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Winner of the Nobel Prize in Literature Winner of the National Book Critics Circle Award A journalist by trade, who now suffers from an immune deficiency developed while researching this book, presents personal accounts of what happened to the people of Belarus after the nuclear reactor accident in 1986, and the fear, anger, and uncertainty that they still live with. The Nobel Prize in Literature 2015 was awarded to Svetlana Alexievich "for her polyphonic writings, a monument to suffering and courage in our time."
Nuclear Oncology a contemporary narrative of the role of nuclear medicine in oncology with an emphasis on SPECT/CT and PET/CT with additional comments when appropriate on the potential application of PET/MR and to a lesser degree, targeted radionuclide therapy. This book focuses on the use of radionuclides in the diagnosis and treatment of malignant diseases. It describes relevant approved and investigational clinical applications, instrumentation & technology, chemistry and practical clinical issues in nuclear oncology. The basic science and current research topics of nuclear oncology are addressed in separate chapters. Nuclear medicine has become an essential component to all phases of the management of the patient with a malignant tumor and in some cases, even benign neoplasms. The standard of practice for many tumors requires PET/CT imaging at various stages of diagnosis and management. In addition to clinical applications, ongoing investigational efforts, which more and more involve multi-institutional protocols, are also presented. Features: • Focuses on the use of radionuclides in the diagnosis and treatment of malignant diseases • Emphasizes SPECT/CT and PET/CT with additional emphasis on the potential application of PET/MR • Describes relevant approved and investigational clinical applications, instrumentation & technology, chemistry and practical clinical issues in nuclear oncology
This book provides a review of image analysis techniques as they are applied in the field of diagnostic and therapeutic nuclear medicine. Driven in part by the remarkable sophistication of nuclear medicine instrumentation and - crease in computing power and its ready and inexpensive availability, this is a relatively new yet rapidly expanding field. Likewise, although the use of nuclear imaging for diagnosis and therapy has origins dating back almost to the pioneering work of Dr G. de Hevesy, quantitative imaging has only recently emerged as a promising approach for diagnosis and therapy of many diseases. An effort has, therefore, been made to place the reviews provided in this book in a broader context. The effort to do this is reflected by the inclusion of introductory chapters that address basic principles of nuclear medicine instrumentation and dual-modality imaging, followed by overview of issues that are closely related to quantitative nuclear imaging and its potential role in diagnostic and therapeutic applications. A brief overview of each chapter is provided below. Chapter 1 presents a general overview of nuclear medicine imaging physics and instrumentation including planar scintigraphy, single-photon emission computed tomography (SPECT) and positron emission tomography (PET). Nowadays, patients’ diagnosis and therapy is rarely done without the use of imaging technology. As such, imaging considerations are incorporated in almost every chapter of the book. The development of dual-modality - aging systems is an emerging research field, which is addressed in chapter 2.
This concise Question & Answer book contains three types of questions: multiple choice, fill-in answers, & true & false. The quick test format is a concise, yet comprehensive rapid review primarily designed for those preparing for certification or re-certification exams administered by the American Board of Radiology & the American Board of Nuclear Medicine. It is organized into 12 major categories, containing more than 1,000 questions & answers.
Radioisotope-based molecular imaging probes provide unprecedented insight into biochemistry and function involved in both normal and disease states of living systems, with unbiased in vivo measurement of regional radiotracer activities offering very high specificity and sensitivity. No other molecular imaging technology including functional magnetic resonance imaging (fMRI) can provide such high sensitivity and specificity at a tracer level. The applications of this technology can be very broad ranging from drug development, pharmacokinetics, clinical investigations, and finally to routine diagnostics in radiology. The design and the development of radiopharmaceuticals for molecular imaging studies using PET/MicroPET or SPECT/MicroSPECT are a unique challenge. This book is intended for a broad audience and written with the main purpose of educating the reader on various aspects including potential clinical utility, limitations of drug development, and regulatory compliance and approvals.
"Written at the technologist level, Nuclear Medicine Instrumentation, Second Edition focuses on instruments essential to the practice of nuclear medicine. Covering everything from Geiger counters to positron emission tomography systems, this text provides students with an understanding of the practical aspects of these instruments and their uses in nuclear medicine. Nuclear Medicine Instrumentation is made up of four parts: Small Instruments Gamma Camera Single Photon Emission Computed Tomography (SPECT) Positron Emission Tomography (PET) By concentrating on the operation of these instruments and the potential pitfalls that they are subject to, students will be better prepared for what they may encounter during their career. The Second Edition includes revised content and updated data throughout as well as a new chapter on Magnetic Resonance Imaging and Its Application to Nuclear Medicine and a new Appendix on Laboratory Accreditation"--
- Summarizes the state of the art in the most relevant areas of medical physics and engineering applied to radiation oncology - Covers all relevant areas of the subject in detail, including 3D imaging and image processing, 3D treatment planning, modern treatment techniques, patient positioning, and aspects of verification and quality assurance - Conveys information in a readily understandable way that will appeal to professionals and students with a medical background as well as to newcomers to radiation oncology from the field of physics