Designed to provide those engaged in modern medical imaging with a coherent perspective of the entire discipline so that one protocol is no longer an isolated or independent mode of imaging from others, to wit: single photon emission computed tomography (SPECT), positron emission tomography (PET) or magnetic resonance imaging (MRI). Introduces biomagnetic imaging as a third new modality.BASICS FOR MEDICAL IMAGING.
Mathematical Preliminaries for Image Processing.
Image Reconstruction from Projections in Two Dimensions.
Image Reconstruction from Projections--True Three-Dimensions andOther Related Techniques.
IMAGING WITH IONIZING RADIATION.
Radiation Physics and Detectors.
X-Ray Computerized Tomography.
Nuclear Tomographic Imaging--Single Photon Emission ComputedTomography.
Tomographic Nuclear Medical Imaging--Positron EmissionTomography.
MAGNETIC RESONANCE IMAGING.
Nuclear Magnetic Resonance Physics and Instrumentation.
Magnetic Resonance Imaging: Mathematics and Algorithms.
Magnetic Resonance Imaging: Methods and Techniques.
Flow and Flow-Related Magnetic Resonance Imaging.
Chemical-Shift and Spectroscopic Imaging.
ULTRASOUND AND ULTRASONIC IMAGING.
Ultrasound Physics.
Ultrasonic Imaging.
BIOMAGNETIC IMAGING.
Neuromagnetic Imaging.
Index.
Zang-Hee Cho, Ph.D, is a Korean neuroscientist who developed the first Ring-PET scanner and the scintillation detector BGO. More recently, Cho developed the first PET-MRI fusion molecular imaging device for neuro-molecular imaging. Joie P. Jones is the author of Foundations of Medical Imaging, published by Wileylăd