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Description | |
The newest title in the popular Case Review Series, Duke Review of MRI Principles, by Wells Mangrum, MD; Kimball Christianson, MD; Scott Duncan, MD; Phil Hoang, MD; Allen W. Song, PhD; and Elmar Merkle, MD, uses a case-based approach to provide you with a concise overview of the physics behind magnetic resonance imaging (MRI). Written by radiology residents, practicing radiologists, and radiology physicists, this multidisciplinary text introduces you to the basic physics of MRI and how they apply to successful and accurate imaging, interpretation, and diagnosis. Clinically relevant cases with associated questions and images reinforce your understanding of essential principles needed to confidently interpret a wide range of MRI images for all organ systems. |
Author Info | |
By Wells Mangrum, MD, Duke University Medical Center; Kimball Christianson, MD, Duke University Medical Center; Scott Duncan, MD, Duke University Medical Center; Phil Hoang, MD, Duke University Medical Center; Allen W Song, MD, Duke University Medical Center and Elmar Merkle, MD, Duke University Medical Center |
Table of Contents:
Chapter 1
T1 Contrast
Chapter 2
T2 Contrast
Chapter 3
Proton Density
Chapter 4
Gadolinium-Based Contrast Agents
Chapter 5
Preparatory Pulses
Chapter 6
Inversion Recovery
Chapter 7
Chemical Shift Type II Artifact
Chapter 8
Susceptibility Artifact
Chapter 9
Motion, Pulsation and Other Artifacts
Chapter 10
Flow Related Contrast
Chapter 11
Time of Flight Imaging
Chapter 12
Time-Resolved Contrast-Enhanced Magnetic Resonance Angiography
Chapter 13
Phase Contrast
Chapter 14
Diffusion MRI
Chapter 15
Perfusion Magnetic Resonance Imaging
Chapter 16
Magnetic Resonance Spectroscopy
Chapter 17
Functional Magnetic Resonance Imaging
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