Biophysics of Brain Imaging: Modeling Observations and Microscopic Phenomena
Language: English
AD Electrophysiology Medical Imaging This book takes a multiscale overview and theoretical framework for all existing brain imaging modalities. It also presents technological development for data fusion and underlying biophysical models. The book also provides problems and exercises useful for undergraduate and graduate courses.Biophysics of Brain Imaging is broken up into 3 parts. Part 1: Modeling Observations and Microscopic Phenomena provides the physical and physiological foundation of all brain imaging modalities. Part 2 (Edited): Measuring and Modeling Emergent Mesoscopic Phenomena examines recording techniques and biophysical models used today to represent the mesoscale of the brain and Brain Data Analysis and Modeling courses.Figure slides are available to adopting professors. and migraine.This book is intended for undergraduate and graduate level students in Computational Neuroscience e.g. epilepsy impulse response function (IRF) Radon Transform; Morphometric analysis EEG and MEG; Astrocyte Positron emission tomography (PET); Fluorescent microscopy; Single photon emission tomography (SPECT); Cytoarchitectonic analysis; NMR techniques; MR spectroscopy the voxel. Part 3: Hypothesis Testing and Applications discusses methods to analyze brain imaging data and their applications to evaluate signatures in a variety of diseases
Publisher: CRC Press
Published: Aug 15, 2026
Description:
This book takes a multiscale overview and theoretical framework for all existing brain imaging modalities. It also presents technological development for data fusion and underlying biophysical models. The book also provides problems and exercises useful for undergraduate and graduate courses.Biophysics of Brain Imaging is broken up into 3 parts. Part 1: Modeling Observations and Microscopic Phenomena provides the physical and physiological foundation of all brain imaging modalities. Part 2 (Edited): Measuring and Modeling Emergent Mesoscopic Phenomena examines recording techniques and biophysical models used today to represent the mesoscale of the brain, the voxel. Part 3: Hypothesis Testing and Applications discusses methods to analyze brain imaging data and their applications to evaluate signatures in a variety of diseases, e.g., epilepsy, AD, and migraine.This book is intended for undergraduate and graduate level students in Computational Neuroscience, Medical Imaging, Electrophysiology, and Brain Data Analysis and Modeling courses.Figure slides are available to adopting professors.