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University of Southern California, Los Angeles. Handbook on the bioeffects of MR and its safety issues, for radiologists. Discusses potential risks to patients and professionals. Offers guidelines for daily practice. Softcover. DNLM: Magnetic Resonance Imaging - adverse effects.
The Reference Manual for Magnetic Resonance Safety, Implants, and Devices: 2013 Edition is an indispensable textbook for radiologists, MRI technologists, facility managers, and other healthcare professionals. This internationally acclaimed, annually revised, and fully updated textbook series is a comprehensive information resource that includes guidelines and recommendations for MRI safety and patient management. The content is based on the latest peer-reviewed publications, labeling information from medical device companies, findings from recent investigations, as well as documents developed by professional and governmental organizations. Importantly, this textbook is a vital source of information for implants and devices evaluated for MRI-related issues. "The List" contains tabulated data for thousands of objects, including products tested at 3-Tesla. Coverage spans the full range of implants and devices encountered in patients referred for MRI procedures.
MRI Bioeffects, Safety, and Patient Management is a comprehensive, authoritative textbook on the health and safety concerns of MRI technology that contains contributions from more than forty internationally respected experts in the field. This textbook includes both theoretical and practical information and serves as the definitive resource for radiologists and other physicians, MRI technologists, physicists, scientists, MRI facility managers, and others. The text begins with a discussion of basic MRI physics and then proceeds to a description of the bioeffects of static, gradient, and radiofrequency electromagnetic fields as well as the risks associated with acoustic noise. It then discusses the use of MRI during pregnancy, the design of an MRI facility to support safety, the procedures to screen patients and other individuals, and the management of patients with claustrophobia, anxiety, or emotional distress. Other chapters cover the safety of MRI contrast agents, the use of ferromagnetic detection systems, techniques for physiological monitoring, the unique safety needs of interventional MRI centers, and the administration of sedation and anesthesia during MRI. Detailed descriptions covering the proper management of patients with metallic implants and complex electronically activated devices, such as cardiac pacemakers and neuromodulation systems, are included. MRI safety policies and procedures are presented for hospitals/medical centers, outpatient facilities, children's hospitals, and research facilities. Finally, MRI standards and guidelines are provided for the United States, Europe, Canada, and Australia.
Magnetic Resonance Procedures: Health Effects and Safety is the first authoritative text on MR procedures and its associated health and safety concerns written by noted radiologists, physicists, and scientists with expertise in the field. It contains both theoretical and practical information. This timely text discusses emergent issues rela
Essentials of MRI Safety is a comprehensive guide that enables practitioners to recognise and assess safety risks and follow appropriate and effective safety procedures in clinical practice. The text covers all the vital aspects of clinical MRI safety, including the bio-effects of MRI, magnet safety, occupational exposure, scanning passive and active implants, MRI suite design, institutional governance, and more. Complex equations and models are stripped back to present the foundations of theory and physics necessary to understand each topic, from the basic laws of magnetism to fringe field spatial gradient maps of common MRI scanners. Written by an internationally recognised MRI author, educator, and MRI safety expert, this important textbook: Reflects the most current research, guidelines, and MRI safety information Explains procedures for scanning pregnant women, managing MRI noise exposure, and handling emergency situations Prepares candidates for the American Board of MR Safety exam and other professional certifications Aligns with MRI safety roles such as MR Medical Director (MRMD), MR Safety Officer (MRSO) and MR Safety Expert (MRSE) Contains numerous illustrations, figures, self-assessment tests, key references, and extensive appendices Essentials of MRI Safety is an indispensable text for all radiographers and radiologists, as well as physicists, engineers, and researchers with an interest in MRI.
In vivo magnetic resonance imaging (MRI) has evolved into a versatile and critical, if not ‘gold standard’, imaging tool with applications ranging from the physical sciences to the clinical ‘-ology’. In addition, there is a vast amount of accumulated but unpublished inside knowledge on what is needed to perform a safe, in vivo MRI. The goal of this comprehensive text, written by an outstanding group of world experts, is to present information about the effect of the MRI environment on the human body, and tools and methods to quantify such effects. By presenting such information all in one place, the expectation is that this book will help everyone interested in the Safety and Biological Effects in MRI find relevant information relatively quickly and know where we stand as a community. The information is expected to improve patient safety in the MR scanners of today, and facilitate developing faster, more powerful, yet safer MR scanners of tomorrow. This book is arranged in three sections. The first, named ‘Static and Gradient Fields’ (Chapters 1-9), presents the effects of static magnetic field and the gradients of magnetic field, in time and space, on the human body. The second section, named ‘Radiofrequency Fields’ (Chapters 10-30), presents ways to quantify radiofrequency (RF) field induced heating in patients undergoing MRI. The effect of the three fields of MRI environment (i.e. Static Magnetic Field, Time-varying Gradient Magnetic Field, and RF Field) on medical devices, that may be carried into the environment with patients, is also included. Finally, the third section, named ‘Engineering’ (chapters 31-35), presents the basic background engineering information regarding the equipment (i.e. superconducting magnets, gradient coils, and RF coils) that produce the Static Magnetic Field, Time-varying Gradient Magnetic Field, and RF Field. The book is intended for undergraduate and post-graduate students, engineers, physicists, biologists, clinicians, MR technologists, other healthcare professionals, and everyone else who might be interested in looking into the role of MRI environment on patient safety, as well as those just wishing to update their knowledge of the state of MRI safety. Those, who are learning about MRI or training in magnetic resonance in medicine, will find the book a useful compendium of the current state of the art of the field.
Presents the basics of MR practice and theory as the practitioner first meets them.
** New revised second edition now available, with errors corrected and content fully updated ** The second edition of the classic text has been revised and extended to meet the needs of today’s practising and training MRI technologists who intend to sit for the American Registry of Magnetic Resonance Imaging Technologists (ARMRIT) examination. It provides Q&As on topics listed in the content specifications offered by the American Registry for Radiologic Technologists (AART) and offers the user with a comprehensive review of the principles and applications of MRI to prepare them for the examination.
MRI Bioeffects, Safety, and Patient Management is a comprehensive, authoritative textbook on the health and safety aspects of MRI technology that contains contributions from more than 50 internationally respected experts in the field. This textbook includes both theoretical and practical information, serving as a definitive and indispensable information resource for radiologists, MRI technologists and radiographers, MRI physicists, scientists, biomedical engineers, MRI facility managers, and others. The text begins with three separate chapters on the important topic of MRI physics and then proceeds with descriptions of the bioeffects of static, time-varying gradient, and radiofrequency electromagnetic fields, as well as the risks associated with acoustic noise. The content then discusses the use of MRI during pregnancy, the procedures used to screen patients and other individuals prior to performing MRI exams, and the management of patients with claustrophobia, anxiety, or emotional distress. Other chapters provide vital and essential information for MRI contrast agents, the use of ferromagnetic detection systems, the performance of physiological monitoring in the MRI setting, and the unique safety requirements for interventional MRI facilities.Detailed descriptions are provided on the test methodology utilized to evaluate and characterize MRI-related issues for implants and devices. Additionally, the latest recommendations on the proper management of patients with implants and complex electronically-activated devices, such as cardiac pacemakers and neuromodulation systems, are included. MRI safety policies and procedures are provided for hospitals and medical centers, outpatient facilities, children's hospitals, and research facilities. Importantly, up-to-date MRI standards and guidelines are presented for the United States, Europe, Canada, and Australia.
Dette er en grundlæggende lærebog om konventionel MRI samt billedteknik. Den begynder med et overblik over elektricitet og magnetisme, herefter gives en dybtgående forklaring på hvordan MRI fungerer og her diskuteres de seneste metoder i radiografisk billedtagning, patientsikkerhed m.v.