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Magnetic Resonance Spectroscopy: Tools for Neuroscience Research and Emerging Clinical Applications is the first comprehensive book for non-physicists that addresses the emerging and exciting technique of magnetic resonance spectroscopy. Divided into three sections, this book provides coverage of the key areas of concern for researchers. The first, on how MRS is acquired, provides a comprehensive overview of the techniques, analysis, and pitfalls encountered in MRS; the second, on what can be seen by MRS, provides essential background physiology and biochemistry on the major metabolites studied; the final sections, on why MRS is used, constitutes a detailed guide to the major clinical and scientific uses of MRS, the current state of teh art, and recent innovations. Magnetic Resonance Spectroscopy will become the essential guide for people new to the technique and give those more familiar with MRS a new perspective. - Chapters written by world-leading experts in the field - Fully illustrated - Covers both proton and non-proton MRS - Includes the background to novel MRS imaging approaches
Covers all MR spectroscopy techniques and their clinical applications in neurological disorders, malignancies and musculoskeletal diseases.
Clinical Applications of MR Spectroscopy Edited by Suresh K. Mukherji, M.D. Magnetic resonance spectroscopy (MRS) is a powerful diagnostic tool for a variety of brain disorders—from epilepsy and tumors to age-related degeneration and strokes. Unlike magnetic resonance imaging (MRI), which gives us a picture of anatomical and physiological conditions, MRS generates a frequency domain spectrum that provides information about biochemical and metabolic processes occurring within tissues. Clinical Applications of MR Spectroscopy presents a short, practical treatment of MRS today. Comprising contributions by leading authorities in the field, the book discusses MRS techniques used for diagnostic purposes and research, terminologies and examples drawn from clinical experience, and ways to correlate MRS results with other modalities to enhance our understanding of disease processes and the outcomes of particular treatments. Topics include: Basic principles of clinical proton magnetic resonance spectroscopy MRS in the evaluation of epilepsy Proton MRS of brain tumors Proton MRS in selected childhood disorders MRS and spectroscopic imaging for cerebrovascular disease MRS of degenerative brain disease in the elderly MRS of the head and neck Potential clinical applications of new techniques in MRS Correlation of functional brain imaging with MRS Clinical Applications of MR Spectroscopy provides 150 photographs and figures to illustrate the interpretation of MRS signals, as well as fully referenced chapters for those wishing to expand their knowledge of the underlying science. It is an essential guide to the state of the art for radiologists and neurologists using this technology to improve patient care.
Magnetic resonance spectroscopy (MRS) has been an important analytical tool in organic chemistry, biology, and materials science for more than a half-century. Now, recent advances in the clinical application of MRS are allowing radiologists to more effectively diagnose lymphoma, head and neck cancers, and brain tumors, as well as to understand metabolic brain anomalies such as stroke and dementia. Clinical MR Spectroscopy: First Principles acquaints readers with the basic physics and chemistry of MRS while providing clear, practical guidelines for its clinical use. While most readers are likely to have had experience with MRI, this is not a prerequisite for understanding either the basic science or applied sections of the book. Individual chapters address such topics as: * The basic concepts of MRS * Hardware and software requirements * Techniques for localized spectroscopy * Spectroscopy data processing * The application of MRS in examining the brain, heart, muscles, and liver. Clinical MR Spectroscopy: First Principles features numerous line drawings to clarify the basic science of MRS and images to illustrate its clinical utility. This concise and timely book provides an accessible but comprehensive resource for radiologists, MRI technologists, and radiology residents.
Neuroimaging, Part One, a text from The Handbook of Clinical Neurology illustrates how neuroimaging is rapidly expanding its reach and applications in clinical neurology. It is an ideal resource for anyone interested in the study of the nervous system, and is useful to both beginners in various related fields and to specialists who want to update or refresh their knowledge base on neuroimaging. This first volume specifically covers a description of imaging techniques used in the adult brain, aiming to bring a comprehensive view of the field of neuroimaging to a varying audience. It brings broad coverage of the topic using many color images to illustrate key points. Contributions from leading global experts are collated, providing the broadest view of neuroimaging as it currently stands. For a number of neurological disorders, imaging is not only critical for diagnosis, but also for monitoring the effect of therapies, and the entire field is moving from curing diseases to preventing them. Most of the information contained in this volume reflects the newness of this approach, pointing to this new horizon in the study of neurological disorders. - Provides a relevant description of the technologies used in neuroimaging, including computed tomography (CT), magnetic resonance imaging (MRI), positron emission tomography (PET), and several others - Ideal resource for anyone studying the nervous system, from beginners to specialists interested in recent advances in neuroimaging of the adult brain - Discusses the application of imaging techniques to the study of brain and spinal cord disease and its use in various syndromes - Contains vibrant, colorful images to illustrate key points
In summarizing current insights and controversies over concussions in athletics, this book makes the vital point that symptom resolution does not necessarily mean injury resolution. Research shows that dysfunctional pathways continue for extended periods even after a minor concussion. Until the consequences of short-term perturbations and long-term residual brain dysfunctions are better understood, concussions must be treated with respect and given a higher priority for continued research activity.
MRI is a continually evolving and expanding subject making an ever-increasing impact on medical practice. There are many comprehensive large MRI textbooks on the market but there is a distinct lack of short pocket-sized reference books to suit the growing number of people from various disciplines working in the medical imaging field today. This book provides an easily accessible source of reference material to supplement existing large texts.
With an incredible 2400 illustrations, and written by a multitude of international experts, this book provides a comprehensive overview of both the physics and the clinical applications of MRI, including practical guidelines for imaging. The authors define the importance of MRI in the diagnosis of several disease groups in comparison or combination with other methods. Chapters dealing with basic principles of MRI, MR spectroscopy (MRS), interventional MRI and functional MRI (fMRI) illustrate the broad range of applications for MRI. Both standard and cutting-edge applications of MRI are included. Material on molecular imaging and nanotechnology give glimpses into the future of the field.
Magnetic resonance spectroscopy (MRS) is a modality available on most clinical MR scanners and readily integrated with standard MR imaging (MRI). For the brain in particular, MRS has been a powerful research tool providing additional clinically relevant information for several disease families such as brain tumors, metabolic disorders, and systemic diseases. The most widely-available MRS method, proton (1H; hydrogen) spectroscopy, is FDA approved for general use in the US and can be ordered by clinicians for patient studies if indicated. There are several books available that describe applications of MRS in adults. However, to the best of our knowledge there is currently no book available that focuses exclusively on applications in pediatrics. MR spectroscopy in the pediatric population is different from adults for two main reasons. Particularly in the newborn phase the brain undergoes biochemical maturation with dramatic changes of the "normal" biochemical fingerprint. Secondly, brain diseases in the pediatric population are different from adult disorders. For example, brain tumors, which are mostly gliomas in the adults, often originate from different cell types and are also more diverse even within the same type and grade of tumor. This diversity of diseases and its implications for MR spectroscopy has not been addressed sufficiently in the literature, we believe. The target audience for "MR Spectroscopy of Pediatric Brain Disorders" are thus both clinicians and researchers involved with pediatric brain disorders. This includes radiologists, neurologists, neurooncologists, neurosurgeons, and more broadly the neuroscience and neurobiology community. This book will provide the necessary background information to understand the basics of MR spectroscopy. This will be followed by a detailed discussion of the normal biochemical maturation which will highlight the metabolic differences between the pediatric and adult brain. Thereafter, in SECTION I individual chapters will address various pediatric brain disease families. Of particular importance for pediatrics are case studies. For that reason, SECTION II will contain a large number of case studies. This will be particularly important for clinicians who may want to see examples of MRS for various conditions. A standardized format will be used for case reports that allow the reader to quickly understand the history of each case presented and the significance of the findings. The case reports will also include information from other imaging modalities to point out any added value of MRS in addition to conventional studies and clinical information. This section is necessary because the format of providing more complete information about individual patients is not practical for the chapters in SECTION I.
Established as the leading textbook on imaging diagnosis of brain and spine disorders, Magnetic Resonance Imaging of the Brain and Spine is now in its Fourth Edition. This thoroughly updated two-volume reference delivers cutting-edge information on nearly every aspect of clinical neuroradiology. Expert neuroradiologists, innovative renowned MRI physicists, and experienced leading clinical neurospecialists from all over the world show how to generate state-of-the-art images and define diagnoses from crucial clinical/pathologic MR imaging correlations for neurologic, neurosurgical, and psychiatric diseases spanning fetal CNS anomalies to disorders of the aging brain. Highlights of this edition include over 6,800 images of remarkable quality, more color images, and new information using advanced techniques, including perfusion and diffusion MRI and functional MRI. A companion Website will offer the fully searchable text and an image bank.