This book is written as a system-based clinical-radiological review providing images from the latest available imaging modalities and covers all major diseases that are encountered in everyday clinical practice. A problem-orientated approach is used. Every chapter contains a collection of clinical cases, each with a short clinical description and initial imaging followed by pertinent questions regarding the imaging findings (colour coded in red outline). The second part of each chapter contains the case diagnosis, a discussion of the role of imaging in the presenting problem, a recommended sequence for further imaging evaluation, and illustrative examples of the same disease using different imaging modalities for further investigation. Images of conditions in the differential diagnosis are also provided (colour coded in blue outline). This textbook is written by experienced radiologists working in undergraduate and postgraduate medical education. It will serve as an ideal text for medical students and radiology trainees.
Master the critical physics content you need to know with this new title in the popular Case Review series. Imaging Physics Case Review offers a highly illustrated, case-based preparation for board review to help residents and recertifying radiologists succeed on exams and demonstrate a clinical understanding of physics, patient safety, and improvement of imaging accuracy and interpretation. - Presents 150 high-yield case studies organized by level of difficulty, with multiple-choice questions, answers, and rationales that mimic the format of certification exams. - Uses short, easily digestible chapters and high-quality illustrations for efficient, effective learning and exam preparation. - Discusses current advances in all modalities, ensuring that your study is up-to-date and clinically useful. - Covers today's key physics topics including radiation safety and methods to prevent patient harm; how to reduce artifacts; basics of radiation doses including dose reduction strategies; cardiac CT physics; advanced ultrasound techniques; and how to optimize image quality using physics principles. - 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
Residents, fellows and practicing radiologists who are preparing for certification exams (the current ABR Part II oral, the future ABR Core and Certifying, CAQ and MOC) will find the new edition of this case-based review book an indispensable tool for success. Duke Radiology Case Review has long been considered one of the standards in board review, and is a well-known adjunct to the popular and well-attended board review course given by the prestigious Department of Radiology at Duke University. Close to 300 case presentations are structured to align with the way residents are taught to work through patient cases. Divided by body region and including chapters on interventional radiology and nuclear medicine, each case offers a clinical history, relevant images, and bulleted points describing the differential diagnosis. This is followed by the actual diagnosis and key clinical and radiologic facts about the diagnosis and suggested readings. This edition includes a new chapter on cardiac imaging.
Part of the popular Case Review series, SPINE IMAGING: CASE REVIEW focuses on imaging of the spine, complete with full discussion and images. Designed as a study guide for radiology and neuroradiology residents preparing for board exams and clinical practice, it presents 175 unknown cases in which clinical images (MR, CT, plain radiographs, angiograms, myelograms) of spinal pathology, as well as anatomic variants, are discussed. It contains more than 350 images with questions, answers, commentary, references, and cross references to NEURORADIOLOGY: THE REQUISITES by Grossman. * Features at-a-glance review of spine imaging cases that can prepare the candidate studying for exams in Neuroradiology or for the general radiologist looking for the ideal tool to help sharpen diagnostic abilities in this subspecialty. * Mimics official exam formats and allows reader self-testing, subsequent learning, preparation and confidence-building to succeed in exam settings and in the daily practice environment. * Organizes cases randomly and divides them into three overall categories, so the reader has the opportunity to test him/herself at different degrees of difficulty. * Complements and references the Neuroradiology: THE REQUISITES volume to provide the most comprehensive review for the exams. THE REQUISITES covers the essentials of the subspecialty and the CASE REVIEW allows you to test yourself on those essentials. * Includes approximately 400 state-of-the-art images which complement the text and provide a clear picture of what exam takers can expect. * Affordable, manageable, practical 8 1/2 x 11 size with space for note-taking in the text. * Features a consistent format with the same features: case presented as unknown with four questions, followed by answers to questions, detailed commentary, latest references in the literature, and cross-reference to THE REQUISITES volume.
Deep Learning Models for Medical Imaging explains the concepts of Deep Learning (DL) and its importance in medical imaging and/or healthcare using two different case studies: a) cytology image analysis and b) coronavirus (COVID-19) prediction, screening, and decision-making, using publicly available datasets in their respective experiments. Of many DL models, custom Convolutional Neural Network (CNN), ResNet, InceptionNet and DenseNet are used. The results follow 'with' and 'without' transfer learning (including different optimization solutions), in addition to the use of data augmentation and ensemble networks. DL models for medical imaging are suitable for a wide range of readers starting from early career research scholars, professors/scientists to industrialists. - Provides a step-by-step approach to develop deep learning models - Presents case studies showing end-to-end implementation (source codes: available upon request)
The prompt diagnosis of systemic vasculitis is essential as a missed diagnosis can be disastrous. Imaging is of vital importance in achieving a correct diagnosis and in some cases also plays a role in endovascular treatment. In this book, the imaging features of the many different types of vasculitis are clearly demonstrated by means of numerous high-quality illustrations. All relevant imaging modalities are considered, and key distinctive characteristics are highlighted. In addition, each chapter discusses the etiology, epidemiology, pathogenesis, clinical presentation, biology, and treatment of the vasculitis in question. This book is the result of cooperation between expert teams from a range of countries. The wealth of illustrations and informative clinical case studies will prove invaluable for all who may be confronted with these problematic disorders.
Effectively and confidently interpret even the most challenging radiographic study A Doody's Core Title! "...should be a part of every emergency medicine resident's personal library. In addition to residents, I would highly recommend this book to medical students, midlevel providers and any other physician who is interested in improving their ability to interpret radiographic studies necessary to diagnose common emergency medicine patient complaints."--Annals of Emergency Medicine 4 STAR DOODY'S REVIEW! "The purpose is to help improve the reader's skills in ordering and interpreting radiographs. The focus is on conventional radiographs, as well as noncontrast head CT. For emergency physicians this is a vital skill, which can greatly aid in making difficult diagnoses. The book is well written and thorough in addressing how to read radiographs, as well as covering easy to miss findings. The numerous pictures and radiographs are invaluable in demonstrating the author's teaching points and in engaging the reader in the clinical cases....This well written book will be extremely useful for practicing emergency physicians. The clinical cases are interesting and help challenge the reader to improve their skills at evaluating radiographs more thoroughly."--Doody's Review Service Emergency Radiology: Case Studies is a one-of-a-kind text specifically designed to help you fine-tune your emergency radiographic interpretation and problem-solving skills. Illustrated with hundreds of high-resolution images, this reference covers the full range of clinical problems in which radiographic studies play a key role.Dr. David Schwartz, a leading educator, takes you step-by-step through the radiographic analysis of medical, surgical, and traumatic disorders, giving you an unparalleled review of the use and interpretation of radiographic studies in emergency diagnosis. Features 55 cases studies that highlight challenging areas in emergency diagnosis, including imaging studies with subtle, equivocal, or potentially misleading findings Detailed coverage of the broad spectrum of disorders for which radiographs are utilized in emergency practice Coverage of chest and abdominal radiology, the extremities, cervical spine and facial radiology, and head CT Cohesive template for each chapter, beginning with a case presentation, followed by a comprehensive discussion of the disorder under consideration Sections begin with an overview of the pertinent radiographic technique, anatomy, and method of radiographic interpretation Diagnosis-accelerating radiographs, ultrasound images, CT scans, and MR images Invaluable “pearls and pitfalls” of radiographic interpretation
This book provides a thorough overview of the ongoing evolution in the application of artificial intelligence (AI) within healthcare and radiology, enabling readers to gain a deeper insight into the technological background of AI and the impacts of new and emerging technologies on medical imaging. After an introduction on game changers in radiology, such as deep learning technology, the technological evolution of AI in computing science and medical image computing is described, with explanation of basic principles and the types and subtypes of AI. Subsequent sections address the use of imaging biomarkers, the development and validation of AI applications, and various aspects and issues relating to the growing role of big data in radiology. Diverse real-life clinical applications of AI are then outlined for different body parts, demonstrating their ability to add value to daily radiology practices. The concluding section focuses on the impact of AI on radiology and the implications for radiologists, for example with respect to training. Written by radiologists and IT professionals, the book will be of high value for radiologists, medical/clinical physicists, IT specialists, and imaging informatics professionals.
In the last few years the use of medical imaging has increased exponentially in routine clinical practice. This has been reflected in a rapidly increasing use of medical imaging in clinical trials, through all phases. More recently this has culminated in a number of inter-disciplinary meetings with the various stake holders, including the FDA. Changes in the regulatory process has resulted, when it comes to the submission of data to the FDA, in a therapeutic agent where one or more of the trial end-points is the assessment of a radiological end-point. No longer is it sufficient to have the images read by the local investigator site. The FDA has also identified Medical Imaging as one of the key 6 points in the Critical Path initiative which was launched in 2004. This puts a keen focus on the role of imaging and the need to clearly identify and understand this aspect of clinical trials. As the pharmaceutical, biotech and medical device industry continues to identify ways to improve and speed up product development, medical imaging plays a more significant role. An understanding of the methodology and the metrics is therefore required but difficult to ascertain in one easy to read volume for individuals entering this field. This book will therefore fulfill this void, be it for the pharmaceutical personnel from medical director to monitor, or the Principal Investigator who is having to understand the complexities of the imaging and why it is having to be sent off-site for a 'central read.'
This volume presents a selection of clinical cases with the emphasis on tumors of bone and soft tissues. Case for case, the reader is supplied with information and invited to suggest a diagnosis. In each case the patient's history is briefly reviewed and characteristic images are reproduced. Special importance is attached to lucid analysis, basic considerations and systematic image interpretation. Each case is histologically verified, and the definitive diagnosis is betrayed on the last page. Case presentations closes with a concise summary of the important clinical data relating to the entity concerned. This authoritative yet eminently readable book is a practical guide to the analysis of the kind of complex orthopedic cases with which orthopedists and radiologists should become familiar.
