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Book Cover
E-book
Author Le Bihan, Denis

Title Intravoxel Incoherent Motion (IVIM) MRI : Principles and Applications
Published Milton : Pan Stanford Publishing, 2018

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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
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
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
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
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
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
Print version record
Subject Magnetic resonance imaging.
Magnetic Resonance Imaging
Magnetic resonance imaging
Form Electronic book
Author Lima, Mami
Federau, Christian
Sigmund, Eric E
ISBN 9780429763496
0429763492
9780429763489
0429763484