基本説明
An easy-to-read introduction to the physics behind MR imaging. Previous ed.: 2003.
Full Description
Now in its updated Third Edition, MRIintroduction to the physics behind MR imaging. The subject is presented in a clear, user-friendly, clinically relevant fashion, with large-size, legible equations, state-of-the-art images and instructive diagrams, and questions and answers that are ideal for board review. The American Journal of Radiology praised the previous edition as "an excellent text for introducing the basic concepts to individuals interested in clinical MRI."This edition spans the gamut from basic physics to multi-use MR options to specific applications, and has dozens of new images. Coverage reflects the latest advances in MRI and includes completely new chapters on k-space, parallel imaging, cardiac MRI, and MR spectroscopy.
Contents
Part I1: Introductory Math2: Basic Principles of MRI3: Radio Frequency Pulse4: T1, T2, and T2*5: TR, TE, and Tissue Contrast6: Tissue Contrast: Some Clinical Applications7: Pulse Sequences: Part I (Saturation, Partial Saturation, Inversion Recovery)8: Pulse Sequences: Part II (Spin Echo)9: Fourier Transform10: Image Construction: Part I (Slice Selection)11: Image Construction: Part II (Spatial Encoding)12: Signal Processing13: Data Space14: Pulse Sequence Diagram15: Field of View16: k-Space: The Final Frontier!17: Scan Parameters and Image Optimization18: Artifacts in MRIPart II: FAST SCANNING19: Fast Spin Echo20: Gradient Echo: Part I (Basic Principles)21: Gradient Echo: Part II (Fast Scanning Techniques)22: Echo Planar Imaging23: New Scanning Features24: Parallel Imaging25: Tissue Suppression Techniques26: Flow Phenomena27: MR Angiography28: Cardiac MRI29: MR Spectroscopy in the Brain30: High Performance Gradients31: The Many Combinations of MRISuggested ReadingsAnswersAbbreviations
