defect anatomy and physiology will provide new treatment options for this unique population. Written by experts in the field who are also involved in patient care, this book discusses the practical application of innovations in advanced multimodality imaging in the daily clinical routine and offers tips and tricks for beginners.




Magnetic Resonance Imaging of Congenital Heart Disease


Book Description

This heavily updated textbook focuses on the use of cardiac magnetic resonance (CMR) imaging in pediatric and adult patients with congenital heart disease. Over past two decades, CMR has come to occupy an ever more important place in the assessment and management of patients with congenital heart defects (CHD) and other cardiovascular disorders. The modality offers an ever-expanding amount of information about the heart and circulation, provides outstanding images of cardiovascular morphology and function, is increasingly being used to detect pathologic fibrosis, and has an expanding role in the assessment of myocardial viability. Magnetic Resonance Imaging of Congenital Heart Disease is an excellent foundation for any reader not familiar with the field whether they are imagers or clinicians who deal with cardiovascular disease. It also describes the technical details of MRI techniques to help the clinician understand the most important elements of CMR in assessing and managing their patients. In creating the book, the editors have assembled a world-renowned panel of contributors to review the use of CMR in CHD and make it accessible to those working in the field and to those who use the information derived from CMR in their clinical practice.




3D Printing at Hospitals and Medical Centers


Book Description

This new edition describes the fundamentals of three-dimensional (3D) printing as applied to medicine and extends the scope of the first edition of 3D Printing in Medicine to include modern 3D printing within Health Care Facilities, also called at the medical "Point-Of-Care" (POC). This edition addresses the practical considerations for, and scope of hospital 3D printing facilities, image segmentation and post-processing for Computer Aided Design (CAD) and 3D printing. The book provides details regarding technologies and materials for medical applications of 3D printing, as well as practical tips of value for physicians, engineers, and technologists. Individual, comprehensive chapters span all major organ systems that are 3D printed, including cardiovascular, musculoskeletal, craniomaxillofacial, spinal, neurological, thoracic, and abdominal. The fabrication of maxillofacial prosthetics, the planning of head and neck reconstructions, and 3D printed medical devices used in cranial reconstruction are also addressed. The second edition also includes guidelines and regulatory considerations, costs and reimbursement for medical 3D printing, quality assurance, and additional applications of CAD such as virtual reality. There is a new Forward written by Ron Kikinis, PhD and a new Afterword written by Michael W. Vannier, MD. This book offers radiologists, surgeons, and other physicians a rich source of information on the practicalities and expanding medical applications of 3D printing. It will also serve engineers, physicist, technologists, and hospital administrators who undertake 3D printing. The second edition is designed as a textbook and is expected to serve in this capacity to fill educational needs in both the medical and engineering sectors.