We picture the brain as a complex network of structurally connected regions that are functionally coupled. Brain functions arise from the coordinated activity of distant cortical regions. Connectivity is used to represent the cooperation of segregated and functionally specialized brain regions. Whether it is the analysis of anatomical links, statistical dependencies, or causal interactions, connectivity reveals fundamental aspects of brain (dys)function. However, estimating and applying connectivity still faces many challenges; therefore, this work is devoted to tackling them. The first challenge stems from the detrimental effect of systematic noise (such as head movements) on connectivity estimates. We proposed an index that depicts connec...
Les aires cérébrales entretiennent des relations fonctionnelles, formant ainsi des réseaux qui peuve...
The brain is a complex network and we know that inter-areal synchronization and de-synchronization m...
The analysis and integration of multimodal data to elucidate the neural processes and networks under...
We picture the brain as a complex network of structurally connected regions that are functionally co...
Nous nous représentons le cerveau comme un réseau complexe de régions structurellement connectées et...
The human brain is a complex network. Cognitive function is guaranteed when the brain dynamically re...
The human brain is a very complex network. Cerebral function therefore does not imply activation of ...
The work presented in this thesis deals with brain connectivity, including structural connectivity, ...
Le cerveau humain est un réseau très complexe. Le fonctionnement cérébral ne résulte donc pas de l'a...
The emerging area of complex networks has led to a paradigm shift in neuroscience. Connectomes estim...
Brain areas are functionally connected in networks, even at rest. Since such connectivity networks c...
The human brain is one of the most complex and fascinating systems in nature. In the last decades, t...
Cerebral functional connectivity can be characterized by the temporal evolution of the correlation b...
Les aires cérébrales entretiennent des relations fonctionnelles, formant ainsi des réseaux qui peuve...
The brain is a complex network and we know that inter-areal synchronization and de-synchronization m...
The analysis and integration of multimodal data to elucidate the neural processes and networks under...
We picture the brain as a complex network of structurally connected regions that are functionally co...
Nous nous représentons le cerveau comme un réseau complexe de régions structurellement connectées et...
The human brain is a complex network. Cognitive function is guaranteed when the brain dynamically re...
The human brain is a very complex network. Cerebral function therefore does not imply activation of ...
The work presented in this thesis deals with brain connectivity, including structural connectivity, ...
Le cerveau humain est un réseau très complexe. Le fonctionnement cérébral ne résulte donc pas de l'a...
The emerging area of complex networks has led to a paradigm shift in neuroscience. Connectomes estim...
Brain areas are functionally connected in networks, even at rest. Since such connectivity networks c...
The human brain is one of the most complex and fascinating systems in nature. In the last decades, t...
Cerebral functional connectivity can be characterized by the temporal evolution of the correlation b...
Les aires cérébrales entretiennent des relations fonctionnelles, formant ainsi des réseaux qui peuve...
The brain is a complex network and we know that inter-areal synchronization and de-synchronization m...
The analysis and integration of multimodal data to elucidate the neural processes and networks under...