Description |
1 online resource (563 pages) |
Contents |
Cover; Half Title; Title; Copyrights; Dedication; Contents; Foreword; Preface; Section I Introduction to IVIM MRI; Chapter 1. Introduction to IVIM MRI Denis Le Bihan; 1.1 The IVIM Concept; 1.1.1 Molecular Diffusion; 1.1.2 Perfusion-Driven Pseudodiffusion; 1.1.3 Other Sources of IVIM; 1.2 IVIM MRI; 1.2.1 IVIM Contribution to the MRI Signal; 1.2.2 Extracting Diffusion and Perfusion Parameters; 1.3 Pitfalls to Consider for an Accurate Estimation of Perfusion-Driven IVIM Parameters; 1.3.1 Non-Gaussian Tissue Diffusion; 1.3.2 Rician Noise; 1.3.3 Erratic Signals |
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1.4 Perfusion-Driven IVIM MRI and "Classical" Perfusion1.4.1 IVIM MRI Reflects Capillary Network Architecture and Blood Flow; 1.4.2 Link with Tracer-Perfusion Methods; 1.5 Non-perfusion-Driven IVIM MRI; 1.6 Conclusion; Section II Other MRI Approaches toPerfusion Imaging; Chapter 2. Other MRI Approaches to Perfusion Imaging (ASL, DSC, DCE) Emmanuel L. Barbier, Sylvie Grand, Alexandre Krainik, and Jan M. Warnking; 2.1 The Perfusion Parameters: The Microvascular Network and Physiological Principles; 2.2 Perfusion Tracers; 2.3 Biophysical Modeling of Nondiffusible Tracers; 2.3.1 Dynamic Approach |
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2.3.2 Steady-State Approach2.4 Biophysical Modeling of Diffusible Tracers; 2.5 Exogenous Tracers: DSC, Steady-State Approaches, and DCE; 2.5.1 Impact of Exogenous Tracers on the MR Signal; 2.5.2 Dynamic Susceptibility Contrast MRI; 2.5.3 Steady-State Susceptibility MRI; 2.5.4 Dynamic Contrast-Enhanced MRI; 2.6 Endogenous Tracer: Arterial Spin Labeling; 2.6.1 ASL MRI Sequences; 2.6.2 Analyzing the ASL Signal; 2.6.3 Applications of ASL; 2.7 Conclusion; Section III Clinical Applications of IVIM MRI Part 1: Neurological Applications |
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Chapter 3. Clinical Applications of IVIM MRI to the Nervous System C. Federau3.1 Introduction; 3.2 Validations Studies of IVIM Perfusion Imaging in the Brain; 3.3 Clinical Application of IVIM Perfusion Imaging in the Brain; 3.3.1 Stroke; 3.3.2 Cerebral Death; 3.3.3 Detection of Vasospasms Related Perfusion Anomalies; 3.3.4 Cerebral Small Vessel Disease; 3.3.5 Neoangiogenesis in Brain Tumors; 3.3.6 Detection of Perfusion Anomalies in the Papilla of the Optic Nerve |
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Chapter 4. IVIM MRI: A Window to the Pathophysiology Underlying Cerebral Small Vessel Disease Jacobus F.A. Jansen, Sau May Wong, and Walter H. Backes4.1 Cerebral Small Vessel Disease; 4.2 Impairment of Cerebral Blood Flow; 4.3 Intravoxel Incoherent Motion Imaging Metrics as a Marker of Pathophysiology; 4.4 Applications of IVIM in cSVD; 4.5 Discussion; 4.6 Parenchymal Damage; 4.7 On the Validity of IVIM Models; 4.8 Clinical Implications; 4.9 Conclusions |
Notes |
Chapter 5. IVIM fMRI: Brain Activation with a High Spatial Specificity and Resolution Allen W. Song, Iain Bruce, Christopher Petty, and Nan-Kuei Chen |
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Restricted: Printing from this resource is governed by The Legal Deposit Libraries (Non-Print Works) Regulations (UK) and UK copyright law currently in force. WlAbNL |
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Print version record |
Subject |
Magnetic resonance imaging.
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Magnetic Resonance Imaging
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Magnetic resonance imaging
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Form |
Electronic book
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Author |
Lima, Mami
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Federau, Christian
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Sigmund, Eric E
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ISBN |
9780429763496 |
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0429763492 |
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9780429763489 |
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0429763484 |
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