Essentials of Functional MRI is explained from the basic theory underlying magnetic resonance imaging. This includes how it can be used to detect dynamic variations in neural activity to become “functional” MRI, and how fMRI can be used for a variety of applications. The reader will gain an understanding of how fMRI is currently used, its limitations, and how it is still developing. This is achieved by explaining the core concepts and building on them to explain how fMRI data are acquired and what physiological information they provide. These ideas are the key to understanding how the data are analyzed to detect physiological changes that are related to neural activity. With an understanding of the basic underlying concepts, the way that fMRI is used, and its limitations, are much easier to understand. This 2nd edition includes explanations of new advances in MRI techniques and fMRI data analysis methods, and updated examples of applications of fMRI, including current or future clinical applications. This book is intended for students, researchers, and clinicians, who want to understand the theory and practice of fMRI in sufficient detail to use it for neuroscience research, clinical research, and for clinical practice.
Essentials of Functional MRI is explained from the basic theory underlying magnetic resonance imaging. This includes how it can be used to detect dynamic variations in neural activity to become “functional” MRI, and how fMRI can be used for a variety of applications.
1.Introduction. 2.Basic Concepts. 3.Source of the MR Signal and its Properties. 4.The Fundamental Building Blocks of MR Imaging Methods: Spin-Echoes and Gradient-Echoes. 5.Creating an Image from the MR Signal. 6.Principles and Practice of Functional MRI. 7.Functional MRI Study Design. 8.Functional MRI Data Analysis. 9.Clinical Applications of Functional MRI. 10.Glossary of Terms.
Patrick. W. Stroman, born in Lethbridge, Alberta, completed a B.Sc. Honours in Physics at the University of Victoria, and then a PhD in Applied Sciences in Medicine, with a focus on magnetic resonance imaging, at the University of Alberta. After 4 years as a Post-Doctoral Fellow at the Quebec Biomaterials Institute, Laval University, he took a position as a Research Officer at the Institute for Biodiagnostics (IBD), National Research Council of Canada. While at the IBD, he began developing functional magnetic resonance imaging (fMRI) of the spinal cord (spinal fMRI). In 2004 he joined the Centre for Neuroscience Studies, with cross appointments in the Departments of Physics and Diagnostic Radiology and became the Director of the new Queens MRI Facility. He held a Canada Research Chair in Imaging Physics (2004-2014). He is now a professor and leads a research program that remains focused on the development of spinal cord and brainstem fMRI as a tool for clinical assessments and pain research.
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