The Essential Physics of Medical Imaging
Lippincott Williams & Wilkins, Dec 20, 2011 - Medical - 1030 pages
This renowned work is derived from the authors' acclaimed national review course ("Physics of Medical Imaging") at the University of California-Davis for radiology residents. The text is a guide to the fundamental principles of medical imaging physics, radiation protection and radiation biology, with complex topics presented in the clear and concise manner and style for which these authors are known. Coverage includes the production, characteristics and interactions of ionizing radiation used in medical imaging and the imaging modalities in which they are used, including radiography, mammography, fluoroscopy, computed tomography and nuclear medicine. Special attention is paid to optimizing patient dose in each of these modalities. Sections of the book address topics common to all forms of diagnostic imaging, including image quality and medical informatics as well as the non-ionizing medical imaging modalities of MRI and ultrasound.
The basic science important to nuclear imaging, including the nature and production of radioactivity, internal dosimetry and radiation detection and measurement, are presented clearly and concisely. Current concepts in the fields of radiation biology and radiation protection relevant to medical imaging, and a number of helpful appendices complete this comprehensive textbook. The text is enhanced by numerous full color charts, tables, images and superb illustrations that reinforce central concepts. The book is ideal for medical imaging professionals, and teachers and students in medical physics and biomedical engineering. Radiology residents will find this text especially useful in bolstering their understanding of imaging physics and related topics prior to board exams.
What people are saying - Write a review
We haven't found any reviews in the usual places.
Other editions - View all
acquisition amplitude angle anode approximately array artifacts atomic attenuation coefficient breast cancer cells clinical coil collimator contrast CT images CT scanner curve decay detection diagnostic DICOM display distance Doppler echo effective dose electron emission emitted energy factor film filter fluoroscopy focal spot fraction frequency function gamma rays gradient grid ICRP image receptor imaging system incident increases interaction ionizing ionizing radiation kerma linear magnetic field mammography material measured medical imaging monitor neutrons noise nuclear medicine occurs particles patient performed phantom phase photons pixel procedures produce projection pulse radiation dose radiation exposure radiation-induced radioactive radiographic radiology radionuclides radiopharmaceutical reconstruction reduce result risk rotation sampling scan scatter scintillation camera screen-film sequence shielding shown in Figure signal slice spatial resolution SPECT storage Table thickness tion tissue transducer typically ultrasound values voltage voxel x-ray beam x-ray tube