International audienceSpontaneously fluctuating brain activity patterns that emerge at rest have been linked to brain's health and cognition. Despite detailed descriptions of the spatio-temporal brain patterns, our understanding of their generative mechanism is still incomplete. Using a combination of computational modeling and dynamical systems analysis we provide a mechanistic description of the formation of a resting state manifold via the network connectivity. We demonstrate that the symmetry breaking by the connectivity creates a characteristic flow on the manifold, which produces the major data features across scales and imaging modalities. These include spontaneous high amplitude co-activations, neuronal cascades, spectral cortical g...
In the absence of external stimuli, neural activity continuously evolves from one configuration to a...
The characterization of topological architecture of complex brain networks is one of the most challe...
AbstractThis paper examines intrinsic brain networks in light of recent developments in the characte...
International audienceIn the human brain, spontaneous activity during resting state consists of rapi...
In the human brain, spontaneous activity during resting state consists of rapid transitions between ...
In the human brain, spontaneous activity during resting state consists of rapid transitions between ...
In the human brain, spontaneous activity during resting state consists of rapid transitions between ...
In the human brain, spontaneous activity during resting state consists of rapid transitions between ...
Since the mid 1990s, the intriguing dynamics of the brain at rest has been attracting a growing body...
Since the mid 1990s, the intriguing dynamics of the brain at rest has been attracting a growing body...
In the human brain, spontaneous activity during resting state consists of rapid transitions between ...
Brain fluctuations at rest are not random but are structured in spatial patterns of correlated activ...
In the human brain, spontaneous activity during resting state consists of rapid transitions between ...
Brain fluctuations at rest are not random but are structured in spatial patterns of correlated activ...
International audienceAt rest, mammalian brains display remarkable spatiotemporal complexity, evolvi...
In the absence of external stimuli, neural activity continuously evolves from one configuration to a...
The characterization of topological architecture of complex brain networks is one of the most challe...
AbstractThis paper examines intrinsic brain networks in light of recent developments in the characte...
International audienceIn the human brain, spontaneous activity during resting state consists of rapi...
In the human brain, spontaneous activity during resting state consists of rapid transitions between ...
In the human brain, spontaneous activity during resting state consists of rapid transitions between ...
In the human brain, spontaneous activity during resting state consists of rapid transitions between ...
In the human brain, spontaneous activity during resting state consists of rapid transitions between ...
Since the mid 1990s, the intriguing dynamics of the brain at rest has been attracting a growing body...
Since the mid 1990s, the intriguing dynamics of the brain at rest has been attracting a growing body...
In the human brain, spontaneous activity during resting state consists of rapid transitions between ...
Brain fluctuations at rest are not random but are structured in spatial patterns of correlated activ...
In the human brain, spontaneous activity during resting state consists of rapid transitions between ...
Brain fluctuations at rest are not random but are structured in spatial patterns of correlated activ...
International audienceAt rest, mammalian brains display remarkable spatiotemporal complexity, evolvi...
In the absence of external stimuli, neural activity continuously evolves from one configuration to a...
The characterization of topological architecture of complex brain networks is one of the most challe...
AbstractThis paper examines intrinsic brain networks in light of recent developments in the characte...