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This book, written by authors with national and international reputations in the field, covers all aspects of radionuclide and hybrid bone imaging. Introductory sections present the basic science and consider the current status and limitations of conventional radiological techniques. The underlying principles of PET-CT and SPECT-CT are carefully explained, and the value of different PET and SPECT tracers, assessed. The role of single- and dual-modality approaches in the imaging of benign bone diseases and malignancies is then discussed in detail in a series of well-illustrated chapters. The pathologies addressed include metabolic bone disease, arthritis, bone and joint infections, primary bone and soft tissue tumors, and metastases from breast and prostate cancer. A further section considers the role of bone scintigraphy in the pediatric patient, and the closing chapters focus on miscellaneous subjects, including bone densitometry and radionuclide targeted therapy.
The British Nuclear Medicine Society celebrates its 50th Anniversary with this booklet, which reflects the research of many of the pioneers in the use of radionuclides for the diagnosis and therapy of human disease. Since 1949 there have been remarkable advances in radionuclide techniques and imaging equipment: from the first devices “home-made” in the many physics departments throughout the UK, to the sophisticated multimodality imagers now in everyday use in Nuclear Medicine. The BNMS has been instrumental in promoting the use of radionuclide techniques in the investigation of pathology by supporting and providing education, research and guidelines on the optimum use of radiation to help patients. The future of Nuclear Medicine is bright, thanks to improved imaging resolution, new radiopharmaceuticals, and new diagnostic and therapeutic techniques and procedures.
Covering both the fundamentals and recent developments in this fast-changing field, Essentials of Nuclear Medicine and Molecular Imaging, 7th Edition, is a must-have resource for radiology residents, nuclear medicine residents and fellows, nuclear medicine specialists, and nuclear medicine technicians. Known for its clear and easily understood writing style, superb illustrations, and self-assessment features, this updated classic is an ideal reference for all diagnostic imaging and therapeutic patient care related to nuclear medicine, as well as an excellent review tool for certification or MOC preparation. - Provides comprehensive, clear explanations of everything from principles of human physiology, pathology, physics, radioactivity, radiopharmaceuticals, radiation safety, and legal requirements to hot topics such as new brain and neuroendocrine tumor agents and hybrid imaging, including PET/MR and PET/CT. - Covers the imaging of every body system, as well as inflammation, infection and tumor imaging; pearls and pitfalls for every chapter; and pediatric doses and guidelines in compliance with the Image Gently and Image Wisely programs. - Features a separate self-assessment section on differential diagnoses, imaging procedures and artifacts, and safety issues with unknown cases, questions, answers, and explanations. - Includes new images and illustrations, for a total of 430 high-quality, multi-modality examples throughout the text. - Reflects recent advances in the field, including updated nuclear medicine imaging and therapy guidelines • Updated dosimetry values and effective doses for all radiopharmaceuticals with new values from the 2015 International Commission on Radiological Protection • Updated information regarding advances in brain imaging, including amyloid, dopamine transporter and dementia imaging • Inclusion of Ga-68 DOTA PET/CT for neuroendocrine tumors • Expanded information on correlative and hybrid imaging with SPECT/CT • New myocardial agents • and more. - Contains extensive appendices including updated comprehensive imaging protocols for routine and hybrid imaging, pregnancy and breastfeeding guidelines, pediatric dosages, non-radioactive pharmaceuticals used in interventional and cardiac stress imaging, and radioactivity conversion tables.
Building on the traditional concept of nuclear medicine, this textbook presents cutting-edge concepts of hybrid imaging and discusses the close interactions between nuclear medicine and other clinical specialties, in order to achieve the best possible outcomes for patients. Today the diagnostic applications of nuclear medicine are no longer stand-alone procedures, separate from other diagnostic imaging modalities. This is especially true for hybrid imaging guided interventional radiology or surgical procedures. Accordingly, today’s nuclear medicine specialists are actually specialists in multimodality imaging (in addition to their expertise in the diagnostic and therapeutic uses of radionuclides). This new role requires a new core curriculum for training nuclear medicine specialists. This textbook is designed to meet these new educational needs, and to prepare nuclear physicians and technologists for careers in this exciting specialty.
This pocket book is the first of its kind on sodium fluoride (18F-NaF)-PET and addresses skeletal as well as cardiovascular applications. In malignant metastatic diseases 18F-NaF-PET has already demonstrated its benefits in cancer staging, re-staging, follow-up and response evaluation. It also has an emerging diagnostic role in the calcified soft-tissue metastases of primary bone tumours, and can be applied to evaluate cardiovascular diseases, such as calcifications in heart valves and peripheral vascular disease. The book is divided into 11 chapters: five on oncology, four addressing the general aspects of skeletal conditions, and two on cardiovascular diseases. It offers a valuable guide for referring colleagues, nuclear medicine physicians/radiologists and aid clinicians, and highlights the main applications and limitations of 18F-NaF-PET hybrid imaging (PET/CT).
The aim of this book is to provide concise information and quick reference on the basics and practice of PET/CT for beginners. The chapters are written by Nuclear Medicine experts from different countries with enormous experience in PET/CT practice. Starting with the basics of PET/CT describing physics and the use of radiopharmaceuticals in PET/CT, the book explores the principle of PET/CT in radiotherapy planning. The last five chapters explore normal variation, pitfalls and artefacts commonly seen with various routinely used PET radiotracers. The text is enriched by tables and highlighted clinical cases for better understanding. This book will be of interest mostly to nuclear medicine physicians and radiologists, but it may be appealing also to a wider medical community including oncologists and radiotherapists.
Radionuclide Tracer Techniques in Haematology present an extensive examination of the use of radionuclides in diagnostic medicine and in haematology. It discusses the fundamental structure of radionuclides. It addresses the mechanism of using radionuclides for diagnosis. Some of the topics covered in the book are the analysis of ionization chambers; radionuclide imaging equipment; measurement of red cell and plasma volume; description of Geiger-Muller counter, scintillation counter, and whole body counters; utilization of gamma camera; use of hybrid imaging system . The procedure for blood volume determination is fully covered. An in-depth account of the plasma clearance and plasma iron turnover are provided. The evaluation of iron utilization is completely presented. A chapter is devoted to the use of physiological models and external counting equipment. Another section focuses on the applications of quantitative imaging. The analysis of spleen imaging, bone marrow imaging, and vitamin B12 are briefly covered. The book can provide useful information to radiologists, doctors, students, and researchers.
This open access book gives a complete and comprehensive introduction to the fields of medical imaging systems, as designed for a broad range of applications. The authors of the book first explain the foundations of system theory and image processing, before highlighting several modalities in a dedicated chapter. The initial focus is on modalities that are closely related to traditional camera systems such as endoscopy and microscopy. This is followed by more complex image formation processes: magnetic resonance imaging, X-ray projection imaging, computed tomography, X-ray phase-contrast imaging, nuclear imaging, ultrasound, and optical coherence tomography.
This invaluable and well-presented text brings together previously fragmented or incompletely elucidated data on the impressive recent advances in orthopedic nuclear medicine. The book begins by acquainting the readers with various anatomic, physiologic, pathologic and technical concepts crucial to understanding orthopedic nuclear medicine and its utilization in clinical practice. Subsequent chapters detail the diagnosis of skeletal infections, trauma, vascular disorders, metabolic and neoplastic bone diseases, soft tissue calcifications and joint disorders. A separate section is devoted to the use of radionuclides in the treatment of bone and joint diseases. A unique feature of this richly illustrated volume is its comprehensive and clinically oriented approach. The book will prove invaluable to all with an interest in diagnostic and therapeutic orthopedics, including radiologists, orthopedists, rheumatologists, pediatricians, other clinicians and nuclear medicine professionals.
Integrated single photon emission computed tomography and computed tomography (SPECT/CT) has emerged as an important diagnostic tool in medical imaging, where morphological markers are superimposed on anatomical images to allow a more thorough examination and higher levels of diagnostic accuracy. This TECDOC presents an overview of the SPECT/CT technology for use by nuclear medicine physicians, radiologists and clinical practitioners. The publication also covers the current medical status of SPECT/CT imaging, the role of this technology in the clinical management of patients and possible trends for future development.