Description
Part I Background 1 Principles of Multimodal Functional Imaging and Data Integration 2 EEG: Origin and Measurement 3 The Basics of Functional Magnetic Resonance Imaging 4 Locally Measured Neuronal Correlates of Functional MRI Signals 5 What Can fMRI Add to the ERP Story? 6 The Added Value of EEG-fMRI in Imaging Neuroscience Part II Technical and Methodological Aspects of Combined EEG-fMRI Experiments 7 EEG Instrumentation and Safety 8 EEG Quality: Origin and Reduction of the EEG Cardiac-Related Artefact 9 EEG Quality: The Image Acquisition Artefact 10 Image Quality Issues 11 Specific Issues Related to EEG-fMRI at B0 7 T and above 12 Experimental Design and Data Analysis Strategies 13 Real-time fMRI with EEG 14 Brain stimulation with multimodal acquisitions Part III Applications of EEG-fMRI : Resting State 15 Brain Rhythms 16 Sleep Part IV Applications of EEG-fMRI : Resting State: Clinical Applications 17 EEG-fMRI in Adults with Focal Epilepsy 18 EEG-fMRI in Idiopathic Generalised Epilepsy (Adults) 19 EEG-fMRI in Children with Epilepsy 20 EEG-fMRI in Psychiatric Disorders Part V Applications of EEG-fMRI : Resting State: Activation Studies 21 Combining EEG and fMRI in Pain Research 22 Simultaneous EEG and fMRI of the Human Part VI Applications of EEG-fMRI : Resting State: Auditory System 23 Visual System 24 Cognition Part VI Applications of EEG-fMRI : Resting State: Special Topics 25 Neuronal Models for EEG-fMRI Integration 26 BOLD Response and EEG Gamma Oscillations 27 EEG-fMRI in Animal Models 28 EEG-fMRI Information Fusion: Biophysics and Data Analysis 29 EEG-fMRI and brain connectivity (data fusion and modelling) 30 EEG-fMRI Information Fusion: Empirical approaches Outlook
