FMRI: from nuclear spins to brain functions
Series: Biological magnetic resonancePublication details: Springer, 2015. New York:Description: xviii, 929 p.; pb; 23 cmISBN:- 9781489978721
- 616.804754 ULU
Item type | Current library | Collection | Call number | Copy number | Status | Date due | Barcode |
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IIT Gandhinagar | General | 616.804754 ULU (Browse shelf(Opens below)) | 1 | Available | 029137 |
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616.804754 BEE Introduction to human neuroimaging | 616.804754 FIL Oxford textbook of neuroimaging | 616.804754 OMB Handbook of neuroimaging data analysis | 616.804754 ULU FMRI: from nuclear spins to brain functions | 616.8047547 LUC Introduction to the event-related potential technique, 2nd ed. | 616.8047548 BAN fMRI | 616.8047548 BIJ Introduction to resting state fMRI functional connectivity |
This book explores the revolutionary fMRI field from basic principles to state-of-the-art research. It covers a broad spectrum of topics, including the history of fMRI's development using endogenous MR blood contrast, neurovascular coupling, pulse sequences for fMRI, quantitative fMRI, genetic imaging using fMRI, multimodal neuroimaging, brain bioenergetics and function, and molecular-level fMRI. Comprehensive and intuitively structured, this book examines the physiological basis of fMRI, the basic principles of fMRI and its applications, and the latest advances of the technology. The final chapter discusses the field's future. fMRI: From Nuclear Spins to Brain Function is an ideal resource for clinicians and researchers in the fields of neuroscience, psychology, and MRI physics. This book also: Explores a wide range of topics, covering the physical basics, physiological bases, a selection of various applications, and cutting-edge advances in fMRI Engages the reader with a first-person account of the development and history of the fMRI field by the authors. Discusses fMRI applications in a variety of contexts, including fMRI of the visual system, auditory cortex, and sensorimotor system as well as the history of fMRI's development using endogenous MR blood contrast, neurovascular coupling, pulse sequences for fMRI, and quantitative fMRI .
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