Medical Imaging Based on Magnetic Fields and Ultrasounds (eBook, ePUB)
Redaktion: Fanet, Hervé
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Medical Imaging Based on Magnetic Fields and Ultrasounds (eBook, ePUB)
Redaktion: Fanet, Hervé
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This book describes the different principles and equipment used in medical imaging. The importance of medical imaging for diagnostics is rapidly increasing. A good working knowledge of all the different possible physical principles involved in medical imaging is now imperative. This book covers many of these principles including matter photon interactions, the principles of detectors, detectors and information processing for radiology, X-ray tomography, positron tomography, single photon tomography and optical tomography.
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- Produktdetails
- Verlag: John Wiley & Sons
- Seitenzahl: 288
- Erscheinungstermin: 6. März 2014
- Englisch
- ISBN-13: 9781118761182
- Artikelnr.: 40614916
- Verlag: John Wiley & Sons
- Seitenzahl: 288
- Erscheinungstermin: 6. März 2014
- Englisch
- ISBN-13: 9781118761182
- Artikelnr.: 40614916
- Herstellerkennzeichnung Die Herstellerinformationen sind derzeit nicht verfügbar.
Guy FRIJA
Chapter 1. Ultrasound Medical Imaging 1
Didier VRAY, Elisabeth BRUSSEAU, Valérie DETTI, François VARRAY, Adrian
BASARAB, Olivier BEUF, Olivier BASSET, Christian CACHARD, Hervé LIEBGOTT,
Philippe DELACHARTRE
1.1. Introduction 1
1.2. Physical principles of echography 3
1.2.1. Ultrasound waves 3
1.2.2. Wavefronts 4
1.2.3. Stress/Strain relation 5
1.2.4. Propagation equation 6
1.2.5. Acoustic impedance 7
1.2.6. Acoustic intensity 7
1.2.7. Mechanical Index 9
1.2.8. Generation, emission 9
1.2.9. Resolution 10
1.2.10. Propagation of a plane wave in a finite isotropic medium 11
1.2.11. Propagation of a plane wave in a non-homogeneous medium 13
1.2.12. Speckle 15
1.2.13. Nonlinear waves 16
1.2.14. Contrast agents 17
1.3. Medical ultrasound systems 18
1.3.1. Principle 18
1.3.2. The different stages in image formation 19
1.3.3. Ultrasound imaging probe 21
1.3.4. Modes of imaging, B-mode and M-mode, and harmonic imaging modes 24
1.3.5. Doppler imaging 27
1.4. The US image 34
1.4.1. Properties of speckle, echostructure and statistical laws 34
1.4.2. Segmentation of US images 38
1.4.3. Simulation of US images 41
1.5. Recent advances in ultrasound imaging 44
1.5.1. Generation/emission of ultrasounds 44
1.5.2. Signal- and image processing 49
1.5.3. Multimodal imaging 60
1.6. A bright future for ultrasound imaging 65
1.7. Bibliography 65
Chapter 2. Magnetic Resonance Imaging 73
Dominique SAPPEY-MARINIER and André BRIGUET
2.1. Introduction 73
2.2. Fundamental elements for MRI 76
2.2.1. Introduction 76
2.2.2. Vectorial description of nuclear magnetic resonance (NMR) 78
2.2.3. RF pulses and their effect on magnetizations 88
2.2.4. Elementary pulse sequences using the refocusing technique 97
2.2.5. Spatial discrimination of signals using gradients: fundamental
principle of MRI 106
2.2.6. Multi-parameter aspect of MRI 110
2.3. Instrumentation 115
2.3.1. Introduction 115
2.3.2. Recording the signal 117
2.3.3. Magnetic systems 129
2.3.4. A typical MRI installation in a clinical environment 136
2.3.5. Operation and safety 139
2.4. Image properties 144
2.4.1. Introduction 144
2.4.2. Field of view 144
2.4.3. Spatial resolution 148
2.4.4. Contrast and signal 155
2.4.5. Contrast elements in MRI practice 162
2.5. Imaging sequences and modes of reconstruction 168
2.5.1. Introduction 168
2.5.2. Overall view of acquisition sequences 168
2.5.3. Modes of reconstruction 195
2.6. Application of MRI: uses and evolution in the biomedical field 208
2.6.1. Introduction 208
2.6.2. Spectroscopy and imaging: technical and clinical complementarity 210
2.6.3. Diffusion MRI: a morphological and functional approach 217
2.6.4. Functional MRI (fMRI) of cerebral activation 236
2.6.5. Bi-modal approach to MRI: the example of MR/PET 239
2.7. Bibliography 244
List of Authors 263
Index 265
Guy FRIJA
Chapter 1. Ultrasound Medical Imaging 1
Didier VRAY, Elisabeth BRUSSEAU, Valérie DETTI, François VARRAY, Adrian
BASARAB, Olivier BEUF, Olivier BASSET, Christian CACHARD, Hervé LIEBGOTT,
Philippe DELACHARTRE
1.1. Introduction 1
1.2. Physical principles of echography 3
1.2.1. Ultrasound waves 3
1.2.2. Wavefronts 4
1.2.3. Stress/Strain relation 5
1.2.4. Propagation equation 6
1.2.5. Acoustic impedance 7
1.2.6. Acoustic intensity 7
1.2.7. Mechanical Index 9
1.2.8. Generation, emission 9
1.2.9. Resolution 10
1.2.10. Propagation of a plane wave in a finite isotropic medium 11
1.2.11. Propagation of a plane wave in a non-homogeneous medium 13
1.2.12. Speckle 15
1.2.13. Nonlinear waves 16
1.2.14. Contrast agents 17
1.3. Medical ultrasound systems 18
1.3.1. Principle 18
1.3.2. The different stages in image formation 19
1.3.3. Ultrasound imaging probe 21
1.3.4. Modes of imaging, B-mode and M-mode, and harmonic imaging modes 24
1.3.5. Doppler imaging 27
1.4. The US image 34
1.4.1. Properties of speckle, echostructure and statistical laws 34
1.4.2. Segmentation of US images 38
1.4.3. Simulation of US images 41
1.5. Recent advances in ultrasound imaging 44
1.5.1. Generation/emission of ultrasounds 44
1.5.2. Signal- and image processing 49
1.5.3. Multimodal imaging 60
1.6. A bright future for ultrasound imaging 65
1.7. Bibliography 65
Chapter 2. Magnetic Resonance Imaging 73
Dominique SAPPEY-MARINIER and André BRIGUET
2.1. Introduction 73
2.2. Fundamental elements for MRI 76
2.2.1. Introduction 76
2.2.2. Vectorial description of nuclear magnetic resonance (NMR) 78
2.2.3. RF pulses and their effect on magnetizations 88
2.2.4. Elementary pulse sequences using the refocusing technique 97
2.2.5. Spatial discrimination of signals using gradients: fundamental
principle of MRI 106
2.2.6. Multi-parameter aspect of MRI 110
2.3. Instrumentation 115
2.3.1. Introduction 115
2.3.2. Recording the signal 117
2.3.3. Magnetic systems 129
2.3.4. A typical MRI installation in a clinical environment 136
2.3.5. Operation and safety 139
2.4. Image properties 144
2.4.1. Introduction 144
2.4.2. Field of view 144
2.4.3. Spatial resolution 148
2.4.4. Contrast and signal 155
2.4.5. Contrast elements in MRI practice 162
2.5. Imaging sequences and modes of reconstruction 168
2.5.1. Introduction 168
2.5.2. Overall view of acquisition sequences 168
2.5.3. Modes of reconstruction 195
2.6. Application of MRI: uses and evolution in the biomedical field 208
2.6.1. Introduction 208
2.6.2. Spectroscopy and imaging: technical and clinical complementarity 210
2.6.3. Diffusion MRI: a morphological and functional approach 217
2.6.4. Functional MRI (fMRI) of cerebral activation 236
2.6.5. Bi-modal approach to MRI: the example of MR/PET 239
2.7. Bibliography 244
List of Authors 263
Index 265