<p>Understanding the electrophysiological basis of resting state networks (RSNs) in the human brain is a critical step towards elucidating how inter-areal connectivity supports healthy brain function. In recent years, the relationship between RSNs (typically measured using haemodynamic signals) and electrophysiology has been explored using functional Magnetic Resonance Imaging (fMRI) and magnetoencephalography (MEG). Significant progress has been made, with similar spatial structure observable in both modalities. However, there is a pressing need to understand this relationship beyond simple visual similarity of RSN patterns. Here, we introduce a mathematical model to predict fMRI-based RSNs using MEG. Our unique model, based upon a multiva...
Background: fMRI Resting State Networks (RSNs) have gained importance in the present fMRI literature...
Phase synchronization of neuronal oscillations in specific frequency bands coordinates anatomically ...
Phase synchronization of neuronal oscillations in specific frequency bands coordinates anatomically ...
AbstractUnderstanding the electrophysiological basis of resting state networks (RSNs) in the human b...
Understanding the electrophysiological basis of resting state networks (RSNs) in the human brain is ...
Functional magnetic resonance imaging studies have documented the resting human brain to be function...
Functional magnetic resonance imaging studies have documented the resting human brain to be function...
Neuronal oscillations exist across a broad frequency spectrum, and are thought to provide a mechanis...
Neuronal oscillations exist across a broad frequency spectrum, and are thought to provide a mechanis...
In recent years the study of resting state brain networks (RSNs) has become an important area of neu...
Hemodynamic fluctuations in the default mode network (DMN), observed through functional magnetic res...
Functional neuroimaging and electrophysiological studies have documented a dynamic baseline of intri...
Whole brain functional connectomes hold promise for understanding human brain activity across a rang...
Brain oscillations and synchronicity among brain regions (brain connectivity) have been studied in r...
Functional neuroimaging and electrophysiological studies have documented a dynamic baseline of intri...
Background: fMRI Resting State Networks (RSNs) have gained importance in the present fMRI literature...
Phase synchronization of neuronal oscillations in specific frequency bands coordinates anatomically ...
Phase synchronization of neuronal oscillations in specific frequency bands coordinates anatomically ...
AbstractUnderstanding the electrophysiological basis of resting state networks (RSNs) in the human b...
Understanding the electrophysiological basis of resting state networks (RSNs) in the human brain is ...
Functional magnetic resonance imaging studies have documented the resting human brain to be function...
Functional magnetic resonance imaging studies have documented the resting human brain to be function...
Neuronal oscillations exist across a broad frequency spectrum, and are thought to provide a mechanis...
Neuronal oscillations exist across a broad frequency spectrum, and are thought to provide a mechanis...
In recent years the study of resting state brain networks (RSNs) has become an important area of neu...
Hemodynamic fluctuations in the default mode network (DMN), observed through functional magnetic res...
Functional neuroimaging and electrophysiological studies have documented a dynamic baseline of intri...
Whole brain functional connectomes hold promise for understanding human brain activity across a rang...
Brain oscillations and synchronicity among brain regions (brain connectivity) have been studied in r...
Functional neuroimaging and electrophysiological studies have documented a dynamic baseline of intri...
Background: fMRI Resting State Networks (RSNs) have gained importance in the present fMRI literature...
Phase synchronization of neuronal oscillations in specific frequency bands coordinates anatomically ...
Phase synchronization of neuronal oscillations in specific frequency bands coordinates anatomically ...