The human brain is functionally organized into large-scale neural networks that are dynamically interconnected. Multiple short-lived states of resting-state functional connectivity (rsFC) identified transiently synchronized networks and cross-network integration. However, little is known about the way brain couplings covary as rsFC states wax and wane. In this magnetoencephalography study, we explore the synchronization structure among the spontaneous interactions of well-known resting-state networks (RSNs). To do so, we extracted modes of dynamic coupling that reflect rsFC synchrony and analyzed their spatio-temporal features. These modes identified transient, sporadic rsFC changes characterized by the widespread integration of RSNs across...
AbstractSpontaneous (or resting-state) brain activity has attracted a growing body of neuroimaging r...
AbstractResting state networks (RSNs) are of fundamental importance in human systems neuroscience wi...
In the human brain, spontaneous activity during resting state consists of rapid transitions between ...
Available online 3 June 2019.The human brain is functionally organized into large-scale neural netwo...
Spatial patterns of coherent activity across different brain areas have been identified during the r...
Spatial patterns of coherent activity across different brain areas have been identified during the r...
Spontaneous brain activity is spatially and temporally organized in the absence of any stimulation o...
The human brain is a hierarchical complex network − always active and evolvingdynamically. Its...
What dynamic processes underly functional brain networks? Functional connectivity (FC) and functiona...
Widely distributed brain networks display highly coherent activity at rest. In this work, we combin...
It is widely recognised that different brain areas perform different specialised functions. However,...
Phase synchronization of neuronal oscillations in specific frequency bands coordinates anatomically ...
In the human brain, spontaneous activity during resting state consists of rapid transitions between ...
Frequency-specific oscillations and phase-coupling of neuronal populations are essential mechanisms ...
International audienceIn the human brain, spontaneous activity during resting state consists of rapi...
AbstractSpontaneous (or resting-state) brain activity has attracted a growing body of neuroimaging r...
AbstractResting state networks (RSNs) are of fundamental importance in human systems neuroscience wi...
In the human brain, spontaneous activity during resting state consists of rapid transitions between ...
Available online 3 June 2019.The human brain is functionally organized into large-scale neural netwo...
Spatial patterns of coherent activity across different brain areas have been identified during the r...
Spatial patterns of coherent activity across different brain areas have been identified during the r...
Spontaneous brain activity is spatially and temporally organized in the absence of any stimulation o...
The human brain is a hierarchical complex network − always active and evolvingdynamically. Its...
What dynamic processes underly functional brain networks? Functional connectivity (FC) and functiona...
Widely distributed brain networks display highly coherent activity at rest. In this work, we combin...
It is widely recognised that different brain areas perform different specialised functions. However,...
Phase synchronization of neuronal oscillations in specific frequency bands coordinates anatomically ...
In the human brain, spontaneous activity during resting state consists of rapid transitions between ...
Frequency-specific oscillations and phase-coupling of neuronal populations are essential mechanisms ...
International audienceIn the human brain, spontaneous activity during resting state consists of rapi...
AbstractSpontaneous (or resting-state) brain activity has attracted a growing body of neuroimaging r...
AbstractResting state networks (RSNs) are of fundamental importance in human systems neuroscience wi...
In the human brain, spontaneous activity during resting state consists of rapid transitions between ...