Add to ORKGThe characterization of topological architecture of complex brain networks is one of the most challenging issues in neuroscience. Slow (,0.1 Hz), spontaneous fluctuations of the blood oxygen level dependent (BOLD) signal in functional magnetic resonance imaging are thought to be potentially important for the reflection of spontaneous neuronal activity. Many studies have shown that these fluctuations are highly coherent within anatomically or functionally linked areas of the brain. However, the underlying topological mechanisms responsible for these coherent intrinsic or spontaneous fluctuations are still poorly understood. Here, we apply modern network analysis techniques to investigate how spontaneous neuronal activities in the human brain...
Exploring topological properties of human brain network has become an exciting topic in neuroscience...
Functional brain signals are frequently decomposed into a relatively small set of large scale, distr...
International audienceThe human brain is a dynamic modular network that can be decomposed into a set...
The characterization of topological architecture of complex brain networks is one of the most challe...
During performance of attention-demanding cognitive tasks, certain regions of the brain routinely in...
Recent imaging connectomics studies have demonstrated that the spontaneous human brain functional ne...
The intrinsic organizational structure of the brain is reflected in spontaneous brain oscillations. ...
Scale-free neuronal dynamics and interareal correlations are emergent characteristics of spontaneous...
none5We study fNMRI signals of spontaneous neural activity in human brain, with a time resolution of...
The resting blood oxygen level-dependent (BOLD) signal is synchronized in large-scale brain networks...
To provide an effective substrate for cognitive processes, functional brain networks should be able ...
Resting-state functional magnetic resonance imaging has become a powerful tool for the study of func...
Neural activity in mammalian brains exhibits large spontaneous fluctuations whose structure reveals ...
Recent imaging connectome studies demonstrated that the human functional brain network follows an ef...
Brain function has traditionally been studied in terms of physiological responses to environmental d...
Exploring topological properties of human brain network has become an exciting topic in neuroscience...
Functional brain signals are frequently decomposed into a relatively small set of large scale, distr...
International audienceThe human brain is a dynamic modular network that can be decomposed into a set...
The characterization of topological architecture of complex brain networks is one of the most challe...
During performance of attention-demanding cognitive tasks, certain regions of the brain routinely in...
Recent imaging connectomics studies have demonstrated that the spontaneous human brain functional ne...
The intrinsic organizational structure of the brain is reflected in spontaneous brain oscillations. ...
Scale-free neuronal dynamics and interareal correlations are emergent characteristics of spontaneous...
none5We study fNMRI signals of spontaneous neural activity in human brain, with a time resolution of...
The resting blood oxygen level-dependent (BOLD) signal is synchronized in large-scale brain networks...
To provide an effective substrate for cognitive processes, functional brain networks should be able ...
Resting-state functional magnetic resonance imaging has become a powerful tool for the study of func...
Neural activity in mammalian brains exhibits large spontaneous fluctuations whose structure reveals ...
Recent imaging connectome studies demonstrated that the human functional brain network follows an ef...
Brain function has traditionally been studied in terms of physiological responses to environmental d...
Exploring topological properties of human brain network has become an exciting topic in neuroscience...
Functional brain signals are frequently decomposed into a relatively small set of large scale, distr...
International audienceThe human brain is a dynamic modular network that can be decomposed into a set...