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With portable, hand-carried ultrasound devices being more frequently implemented in medicine today, Point-of-Care Ultrasound will be a welcome resource for any physician or health care practitioner looking to further their knowledge and skills in point-of-care ultrasound. This comprehensive, portable handbook offers an easy-access format that provides comprehensive, non-specialty-specific guidance on this ever-evolving technology. Consult this title on your favorite e-reader, conduct rapid searches, and adjust font sizes for optimal readability. Access all the facts with focused chapters covering a diverse range of topics, as well as case-based examples that include ultrasound scans. Understand the pearls and pitfalls of point-of-care ultrasound through contributions from experts at more than 30 institutions. View techniques more clearly than ever before. Illustrations and photos include transducer position, cross-sectional anatomy, ultrasound cross sections, and ultrasound images.
The product of 20 years of research, this book covers topics in soft tissue elasticity in vivo, from measurement techniques to clinical applications. It provides, for the first time, a single source that systematically introduces the various techniques for in vivo measurement of soft tissue elasticity in an effort to ease the difficulty between lea
Current, comprehensive, and evidence-based, Kaplan's Cardiac Anesthesia: Perioperative and Critical Care Management, 8th Edition, offers practical guidance from today's international leaders in cardiac anesthesiology, helping you to optimize perioperative outcomes, avoid complications, and ensure maximum patient safety. Dr. Joel A. Kaplan, along with an expert team of associate editors, guides you through today's clinical challenges, including expanded coverage of critical care, the newest approaches to perioperative assessment and management, state-of-the art diagnostic techniques, and cardiovascular and coronary physiology. - Covers the full spectrum of contemporary cardiothoracic anesthesia practice, including preoperative assessment, physiology, pharmacology, monitoring, transesophageal echocardiography, coagulation, specific cardiac procedures, extracorporeal circulation, postoperative pain treatment, and management of the complex patient with cardiac disease. - Includes expanded coverage of critical care topics, reflecting the increased perioperative care now provided by anesthesiologists in the ICU. - Contains new chapters on Structural Heart Disease Procedures; Cardiorespiratory Effects of COVID-19; Critical Care Ultrasound; Intensive Unit Management of Patients on Mechanical Circulatory Support; and Postoperative Care of the Heart and Lung Transplant Patient. - Features more than 900 full-color illustrations, decision trees, charts, and graphs (over one-third are new) that aid in visual understanding of complex topics. - Provides access to over 120 videos, including a range of echocardiography clips. - Contains balanced, dependable, and updated content on all aspects of the anesthetic management of cardiac surgical procedures, as well as cardiology procedures performed in catheterization and electrophysiologic laboratories. - Places new emphasis on cardiac devices requiring perioperative care, including cardiac implanted electrical devices and ventricular assist devices.
Cancer research is currently a vital field of study as it affects a wide range of the population either directly or indirectly. Breast and cervical cancer are two prevalent types that pose a threat to women’s health and wellness. Due to this, further research on the importance of medical informatics within this field is necessary to ensure patients receive the best possible attention and care. The Research Anthology on Medical Informatics in Breast and Cervical Cancer provides current research and information on how medical informatics are utilized within the field of breast and cervical cancer and considers the best practices and challenges of its implementation. Covering key topics such as women’s health, wellness, oncology, and patient care, this major reference work is ideal for medical professionals, nurses, oncologists, policymakers, researchers, academicians, scholars, practitioners, instructors, and students.
Comprehensive, yet concise, 3D Printing for the Radiologist presents an overview of three-dimensional printing at the point of care. Focusing on opportunities and challenges in radiology practice, this up-to-date reference covers computer-aided design principles, quality assurance, training, and guidance for integrating 3D printing across radiology subspecialties. Practicing and trainee radiologists, surgeons, researchers, and imaging specialists will find this an indispensable resource for furthering their understanding of the current state and future outlooks for 3D printing in clinical medicine. - Covers a wide range of topics, including basic principles of 3D printing, quality assurance, regulatory perspectives, and practical implementation in medical training and practice. - Addresses the challenges associated with 3D printing integration in clinical settings, such as reimbursement, regulatory issues, and training. - Features concise chapters from a team of multidisciplinary chapter authors, including practicing radiologists, researchers, and engineers. - Consolidates today's available information on this timely topic into a single, convenient, resource.
The 4th International Workshop on Medical Imaging and Augmented Reality, MIAR 2008, was held at the University of Tokyo, Tokyo, Japan during August 1–2, 2008. The goal of MIAR 2008 was to bring together researchersin medical imaging and intervention to present state-of-the-art developments in this ever-growing research area. Rapid technical advances in medical imaging, including its gr- ing application in drug/gene therapy and invasive/interventional procedures, have attracted signi?cant interest in the close integration of research in the life sciences, medicine, physical sciences, and engineering. Current research is also motivated by the fact that medical imaging is moving increasingly from a p- marily diagnostic modality towards a therapeutic and interventional aid, driven by the streamlining of diagnostic and therapeutic processes for human diseases by means of imaging modalities and robotic-assisted surgery. The impact of MIAR on these ?elds increases each year, and the quality of submitted papers this yearwas veryimpressive. We received90 full submissions, which were subsequently reviewed by up to ?ve reviewers. Reviewer a?liations were carefully checked against author a?liations to avoid con?icts of interest, and the review process was run as a double-blind process. A special procedure was also devised for papers from the universities of the organizers, upholding a double-blind review process for these papers. The MIAR 2008 Program C- mittee ?nally accepted 44 full papers. For this workshop, we also included three papers from the invited speakers coveringregistration and segmentation, virtual reality, and perceptual docking for robotic control.
M-health can be defined as the ‘emerging mobile communications and network technologies for healthcare systems.' This book paves the path toward understanding the future of m-health technologies and services and also introducing the impact of mobility on existing e-health and commercial telemedical systems. M-Health: Emerging Mobile Health Systems presents a new and forward-looking source of information that explores the present and future trends in the applications of current and emerging wireless communication and network technologies for different healthcare scenaria. It also provides a discovery path on the synergies between the 2.5G and 3G systems and other relevant computing and information technologies and how they prescribe the way for the next generation of m-health services. The book contains 47 chapters, arranged in five thematic sections: Introduction to Mobile M-health Systems, Smart Mobile Applications for Health Professionals, Signal, Image, and Video Compression for M-health Applications, Emergency Health Care Systems and Services, Echography Systems and Services, and Remote and Home Monitoring. This book is intended for all those working in the field of information technologies in biomedicine, as well as for people working in future applications of wireless communications and wireless telemedical systems. It provides different levels of material to researchers, computing engineers, and medical practitioners interested in emerging e-health systems. This book will be a useful reference for all the readers in this important and growing field of research, and will contribute to the roadmap of future m-health systems and improve the development of effective healthcare delivery systems.
Netter’s Cardiology, 2nd Edition, by Marschall S. Runge, Cam Patterson, and George Stouffer, uses visually rich Netter artwork to efficiently provide you with a concise overview of cardiovascular anatomy, pathophysiology, diagnosis, and management. You'll rapidly access complete introductions to common issues in cardiology, including annotated references of the most important articles, guidelines, and available evidence. Netter - it's how you know. Efficiently review key details of anatomy, pathophysiology, and clinical presentation with detailed, crystal-clear artwork by Frank H. Netter, MD and other illustrators working in the Netter tradition. Apply dependable clinical advice from Marschall S. Runge, MD, PhD, Cam Patterson, MD and George Stouffer, MD and utilize diagnostic and therapeutic algorithms and clinical pathways developed by the many world-renowned chapter contributors. Utilize annotated references to the most important resources and evidence-based studies. Benefit from expanded coverage of cardiovascular imaging including echocardiography, stress testing and nuclear imaging, and CT and MRI.
Recent advancements in imaging techniques and image analysis has broadened the horizons for their applications in various domains. Image analysis has become an influential technique in medical image analysis, optical character recognition, geology, remote sensing, and more. However, analysis of images under constrained and unconstrained environments require efficient representation of the data and complex models for accurate interpretation and classification of data. Deep learning methods, with their hierarchical/multilayered architecture, allow the systems to learn complex mathematical models to provide improved performance in the required task. The Handbook of Research on Deep Learning-Based Image Analysis Under Constrained and Unconstrained Environments provides a critical examination of the latest advancements, developments, methods, systems, futuristic approaches, and algorithms for image analysis and addresses its challenges. Highlighting concepts, methods, and tools including convolutional neural networks, edge enhancement, image segmentation, machine learning, and image processing, the book is an essential and comprehensive reference work for engineers, academicians, researchers, and students.