Brian M. Dale & Mark A. Brown 
MRI [PDF ebook] 
Basic Principles and Applications

Ủng hộ

This fifth edition of the most accessible introduction to MRI principles and applications from renowned teachers in the field provides an understandable yet comprehensive update.
* Accessible introductory guide from renowned teachers in the field
* Provides a concise yet thorough introduction for MRI focusing on fundamental physics, pulse sequences, and clinical applications without presenting advanced math
* Takes a practical approach, including up-to-date protocols, and supports technical concepts with thorough explanations and illustrations
* Highlights sections that are directly relevant to radiology board exams
* Presents new information on the latest scan techniques and applications including 3 Tesla whole body scanners, safety issues, and the nephrotoxic effects of gadolinium-based contrast media

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Mục lục

Preface, ix
ABR study guide topics, xi
1 Production of net magnetization 1
1.1 Magnetic fields 1
1.2 Nuclear spin 2
1.3 Nuclear magnetic moments 4
1.4 Larmor precession 4
1.5 Net magnetization 6
1.6 Susceptibility and magnetic materials 8
2 Concepts of magnetic resonance 10
2.1 Radiofrequency excitation 10
2.2 Radiofrequency signal detection 12
2.3 Chemical shift 14
3 Relaxation 17
3.1 T1 relaxation and saturation 17
3.2 T2 relaxation, T2* relaxation, and spin echoes 21
4 Principles of magnetic resonance imaging – 1 26
4.1 Gradient fields 26
4.2 Slice selection 28
4.3 Readout or frequency encoding 30
4.4 Phase encoding 33
4.5 Sequence looping 35
5 Principles of magnetic resonance imaging – 2 39
5.1 Frequency selective excitation 39
5.2 Composite pulses 44
5.3 Raw data and image data matrices 46
5.4 Signal-to-noise ratio and tradeoffs 47
5.5 Raw data and k-space 48
5.6 Reduced k-space techniques 51
5.7 Reordered k-space filling techniques 54
5.8 Other k-space filling techniques 56
5.9 Phased-array coils 58
5.10 Parallel acquisition methods 60
6 Pulse sequences 65
6.1 Spin echo sequences 67
6.2 Gradient echo sequences 70
6.3 Echo planar imaging sequences 75
6.4 Magnetization-prepared sequences 77
7 Measurement parameters and image contrast 86
7.1 Intrinsic parameters 87
7.2 Extrinsic parameters 89
7.3 Parameter tradeoffs 91
8 Signal suppression techniques 94
8.1 Spatial presaturation 94
8.2 Magnetization transfer suppression 96
8.3 Frequency-selective saturation 99
8.4 Nonsaturation methods 101
9 Artifacts 103
9.1 Motion artifacts 103
9.2 Sequence/Protocol-related artifacts 105
9.3 External artifacts 119
10 Motion artifact reduction techniques 126
10.1 Acquisition parameter modification 126
10.2 Triggering/Gating 127
10.3 Flow compensation 132
10.4 Radial-based motion compensation 134
11 Magnetic resonance angiography 135
11.1 Time-of-flight MRA 137
11.2 Phase contrast MRA 141
11.3 Maximum intensity projection 144
12 Advanced imaging applications 147
12.1 Diffusion 147
12.2 Perfusion 153
12.3 Functional brain imaging 156
12.4 Ultra-high field imaging 158
12.5 Noble gas imaging 159
13 Magnetic resonance spectroscopy 162
13.1 Additional concepts 162
13.2 Localization techniques 167
13.3 Spectral analysis and postprocessing 169
13.4 Ultra-high field spectroscopy 173
14 Instrumentation 177
14.1 Computer systems 177
14.2 Magnet system 180
14.3 Gradient system 182
14.4 Radiofrequency system 184
14.5 Data acquisition system 186
14.6 Summary of system components 187
15 Contrast agents 189
15.1 Intravenous agents 190
15.2 Oral agents 195
16 Safety 196
16.1 Base magnetic field 197
16.2 Cryogens 197
16.3 Gradients 198
16.4 RF power deposition 198
16.5 Contrast media 199
17 Clinical applications 200
17.1 General principles of clinical MR imaging 200
17.2 Examination design considerations 202
17.3 Protocol considerations for anatomical regions 203
17.4 Recommendations for specific sequences and clinical situations 218
References and suggested readings 222
Index 225

Giới thiệu về tác giả

Brian M. Dale, Ph.D. MBA is Zone Research Manager, MR R&D Collaborations, Siemens Medical Solutions, Inc. Brian is a younger colleague at Siemens of the previous co-author, Dr Mark Brown. Brian has a Ph D in biomedical engineering from Case Western Reserve University in Cleveland, OH. His interests are in sequence programming and optimal design.
Mark A. Brown, Ph.D. is Senior Technical Instructor at Siemens Medical Solutions Training and Development Center. He received his Ph.D. in Physical Chemistry from Duke University, in Durham, NC. His research interests include relaxation and exchange phenomena and in vivo nuclear magnetic resonance spectroscopy and imaging.
Richard Semelka, MD, is Director of Magnetic Resonance Services, Professor, and Vice Chairman of Radiology at the University of North Carolina-Chapel Hill Medical School. He received his medical degree and residency training in radiology in his native Canada at the University of Manitoba, and completed a clinical research fellowship in MRI of the body at the University of California at San Francisco. Dr. Semelka has authored over 300 peer-reviewed articles, 12 textbooks including the Wiley Abdominal-Pelvic MRI and Current Clinical Imaging series and is an internationally acclaimed authority in the field.

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