This book addresses topical aspects of the field from leading authorities, introducing the concepts behind IVIM MRI, outlining related methodological issues, and summarizing its current usage and potential for clinical applications. It also presents future research directions, including methodological development and clinical application fields.
This book addresses topical aspects of the field from leading authorities, introducing the concepts behind IVIM MRI, outlining related methodological issues, and summarizing its current usage and potential for clinical applications. It also presents future research directions, including methodological development and clinical application fields.
Denis Le Bihan is a radiologist and physicist and inventor of the intravoxel incoherent motion (IVIM) concept and method. He is an MD and a PhD and is a member of the French Academy of Sciences and the French Academy of Technologies. He is also the founding director of NeuroSpin [an ultra-high field magnetic resonance imaging (MRI) facility in Saclay, France] and a visiting professor of the Kyoto University Graduate School of Medicine, Kyoto Prefectural University of Medicine, and the Japan National Institute of Physical Sciences, Okazaki. Mami lima is a radiologist and assistant professor of diagnostic imaging and nuclear medicine at the Kyoto University Graduate School of Medicine and the Hakubi Center for Advanced Research, Kyoto University. She is an MD and a PhD and has published important articles about IVIM and diffusion MRI in the breast. Christian Federau is a neuroradiologist and theoretical physicist and is working as an attending neuroradiologist at the University Hospital in Basel, Switzerland. Eric E. Sigmund is an MRI physicist and associate professor of radiology at New York University (NYU) School of Medicine within NYU Langone Health in New York City.
Inhaltsangabe
Introduction to IVIM MRI. Other MRI Approaches to Perfusion Imaging (ASL, DSC, DCE). Clinical Brain IVIM MRI. IVIM MRI: A Window on the Pathophysiology Underlying Cerebral Small Vessel Disease. IVIM fMRI: Brain Activation with High Spatial Specificity and Resolution. IVIM in the Body - General overview. Head and Neck IVIM MRI. IVIM MRI of the Breast. Cardiac IVIM MRI. IVIM MRI and Liver Fibrosis. Assessment of Liver Tumors with Intravoxel Incoherent Motion Diffusion Weighted Imaging. IVIM MRI of the Pancreas. IVIM MRI in the Kidney. IVIM Diffusion Model in Prostate Cancer. Clinical Application of IVIM in Female Pelvis. IVIM MRI of the Placenta. Fetal IVIM MRI. IVIM MRI and Bone Marrow. IVIM Models: Advantages, Disadvantages and Analysis Pitfalls. Flow Compensated IVIM in the Ballistic Regime: Data Acquisition, Modeling and Brain Applications. Flow Compensation and Modeling of IVIM MRI in the Liver and Pancreas. Perfusion Marries Diffusion: Arterial Spin Labeling Prepared IVIM Advanced Methods for IVIM Parameter Estimation. IVIM MRI with Low Perfusion. IVIM Complexity: Synthetic and Physiological.
Introduction to IVIM MRI. Other MRI Approaches to Perfusion Imaging (ASL, DSC, DCE). Clinical Brain IVIM MRI. IVIM MRI: A Window on the Pathophysiology Underlying Cerebral Small Vessel Disease. IVIM fMRI: Brain Activation with High Spatial Specificity and Resolution. IVIM in the Body - General overview. Head and Neck IVIM MRI. IVIM MRI of the Breast. Cardiac IVIM MRI. IVIM MRI and Liver Fibrosis. Assessment of Liver Tumors with Intravoxel Incoherent Motion Diffusion Weighted Imaging. IVIM MRI of the Pancreas. IVIM MRI in the Kidney. IVIM Diffusion Model in Prostate Cancer. Clinical Application of IVIM in Female Pelvis. IVIM MRI of the Placenta. Fetal IVIM MRI. IVIM MRI and Bone Marrow. IVIM Models: Advantages, Disadvantages and Analysis Pitfalls. Flow Compensated IVIM in the Ballistic Regime: Data Acquisition, Modeling and Brain Applications. Flow Compensation and Modeling of IVIM MRI in the Liver and Pancreas. Perfusion Marries Diffusion: Arterial Spin Labeling Prepared IVIM Advanced Methods for IVIM Parameter Estimation. IVIM MRI with Low Perfusion. IVIM Complexity: Synthetic and Physiological.
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