In contrast to most anatomic radiographic imaging techniques, nuclear medicine permits real time, non-invasive imaging of human physiology and pathophysiology and also allows for exquisite targeting of disease with therapeutic radiology. To open this window to the processes of human disease, one must first understand the physical processes behind radioactive decay and emission, as well the principles of radiation detection. Practical Nuclear Medicine Physics provides residents and practitioners in nuclear medicine and radiology a readable explanation of the physics concepts underpinning nuclear imaging and how they impact the utilization and interpretation of those images. Following a brief introductory section, the book provides numerous case examples, illustrating various imaging artifacts and pitfalls that can be recognized and remedied with a solid understanding of the physics behind the procedure. Understanding and applying the physics behind nuclear medicine is essential to maximizing not only diagnostic and therapeutic accuracy for providing optimal patient care, but "Practical Physics" is a required portion of radiology residency education and a designated area of the board exams.
About the AuthorAssistant Professor of Radiology; Clinical Director of Nuclear Medicine/Molecular Imaging, University of Pennsylvania Perelman School of Medicine, Philadelphia, Pennsylvania
ReviewsI am delighted to recommend it to people starting out in nuclear medicine and certainly I think it will be helpful to have it on the shelf in the department. * Dr Colin Todd, Consultant Radiologist, Kingston Hospital, London, RAD Magazine *
Book InformationISBN 9780199918034
Author Daniel A. PrymaFormat Paperback
Page Count 208
Imprint Oxford University Press IncPublisher Oxford University Press Inc
Weight(grams) 458g
Dimensions(mm) 231mm * 188mm * 13mm