An important aspect of neuroscience is to characterize the underlying connectivity patterns of the human brain (i.e., human connectomics). Over the past few years, researchers have demonstrated that by combining a variety of different neuroimaging technologies (e.g., structural MRI, diffusion MRI and functional MRI) with sophisticated analytic strategies such as graph theory, it is possible to noninvasively map the patterns of structural and functional connectivity of human whole-brain networks. With these novel approaches, many studies have shown that human brain networks have nonrandom properties such as modularity, small-worldness and highly connected hubs. Importantly, these quantifiable network properties change with age, learning and ...
The human brain, one of the most complex structures known, is composed of more than 100 billion neur...
Contains fulltext : 220661.pdf (Publisher’s version ) (Closed access)This manuscri...
It is well known that most brain disorders are complex diseases, such as Alzheimer’s disease (AD) an...
0968-5243 (Electronic) 0968-5243 (Linking) Journal articleGraph theoretical analysis of structural a...
Network-based analysis of structural and functional connections has provided a new technique to stud...
Brain connectomics research has rapidly expanded using functional MRI (fMRI) and diffusion-weighted ...
Brain connectomics research has rapidly expanded using functional MRI (fMRI) and diffusion-weighted ...
Imaging the connectome in vivo has become feasible through the integration of several rapidly develo...
Imaging the connectome in vivo has become feasible through the integration of several rapidly develo...
The human brain is a system of neurons that provides great computational capacity via a complicated ...
Recent advances in non-invasive neuroimaging have enabled the measurement of connections between dis...
International audiencePurpose of reviewDiffusion tractography and functional/effective connectivity ...
MEG and fMRI offer complementary insights into connected human brain function. Evidence from the use...
Our brain is a network. It consists of spatially distributed, but functionally linked regions that c...
Objective: Recent studies have shown that complex networks along with diffusion weighted imaging (DW...
The human brain, one of the most complex structures known, is composed of more than 100 billion neur...
Contains fulltext : 220661.pdf (Publisher’s version ) (Closed access)This manuscri...
It is well known that most brain disorders are complex diseases, such as Alzheimer’s disease (AD) an...
0968-5243 (Electronic) 0968-5243 (Linking) Journal articleGraph theoretical analysis of structural a...
Network-based analysis of structural and functional connections has provided a new technique to stud...
Brain connectomics research has rapidly expanded using functional MRI (fMRI) and diffusion-weighted ...
Brain connectomics research has rapidly expanded using functional MRI (fMRI) and diffusion-weighted ...
Imaging the connectome in vivo has become feasible through the integration of several rapidly develo...
Imaging the connectome in vivo has become feasible through the integration of several rapidly develo...
The human brain is a system of neurons that provides great computational capacity via a complicated ...
Recent advances in non-invasive neuroimaging have enabled the measurement of connections between dis...
International audiencePurpose of reviewDiffusion tractography and functional/effective connectivity ...
MEG and fMRI offer complementary insights into connected human brain function. Evidence from the use...
Our brain is a network. It consists of spatially distributed, but functionally linked regions that c...
Objective: Recent studies have shown that complex networks along with diffusion weighted imaging (DW...
The human brain, one of the most complex structures known, is composed of more than 100 billion neur...
Contains fulltext : 220661.pdf (Publisher’s version ) (Closed access)This manuscri...
It is well known that most brain disorders are complex diseases, such as Alzheimer’s disease (AD) an...