To provide an effective substrate for cognitive processes, functional brain networks should be able to reorganize and coordinate on a sub-second temporal scale. We used magnetoencephalography recordings of spontaneous activity to characterize whole-brain functional connectivity dynamics at high temporal resolution. Using a novel approach that identifies the points in time at which unique patterns of activity recur, we reveal transient (100–200 ms) brain states with spatial topographies similar to those of well-known resting state networks. By assessing temporal changes in the occurrence of these states, we demonstrate that within-network functional connectivity is underpinned by coordinated neuronal dynamics that fluctuate much more rapidly...
<div><p>Spatial patterns of coherent activity across different brain areas have been identified duri...
Widely distributed brain networks display highly coherent activity at rest. In this work, we combin...
Human fMRI studies have identified well-reproducible resting-state networks (RSN) from spontaneous r...
To provide an effective substrate for cognitive processes, functional brain networks should be able ...
Fulltext embargoed for: 6 months post date of publicationNeuronal dynamics display a complex spatiot...
Frequency-specific oscillations and phase-coupling of neuronal populations are essential mechanisms ...
AbstractResting state networks (RSNs) are of fundamental importance in human systems neuroscience wi...
The study of brain dynamics enables us to characterize the time-varying functional connectivity amon...
The human brain is an inherently complex and dynamic system. Even at rest, functional brain networks...
The study of brain dynamics enables us to characterize the time-varying functional connectivity amon...
International audienceThe human brain is an inherently complex and dynamic system. Even at rest, fun...
The characterization of topological architecture of complex brain networks is one of the most challe...
In cognitive neuroscience, focus is commonly placed on associating brain function with changes in ob...
Recent imaging connectomics studies have demonstrated that the spontaneous human brain functional ne...
Spatial patterns of coherent activity across different brain areas have been identified during the r...
<div><p>Spatial patterns of coherent activity across different brain areas have been identified duri...
Widely distributed brain networks display highly coherent activity at rest. In this work, we combin...
Human fMRI studies have identified well-reproducible resting-state networks (RSN) from spontaneous r...
To provide an effective substrate for cognitive processes, functional brain networks should be able ...
Fulltext embargoed for: 6 months post date of publicationNeuronal dynamics display a complex spatiot...
Frequency-specific oscillations and phase-coupling of neuronal populations are essential mechanisms ...
AbstractResting state networks (RSNs) are of fundamental importance in human systems neuroscience wi...
The study of brain dynamics enables us to characterize the time-varying functional connectivity amon...
The human brain is an inherently complex and dynamic system. Even at rest, functional brain networks...
The study of brain dynamics enables us to characterize the time-varying functional connectivity amon...
International audienceThe human brain is an inherently complex and dynamic system. Even at rest, fun...
The characterization of topological architecture of complex brain networks is one of the most challe...
In cognitive neuroscience, focus is commonly placed on associating brain function with changes in ob...
Recent imaging connectomics studies have demonstrated that the spontaneous human brain functional ne...
Spatial patterns of coherent activity across different brain areas have been identified during the r...
<div><p>Spatial patterns of coherent activity across different brain areas have been identified duri...
Widely distributed brain networks display highly coherent activity at rest. In this work, we combin...
Human fMRI studies have identified well-reproducible resting-state networks (RSN) from spontaneous r...