Quantitative modeling and analysis of structural and functional brain networks based on diffusion tensor imaging (DTI) and functional MRI (fMRI) data have received extensive interest recently. However, the regularity of these structural and functional brain networks across multiple neuroimaging modalities and also across different individuals is largely unknown. This paper presents a novel approach to inferring group-wise consistent brain sub-networks from multimodal DTI/resting-state fMRI datasets via multi-view spectral clustering of cortical networks, which were constructed upon our recently developed and validated large-scale cortical landmarks - DICCCOL (Dense Individualized and Common Connectivity-based Cortical Landmarks). We applied...
Many recent scientific efforts have been devoted to constructing the human connectome using Diffusio...
Advances in neuroimaging techniques have made it possible to access intricate details on brain funct...
The human brain is a highly complex organ that integrates functionally specialised subunits. Underpi...
Quantitative modeling and analysis of structural and functional brain networks based on diffusion te...
Mapping human brain networks provides a basis for studying brain function and dysfunction, and thus ...
Brain network modularity analysis has attracted increasing interest due to its capability in measuri...
While graph theoretical modeling has dramatically advanced our understanding of complex brain system...
Functional networks, which typically describe patterns of activity taking place across the cerebral ...
International audienceFunctional Magnetic Resonance Imaging (fMRI) studies map the human brain by te...
Is there a common structural and functional cortical architecture that can be quantitatively encoded...
Due to the difficulties in establishing correspondences between functional regions across individual...
Resting-state functional connectivity is an important and widely used measure of individual and grou...
Background: While several research methods were developed to estimate individual-based representatio...
In the past decades, neuroimaging of humans has gained a position of status within neuroscience, and...
In this paper, a high-dimensional pattern classification framework, based on functional associations...
Many recent scientific efforts have been devoted to constructing the human connectome using Diffusio...
Advances in neuroimaging techniques have made it possible to access intricate details on brain funct...
The human brain is a highly complex organ that integrates functionally specialised subunits. Underpi...
Quantitative modeling and analysis of structural and functional brain networks based on diffusion te...
Mapping human brain networks provides a basis for studying brain function and dysfunction, and thus ...
Brain network modularity analysis has attracted increasing interest due to its capability in measuri...
While graph theoretical modeling has dramatically advanced our understanding of complex brain system...
Functional networks, which typically describe patterns of activity taking place across the cerebral ...
International audienceFunctional Magnetic Resonance Imaging (fMRI) studies map the human brain by te...
Is there a common structural and functional cortical architecture that can be quantitatively encoded...
Due to the difficulties in establishing correspondences between functional regions across individual...
Resting-state functional connectivity is an important and widely used measure of individual and grou...
Background: While several research methods were developed to estimate individual-based representatio...
In the past decades, neuroimaging of humans has gained a position of status within neuroscience, and...
In this paper, a high-dimensional pattern classification framework, based on functional associations...
Many recent scientific efforts have been devoted to constructing the human connectome using Diffusio...
Advances in neuroimaging techniques have made it possible to access intricate details on brain funct...
The human brain is a highly complex organ that integrates functionally specialised subunits. Underpi...