In the human brain, spontaneous activity during resting state consists of rapid transitions between functional network states over time but the underlying mechanisms are not understood. We use connectome based computational brain network modeling to reveal fundamental principles of how the human brain generates large-scale activity observable by noninvasive neuroimaging. We used structural and functional neuroimaging data to construct whole-brain models. With this novel approach, we reveal that the human brain during resting state operates at maximum metastability, i.e. in a state of maximum network switching. In addition, we investigate cortical heterogeneity across areas. Optimization of the spectral characteristics of each local brain re...
Data-driven models drawn from statistical correlations between brain activity and behavior are used ...
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 ...
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 ...
International audienceIn the human brain, spontaneous activity during resting state consists of rapi...
International audienceIn the human brain, spontaneous activity during resting state consists of rapi...
International audienceIn the human brain, spontaneous activity during resting state consists of rapi...
International audienceIn the human brain, spontaneous activity during resting state consists of rapi...
International audienceIn the human brain, spontaneous activity during resting state consists of rapi...
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 ...
Data-driven models drawn from statistical correlations between brain activity and behavior are used ...
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 ...
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 ...
International audienceIn the human brain, spontaneous activity during resting state consists of rapi...
International audienceIn the human brain, spontaneous activity during resting state consists of rapi...
International audienceIn the human brain, spontaneous activity during resting state consists of rapi...
International audienceIn the human brain, spontaneous activity during resting state consists of rapi...
International audienceIn the human brain, spontaneous activity during resting state consists of rapi...
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 ...
Data-driven models drawn from statistical correlations between brain activity and behavior are used ...
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...