Description

Book Synopsis


Table of Contents

Preface to the Fifth Edition ix

Acknowledgments xi

List of Acronyms xiii

Equation symbols xvii

About the Companion Website xix

Chapter 1 Basic principles 1

Introduction 1

Atomic structure 2

Motion in the atom 2

MR active nuclei 4

The hydrogen nucleus 5

Alignment 6

Net magnetic vector (NMV) 8

Precession and precessional (Larmor) frequency 10

Precessional phase 13

Resonance 13

MR signal 18

The free Induction decay(FDI) signal 20

Pulse timing parameters 22

Chapter 2 Image weighting and contrast 24

Introduction 24

Image contrast 25

Relaxation 25

T1 recovery 26

T2 decay 27

Contrast mechanisms 31

Relaxation in different tissues 32

T1 contrast 36

T2 contrast 40

Proton density contrast 41

Weighting 42

Other contrast mechanisms 51

Chapter 3 Spin echo pulse sequences 58

Introduction 58

RF rephasing 59

Conventional spin echo 65

Fast or turbo spin echo FSE/TSE) 68

Inversion recovery (IR) 78

Short tau inversion recovery (STIR) 82

Fluid attenuated inversion recovery (FLAIR) 84

Chapter 4 Gradient echo pulse sequences 89

Introduction 89

Variable flip angle 90

Gradient rephasing 91

Weighting in gradient echo pulse sequences 94

Coherent or rewound gradient echo 106

Incoherent or spoiled gradient echo 109

Reverse-echo gradient echo 113

Balanced gradient echo 119

Fast gradient echo 122

Echo planar imaging (EPI) 122

Chapter 5 Spatial encoding 128

Introduction 128

Mechanism of gradients 129

Gradient axes 134

Slice-selection 135

Frequency encoding 142

Phase encoding 145

Bringing it all together – pulse sequence timing 152

Chapter 6 k-space 158

Introduction 158

Part 1 – what is k-space? 159

Part 2 - how are data acquired and how are images created from this data? 165

Part 3 –some important facts about k-space 184

Part 4: how do pulse sequences fill k-space? 197

Part 5: options that fill k-space 199

Chapter 7 Protocol optimization 209

Introduction 209

Signal-to-noise ratio (SNR) 210

Contrast-to-noise ratio (CNR) 226

Spatial resolution 232

Scan time 237

Trade-offs 238

Protocol development and modification 238

Chapter 8 Artefacts 242

Introduction 242

Phase mismapping 243

Aliasing 253

Chemical shift artefact 261

Out-of-phase signal cancellation 265

Magnetic susceptibility artefact 269

Truncation artefact 272

Cross-excitation/cross-talk 273

Zipper artefact 275

Shading artefact 276

Moiré artefact 277

Magic angle 279

Equipment faults 280

Flow artefacts 280

Flow-dependent (non-contrast enhanced) angiography 298

Black-blood imaging 303

Phase contrast MRA 304

Chapter 9 Instrumentation 311

Introduction 311

Magnetism 313

Scanner configurations 315

Magnet system 318

Magnet shielding 326

Shim system 328

Gradient system 330

RF system 337

Patient transport system 343

Computer system and graphic user interface 344

Chapter 10 MRI safety 346

Introduction (and disclaimer) 346

Definitions used in MRI safety 347

Psychological effects 350

The spatially-varying static field 351

Electromagnetic (radiofrequency) fields 357

Time-Varying Gradient Magnetic Fields 363

Cryogens 365

Safety tips 367

Additional resources 368

Glossary 370

Index 387

MRI in Practice

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    A Paperback / softback by Catherine Westbrook, John Talbot

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      View other formats and editions of MRI in Practice by Catherine Westbrook

      Publisher: John Wiley and Sons Ltd
      Publication Date: 26/10/2018
      ISBN13: 9781119391968, 978-1119391968
      ISBN10: 1119391962
      Also in:
      Clinical and internal medicine

      Description

      Book Synopsis


      Table of Contents

      Preface to the Fifth Edition ix

      Acknowledgments xi

      List of Acronyms xiii

      Equation symbols xvii

      About the Companion Website xix

      Chapter 1 Basic principles 1

      Introduction 1

      Atomic structure 2

      Motion in the atom 2

      MR active nuclei 4

      The hydrogen nucleus 5

      Alignment 6

      Net magnetic vector (NMV) 8

      Precession and precessional (Larmor) frequency 10

      Precessional phase 13

      Resonance 13

      MR signal 18

      The free Induction decay(FDI) signal 20

      Pulse timing parameters 22

      Chapter 2 Image weighting and contrast 24

      Introduction 24

      Image contrast 25

      Relaxation 25

      T1 recovery 26

      T2 decay 27

      Contrast mechanisms 31

      Relaxation in different tissues 32

      T1 contrast 36

      T2 contrast 40

      Proton density contrast 41

      Weighting 42

      Other contrast mechanisms 51

      Chapter 3 Spin echo pulse sequences 58

      Introduction 58

      RF rephasing 59

      Conventional spin echo 65

      Fast or turbo spin echo FSE/TSE) 68

      Inversion recovery (IR) 78

      Short tau inversion recovery (STIR) 82

      Fluid attenuated inversion recovery (FLAIR) 84

      Chapter 4 Gradient echo pulse sequences 89

      Introduction 89

      Variable flip angle 90

      Gradient rephasing 91

      Weighting in gradient echo pulse sequences 94

      Coherent or rewound gradient echo 106

      Incoherent or spoiled gradient echo 109

      Reverse-echo gradient echo 113

      Balanced gradient echo 119

      Fast gradient echo 122

      Echo planar imaging (EPI) 122

      Chapter 5 Spatial encoding 128

      Introduction 128

      Mechanism of gradients 129

      Gradient axes 134

      Slice-selection 135

      Frequency encoding 142

      Phase encoding 145

      Bringing it all together – pulse sequence timing 152

      Chapter 6 k-space 158

      Introduction 158

      Part 1 – what is k-space? 159

      Part 2 - how are data acquired and how are images created from this data? 165

      Part 3 –some important facts about k-space 184

      Part 4: how do pulse sequences fill k-space? 197

      Part 5: options that fill k-space 199

      Chapter 7 Protocol optimization 209

      Introduction 209

      Signal-to-noise ratio (SNR) 210

      Contrast-to-noise ratio (CNR) 226

      Spatial resolution 232

      Scan time 237

      Trade-offs 238

      Protocol development and modification 238

      Chapter 8 Artefacts 242

      Introduction 242

      Phase mismapping 243

      Aliasing 253

      Chemical shift artefact 261

      Out-of-phase signal cancellation 265

      Magnetic susceptibility artefact 269

      Truncation artefact 272

      Cross-excitation/cross-talk 273

      Zipper artefact 275

      Shading artefact 276

      Moiré artefact 277

      Magic angle 279

      Equipment faults 280

      Flow artefacts 280

      Flow-dependent (non-contrast enhanced) angiography 298

      Black-blood imaging 303

      Phase contrast MRA 304

      Chapter 9 Instrumentation 311

      Introduction 311

      Magnetism 313

      Scanner configurations 315

      Magnet system 318

      Magnet shielding 326

      Shim system 328

      Gradient system 330

      RF system 337

      Patient transport system 343

      Computer system and graphic user interface 344

      Chapter 10 MRI safety 346

      Introduction (and disclaimer) 346

      Definitions used in MRI safety 347

      Psychological effects 350

      The spatially-varying static field 351

      Electromagnetic (radiofrequency) fields 357

      Time-Varying Gradient Magnetic Fields 363

      Cryogens 365

      Safety tips 367

      Additional resources 368

      Glossary 370

      Index 387

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