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The physics of clinical MR taught through images / Val M. Runge, Wolfgang R. Nitz, Stuart H. Schmeets.
Holman Biotech Commons RC78.7.N83 P497 2009
Available
- Format:
- Book
- Language:
- English
- Subjects (All):
- Magnetic resonance imaging.
- Magnetic Resonance Imaging.
- Physics.
- Medical Subjects:
- Magnetic Resonance Imaging.
- Physics.
- Physical Description:
- xi, 232 pages : illustrations ; 23 cm
- Edition:
- Second edition.
- Place of Publication:
- New York : Thieme, [2009]
- Summary:
- This lavishly illustrated book uses high-quality images to present a practical guide to the physics of magnetic resonance. Written by internationally renowned authors, the book places an emphasis on learning visually through images of real cases rather than through mathematical equations and provides the fundamental information needed to achieve the best images in everyday clinical practice. This edition features new images and incorporates information on the latest technical advances in the field, discussing such important topics as 3 T MR, specific absorption rate (SAR), arterial spin labeling, continuous moving-table MR, and time-resolved contrast-enhanced MR angiography.
- Highlights:
- Concise chapters make difficult concepts easy to digest
- 400 high-quality images and illustrations demonstrate key concepts
- This book is a valuable reference for radiologists and an excellent resource for residents preparing for board examinations. It is also ideal for MR technologists and students seeking to fully understand the basic principles underlying this important diagnostic tool.
- An award-winning international medical and scientific publisher, Thieme has demonstrated its commitment to the highest standard of quality in the state-of-the-art content and presentation of all of its products. Thieme's trademark blue and silver covers have become synonymous with excellence in publishing.
- Contents:
- 1 Components of an MR Scanner 2
- 2 MR Safety: Static Magnetic Field 4
- 3 MR Safety: Gradient Magnetic and Radiofrequency Fields 6
- 4 Radiofrequency (RF) Coils 8
- 5 Multichannel Coil Technology: Introduction 10
- 6 Multichannel Coil Technology: Body Imaging 14
- 7 Imaging Basics: k Space, Raw Data, Image Data 16
- 8 Motion Reduction: Triggering, Gating, Navigator Echoes 20
- 9 Image Resolution: Pixel and Voxel Size 24
- 10 Imaging Basics: Signal-to-Noise Ratio (SNR) 26
- 11 Imaging Basics: Contrast-to-Noise Ratio (CNR) 28
- 12 SNR Versus CNR 29
- 13 T1, T2, and Proton Density 30
- 14 Spin Echo Imaging 32
- 15 Fast Spin Echo Imaging 34
- 16 Fast Spin Echo: Reduced Refocusing Angle 36
- 17 Driven-Equilibrium Fourier Transformation (DEFT) 37
- 18 Reordering: Phase Encoding 38
- 19 Half Acquisition Single-Shot Turbo Spin Echo (HASTE) 40
- 20 Inversion Recovery: Part 1 42
- 21 Inversion Recovery: Part 2 44
- 22 Fluid-Attenuated IR with Fat Saturation (FLAIR FS) 46
- 23 Spoiled Gradient Echo 48
- 24 Refocused (Steady State) Gradient Echo 50
- 25 Dual-Echo Steady State (DESS) 52
- 26 Balanced Gradient Echo 54
- 27 Balanced Steady-State Free Precession (b-SSFP) 56
- 28 PSIF: The Backward-Running FISP 58
- 29 Constructive Interference in a Steady State (CISS) 60
- 30 TurboFLASH, FSPGR, TFE 62
- 31 BLADE (PROPELLER) 64
- 32 Faster and Stronger Gradients: Part 1 66
- 33 Faster and Stronger Gradients: Part 2 68
- 34 Multislice Imaging and Concatenations 70
- 35 3D Imaging: Basic Principles 72
- 36 3D Imaging: MP-RAGE 74
- 37 3D Imaging: SPACE 76
- 38 Susceptibility-Weighted Imaging 78
- 39 Echo Planar Imaging 80
- 40 Flow Effects: Fast and Slow Flow 82
- 41 Phase Imaging: Flow 84
- 42 2D Time-of-Flight MRA 86
- 43 3D Time-of-Flight MRA 88
- 44 Flip Angle, TR, MT, and Field Strength (in 3D TOF MRA) 90
- 45 Phase-Contrast MRA 92
- 46 Contrast-Enhanced MRA: Basics; Renal, Abdomen 94
- 47 Contrast-Enhanced MRA: Carotid Arteries 96
- 48 Contrast-Enhanced MRA: Peripheral Circulation 98
- 49 Dynamic MRA (TWIST/TREAT) 100
- 50 Image Composing 102
- 51 Continuous Moving-Table Imaging 104
- 52 Abdomen: Motion Correction 106
- 53 Volume-Interpolated Breath-Hold Examination (VIBE) 108
- 54 Magnetic Resonance Cholangiopancreatography (MRCP) 110
- 55 Fat Suppression: Spectral Saturation 112
- 56 Water Excitation, Fat Excitation 114
- 57 Fat Suppression: Short Tau Inversion Recovery (STIR) 116
- 58 Fat Suppression: Phase Cycling 118
- 59 Magnetization Transfer 120
- 60 Calculating T1 and T2 Relaxation Times (Calculated Images) 122
- 61 Perfusion Imaging 124
- 62 Arterial Spin Labeling (ASL) 126
- 63 Diffusion-Weighted Imaging 128
- 64 Diffusion Tensor Imaging 130
- 65 Blood Oxygen Level-Dependent (BOLD) Imaging: Theory 134
- 66 Blood Oxygen Level-Dependent (BOLD) Imaging: Applications 136
- 67 Proton Spectroscopy (Theory) 138
- 68 Proton Spectroscopy (Chemical-Shift Imaging) 140
- 69 Number of Averages 142
- 70 Slice Thickness 144
- 71 Slice Profile 146
- 72 Slice Excitation Order (in Fast Spin Echo Imaging) 148
- 73 Slice Orientation 150
- 74 Field of View (FOV) 152
- 75 Field of View: Rectangular 154
- 76 Matrix Size: Readout 156
- 77 Matrix Size: Phase Encoding 158
- 78 Partial Fourier 160
- 79 Image Interpolation (Zero Filling) 162
- 80 Parallel Imaging: Part 1 164
- 81 Parallel Imaging: Part 2 168
- 82 Filtering Images (to Reduce Artifacts) 170
- 83 Filtering Images (to Improve SNR) 172
- 84 Geometric Distortion 174
- 85 3D Evaluation: Image Postprocessing 176
- 86 Contrast Media: Gd Chelates with Extracellular Distribution 178
- 87 Contrast Media: Gd Chelates with Protein Binding 180
- 88 Contrast Media: Other Agents (Non-gadolinium) 182
- 89 Cardiac Morphology 184
- 90 Cardiac Function 186
- 91 Cardiac Imaging: Myocardial Perfusion 188
- 92 Cardiac Imaging: Myocardial Viability 190
- 93 MR Mammography: Dynamic Imaging 192
- 94 MR Mammography: Silicone 194
- 95 Artifacts: Magnetic Susceptibility 196
- 96 Maximizing Magnetic Susceptibility 198
- 97 Artifacts: Metal 200
- 98 Chemical Shift: Sampling Bandwidth 202
- 99 Motion: Ghosting and Smearing 204
- 100 Gradient Moment Nulling 206
- 101 Spatial Saturation 208
- 102 Flow Artifacts 210
- 103 Aliasing 212
- 104 Truncation Artifacts 214
- 105 New Open MR Systems 216
- 106 Magnetic Field Effects at 3 T 218
- 107 SNR at 3 T 220
- 108 Specific Absorption Rate (SAR) 222
- 109 Advanced Receiver Coil Design 224
- 110 Acronyms 226.
- Notes:
- Rev. ed. of: The physics of clinical MR taught through images / Val M. Runge ... [et al.]. c2005.
- Includes index.
- ISBN:
- 9781604061611
- 1604061618
- OCLC:
- 244264669
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