The 2005 bicentenary of Hans Christian Andersen's birth is an opportunity to re-evaluate the achievement of one of the great figures of the fairy tale and storytelling tradition, a beloved writer famous for The Snow Queen and The Little Mermaid, The Ugly Duckling and The Red Shoes and many other now classic tales. Jack Zipes broadens our understanding of Andersen by exploring the relation of the Danish writer's work to the development of literature and of the fairy tale in particular. Based on thirty-five years of researching and writing on Andersen, this new book is a welcome reconsideration of Andersen's place and of his reception in English-speaking countries and on film.

Providing a thorough overview of rapid developments in medical therapy, surgery, and angioplasty, this reference provides a complete review of carotid artery stenosis treatment, as well as a clear overview of carotid surgery and stenting. Offering chapters by seasoned authorities on epidemiology, imaging with ultrasound and angiography, cholesterol lowering, blood pressure management, homocysteine treatment, and diet modification, this guide is a stand-alone source for current information and understanding of this burgeoning science.

Recent advances in high-throughput technologies have resulted in a deluge of biological information. Yet the storage, analysis, and interpretation of such multifaceted data require effective and efficient computational tools.

This unique text/reference addresses the need for a unified framework describing how soft computing and machine learning techniques can be judiciously formulated and used in building efficient pattern recognition models. The book reviews both established and cutting-edge research, following a clear structure reflecting the major phases of a pattern recognition system: classification, feature selection, and clustering. The text provides a careful balance of theory, algorithms, and applications, with a particular emphasis given to applications in computational biology and bioinformatics.

Topics and features: reviews the development of scalable pattern recognition algorithms for computational biology and bioinformatics; integrates different soft computing and machine learning methodologies with pattern recognition tasks; discusses in detail the integration of different techniques for handling uncertainties in decision-making and efficiently mining large biological datasets; presents a particular emphasis on real-life applications, such as microarray expression datasets and magnetic resonance images; includes numerous examples and experimental results to support the theoretical concepts described; concludes each chapter with directions for future research and a comprehensive bibliography.

This important work will be of great use to graduate students and researchers in the fields of computer science, electrical and biomedical engineering. Researchers and practitioners involved in pattern recognition, machine learning, computational biology and bioinformatics, data mining, and soft computing will also find the book invaluable.

"Handbook of Capsule Endoscopy "is a concise guide to the clinical diagnostic use of capsule endoscopy, a non-invasive imaging technology of the gastrointestinal tract. This book is written by an international team with over 30 authors from 8 countries, mainly China, Britain, Israel, Italy, Germany, Korea, United Arab Emirates and the United States.

This book introduces nearly all aspects of capsule endoscopy, including the six devices currently in use, the set up procedures, indications and contraindications, its application in three organs, special use in pediatrics, safety issues and case presentations. This book is an ideal reference work for physicians and surgeons who wish to utilize this helpful imaging technology.

Prof. Zhaoshen Li and Associate Prof. Zhuan Liao are doctors in Changhai Hospital, the Second Military Medical University, Shanghai, China. Mark McAlindon is a consultant gastroenterologist and the directorate of gastroenterology in Royal Hallamshire Hospital, England, the United Kingdom.

Readable and concise - focusing on the common diseases that medical students most frequently encounter Fully revised and updated - including up to date information on the latest imaging techniques including spectral CT, liver elastography, new and emerging PET techniques, multiparametric imaging and the role of AI Heavily illustrated - over 450 high-quality photographs, many new to this edition including colour images, are essential to support this visual subject Highly structured and accessible format - plentiful use of tables and lists, and introduction of new summary boxes, all ideal for study and exam preparation Companion website - image library including normal anatomy, clinical cases and MCQs for self-assessment, RADS reporting systems and detailed staging systems for common tumours relevant to each section; visit www.routledge.com/cw/hacking Drawing on the extensive clinical and teaching experience of its respected author team, the fifth edition of Imaging for Students gives students and junior doctors everything they need to understand the advantages, disadvantages, and possible side effects of the imaging modalities available, and how to apply them appropriately in clinical practice.

A review of our current understanding of the physical phenomena associated with the flow of blood through the brain, applying these concepts to the physiological and medical aspects of cerebrovascular disease so as to be useful to both the scientist and the clinician. Specifically the book discusses the physical bases for the development of cerebrovascular disease and for its clinical consequences; specific current and possible future therapies; experimental, clinical, and computational techniques used to investigate cerebrovascular disease; blood dynamics and its role; imaging methods used in the diagnosis and management of cerebrovascular disease. Intended as a one- or two-semester course in biophysics, biomedical engineering or medical physics, this is also of interest to medical students and interns in neurology and cardiology, and provides a useful overview of current practice for researchers and clinicians.

This book embarks on a journey never taken before, approaching the imaging of the disease of achalasia with new pathophysiological assumptions in mind, coming from the Chicago Classification of Manometric diagnosis. Using state-of-the-art, modern x-ray technology, the authors have developed a schematic and simple approach to detection, diagnosis, and patient stadiation and prognostic stratification, for radiologists, clinicians, and students. Key Features: 1. Serves as a useful guide to structured and comprehensive reporting of barium swallows, both in achalasia and other oesophageal motility disorders. 2. Allows radiologists, both specialists, and trainees, to comprehensively understand achalasia from anatomic, pathophysiologic, therapeutic points of view, allowing for exact comprehension, detection, and reporting of the radiologic hallmarks of the disease. 3. Empowers readers to diagnose and define the exact achalasia subtype in each patient, due to the specifically developed FBF score.

Radiation Protection in Medical Imaging and Radiation Oncology focuses on the professional, operational, and regulatory aspects of radiation protection. Advances in radiation medicine have resulted in new modalities and procedures, some of which have significant potential to cause serious harm. Examples include radiologic procedures that require very long fluoroscopy times, radiolabeled monoclonal antibodies, and intravascular brachytherapy. This book summarizes evidence supporting changes in consensus recommendations, regulations, and health physics practices associated with these recent advances in radiology, nuclear medicine, and radiation oncology. It supports intelligent and practical methods for protection of personnel, the public, and patients. The book is based on current recommendations by the International Commission on Radiological Protection and is complemented by detailed practical sections and professional discussions by the world's leading medical and health physics professionals. It also includes substantial information on international aspects of radiation protection, with sections covering Africa, Asia and Oceania, the European Union, the Middle East, and North and Latin America.

Central nervous system (CNS) infections continue to pose a serious problem in health care even with improved knowledge and treatment. Despite the introduction of newer antimicrobial agents and diagnostic techniques, the morbidity and mortality associated with CNS infections remain high. The morbidity associated with CNS infections may be even more important than the death rate especially in developing countries as neurological sequelae may deprive the survivors of intellect and physical ability, demeaning the quality of life and burdening health resources and social services. MR imaging is an important integral part of the protocol for the management of CNS infections and MR spectroscopy is increasingly being utilized in its management. This work is an attempt to provide a comprehensive review of imaging and spectroscopy of the commonly encountered CNS infections in the clinical practice in developing and developed countries. The first chapter deals with basic physical principles of MR imaging and spectroscopy that will help beginners to understand the technical terms used in subsequent chapters. The remaining 10 chapters deal with clinical, pathological, MR imaging and spectroscopy features and their applications in CNS infections. This will help in giving a comprehensive understanding to readers with a background in clinical, radiological, basic MRI, and neurological sciences. The T2 hypointense lesions are a real diagnostic dilemma especially in developing countries for which an algorithm has been suggested in the concluding chapter.

Clinical Cardiac MRI is a comprehensive textbook intended for everyone involved in magnetic resonance imaging of the heart. It is designed both as a useful guide for newcomers to the field and as an aid for those who routinely perform such studies. The first edition, published in 2004-5, was very well received within the cardiac imaging community, and has generally been considered the reference because of its completeness, its clarity, and the number and quality of the illustrations. Moreover, the addition of online material showing 50 real-life cases significantly enhanced the value of the book. In this second edition, the four editors, all experts in the field, have taken great care to maintain a homogeneous high quality throughout the book while incorporating the newest insights and developments in this rapidly evolving domain of medical imaging. Essential theoretical background information is included, and imaging acquisition and potential pitfalls are examined in detail. Most importantly, structured guidelines are provided on the interpretation of clinical data in the wide range of cardiac pathology that can be encountered. Finally, the selection of 100 real-life cases, added as online material, will further enhance the value of this textbook.

Bone age assessment, a crucial part of the diagnosis and management of pediatric growth disorders as well as the timing of certain pediatric orthopedic procedures, has for decades depended on the meticulous examination of plain radiographs. Examining the subtle changes present within the maturing human hand often proves to be challenging and time-consuming.
Building on the popular Greulich and Pyle atlas, this book modernizes the method for pediatric skeletal maturity determination. It offers a wealth of images, carefully mined from thousands of digital radiographs from University of Virginia's Picture Archiving and Communication System (PACS), edited to best demonstrate important developmental bone features, and organized by age and sex for rapid reference. To expedite learning and clinical image analysis, images come in pairs: annotated and unannotated, for easy comparison. Succinct annotations on the images replace lengthy text to provide a quicker and clearer understanding of the skeletal age. These annotations highlight important and subtle features to help distinguish images that otherwise look superficially alike. The result is an atlas of exceptionally high quality skeletal radiographic standards that capture both the major and finer details of the accepted standards of Greulich and Pyle.
The user-friendly format of this book enables a faster, more accurate, and more educational approach to determining skeletal maturity. The Digital Bone Age Companion packaged with the book is a computer program that facilitates viewing of the atlas images in digital format. Users can easily zoom in on radiographic features, set image level and width to their preference, and compare two or three reference standards side-by-side for difficult cases. Most importantly, the program expedites evaluation, optimizes workflow, and minimizes user-introduced errors with the reliable bone age calculator and built-in report generator. The digital format may also be available for integration with your Radiology Information System (RIS) for further workflow enhancement.
Given the broad application of pediatric bone aging, Skeletal Development of the Hand and Wrist is not only intended for practicing and training radiologists, but for all of those who employ bone age studies as part of their practice.

This easy-to-understand pocketbook in the highly respected Clark's stable of diagnostic imaging texts is an invaluable tool for students, sonographers and other ultrasound practitioners, providing practical guidance on clinical ultrasound procedures, summarising current relevant literature and professional body guidelines. The content is arranged by anatomical system and organ for ease of reference, with each section comprising a short introduction, the indications for the procedure, patient preparation, the imaging procedure itself, along with an image analysis, supported throughout by positioning photographs and clinical images. Clark's Essential Guide to Clinical Ultrasound is ideal for all users of clinical ultrasound at both undergraduate and postgraduate level and will also provide a convenient distillation of the latest best practice and guidelines for sonographers, midwives, vascular technologists, ECG technologists, medical doctors, sports injury specialists, paramedics, and other health professionals.

Spinal Infections is explored in this important Neuroimaging Clinics issue. Articles include: Pathologic approach to spinal cord infections; Pediatric spinal infection and inflammation; Pediatric and adult spinal Tb: imaging and pathophysiology; Pyogenic spinal infections; Spinal brucellosis; Viral infection of the spinal cord and roots; Parasitic and rare spinal infections; Overview of complications and sequeala in spinal infections; Neurosurgical approach to spinal infections; Image guided interventions in spinal infections; Pathological basis of pyogenic, nonpyogenic, and other spondylitis and discitis, and more!

This book describes the technical problems and solutions for automatically recognizing and parsing a medical image into multiple objects, structures, or anatomies. It gives all the key methods, including state-of- the-art approaches based on machine learning, for recognizing or detecting, parsing or segmenting, a cohort of anatomical structures from a medical image. Written by top experts in Medical Imaging, this book is ideal for university researchers and industry practitioners in medical imaging who want a complete reference on key methods, algorithms and applications in medical image recognition, segmentation and parsing of multiple objects. Learn: Research challenges and problems in medical image recognition, segmentation and parsing of multiple objects Methods and theories for medical image recognition, segmentation and parsing of multiple objects Efficient and effective machine learning solutions based on big datasets Selected applications of medical image parsing using proven algorithms

Infra-red thermal imaging is a rapid and non-invasive procedure for mapping skin temperature distribution of the human body. The natural infra-red emission from the skin is captured by the imaging camera, and is displayed as a digital image. Advanced software and high resolution infra-red detectors has allowed for a renaissance in the use of infra-red thermal imaging or thermography in medical research and practice. Thermal imaging provides a two dimensional map of skin temperature, which can often indicate a localisation of hypo or hyperthermia and its major clinical value is in its high sensitivity to pathology in the vascular, muscular, neural and skeletal systems and as such can contribute to the pathogenesis and diagnosis. After a brief review of theory and technology of infra-red imaging the bulk of the book consists of a collection of clinical case studies demonstrating the wide variety of applications for thermography in modern medicine. The combined expertise from a number of centres is used to create a database of images that will be invaluable for practitioners in making diagnoses and measuring treatment efficacy.

Based upon the research they have conducted over the past decade in the field of denoising processes for medical ultrasonic imaging, in this book, the authors systematically present despeckling methods for medical ultrasonic images. Firstly, the respective methods are reviewed and divided into five categories. Secondly, after introducing some basic mathematical tools such as wavelet and shearlet transforms, the authors highlight five recently developed despeckling methods for medical ultrasonic images. In turn, simulations and experiments for clinical ultrasonic images are presented for each method, and comparison studies with other well-known existing methods are conducted, showing the effectiveness and superiority of the new methods. Students and researchers in the field of signal and image processing, as well as medical professionals whose work involves ultrasonic diagnosis, will greatly benefit from this book. Familiarizing them with the state of the art in despeckling methods for medical ultrasonic images, it offers a useful reference guide for their study and research work.

." . . this volume has much to offer readers interested in science and technology and constructs of the body, expecially the 'normal' body."--"Disabilities Studies Quarterly"

Hand in hand with such health crises as HIV/AIDS, breast cancer, and the resurgence of tuberculosis has come an explosion of scientific and medical technologies. As technology documents illness with ever greater precision and clarity, the knowledge and vocabulary of patients is being similarly expanded by activists, consumer advocates, and artists working with new electronic technologies.

Into this breach steps The Visible Woman, collecting professional, academic, and lay viewpoints on gender and the role of visual and textual representation in contemporary health and science. From fetal photography and mammography to mental retardation and chronic fatigue syndrome, The Visible Woman reveals how identities are constructed in medical research and public health initiatives, as well as in popular press accounts of health. New ways of seeing the body, through medical imaging, plastic and sexual surgery, and services for people with disabilities, are all informed, the book argues, by a broader cultural fascination with visuality and media.

Emphasizing the authors' first-hand experiences as medical practitioners, activists, scholars, and patients, The Visible Woman breaks with more established approaches that cast patients as passive objects of medical inquiry, and medical professionals as perpetrators of institutional exploitation in the name of the public good. Asking what it means to be on both ends of the microscope, The Visible Woman highlights the complex perspectives of medical and scientificpractitioners who themselves exist both inside and outside their workplaces and professional identities.

The contributors are Michael BA(c)rubA(c), Lisa Cartwright, Stacie A. Colwell, Richard Cone, Anne Eckman, Valerie Hartouni, Janet Lyon, Emily Martin, Gaye Naismith, Mark Rose, Ella Shohat, Vivian Sobchack, Carol Stabile, Sandy Stone, and Paula A. Treichler.

Advances in Cardiac Imaging presents the latest information on heart disease and heart failure, major causes of death among western populations. In addition, the text explores the financial burden to public healthcare trusts and the vast amount of research and funding being channeled into programs not only to prevent such diseases, but also to diagnose them in early stages. This book provides readers with a thorough overview of many advances in cardiac imaging. Chapters include technological developments in cardiac imaging and imaging applications in a clinical setting with regard to detecting various types of heart disease.

Key features: * Provides a clear explanation for many of the pain generators in low back pain and illuminate this perplexing and ubiquitous problem. * Addresses a gap in the existing literature, as "non-specific" or mechanical lumbosacral spine pain accounts for by far most chronic spinal pain sufferers' complaints for clinicians dealing with spinal pain syndromes like general medical practitioners, and spinal specialists in various fields such as sports medicine. * Illustrates anatomical structures that can be injured and thus become responsible for causing mechanical lumbosacral spine pain, frequently, such injuries cannot be detected on sophisticated imaging such as MRI.

Imaging of tissue blood flow (BF) distributions provides vital information for the diagnosis and therapeutic monitoring of various vascular diseases. The innovative near-infrared speckle contrast diffuse correlation tomography (scDCT) technique produces full 3D BF distributions. Many advanced features are provided over competing technologies including high sampling density, fast data acquisition, noninvasiveness, noncontact, affordability, portability, and translatability across varied subject sizes. The basic principle, instrumentation, and data analysis algorithms are presented in detail. The extensive applications are summarized such as imaging of cerebral BF (CBF) in mice, rat, and piglet animals with skull penetration into deep brain. Clinical human testing results are described by recovery of BF distributions on preterm infants (CBF) through incubator wall, and on sensitive burn tissues and mastectomy skin flaps without direct device-tissue interactions. Supporting activities outlined include integrated capability for acquiring surface curvature information, rapid 2D blood flow mapping, and optimizations via tissue-like phantoms and computer simulations. These applications and activities both highlight and guide the reader as to the expected abilities and limitations of scDCT for adapting into their own preclinical/clinical research, use in constrained environments (i.e., neonatal intensive care unit bedside), and use on vulnerable subjects and measurement sites.

In the last few years, increasing effort has been devoted to better define the characteristics of tissue damage occurring outside MRI-visible lesions in patients with multiple sclerosis (MS) and, as a consequence, to improve our understanding of the disease pathobiology and of the mechanisms leading to the accumulation of irreversible disability. This book provides an updated review of the results obtained by leading research groups in this field. The potential clinical applications of what has been shown so far, as well as the areas for future research in the study of normal-appearing white and gray matter damage in MS are extensively discussed, making this book a valuable tool for clinical neurologists who are involved in the daily-life care of MS patients and for neuroscientists involved in MS research.

This issue of Dental Clinics updates topics in CBCT and Dental Imaging. Articles will cover: basic principles of CBCT; artifacts interfering with interpretation of CBCT; basic anatomy in the three anatomic planes of section; endodontic applications of CBCT; pre-surgical implant site assessment; software tools for surgical guide construction; CBCT for the nasal cavity and paranasal sinuses; CBCT and OSA and sleep disordered breathing; update on CBCT and orthodontic analyses; liabilities and risks of using CBCT; reporting findings in a CBCT volume, and more!

The comparison of MR images and cadaver microangiograms of the basal perforating arteries is crucial for understanding the courses and supply areas of these vessels and in turn, for diagnosing pathologies in this region. Divided into three sections- normal anatomy of brain vessels; neurovascular imaging in pathology; and anatomy and imaging of spinal vessels- Neurovascular Imaging contains a rich collection of images to teach the reader how to interpret MR images of the brain vessels and spinal vessels, and how to identify pathological signs. Written and edited by a group of highly acclaimed experts in the field, Neurovascular Imaging is an authoritative account of the interpretation of MR images of the brain vessels and spinal vessels, and is a valuable addition to the library of the diagnostic radiologist.