The global structural connectivity of the brain can be explored in vivo with a connectivity matrix derived from diffusion MRI tractography [1]. In such a matrix, M, every index i or j represents a small region of interest (ROI) at the white-gray matter (WGM) interface and every entry M(i,j) provides a measure of connectivity derived from tractography. Once the matrix computed, it is easy to obtain connectional information betwee
In addition to the assessment of local alterations of specific brain regions, the investigation of e...
International audienceIn this paper, we compare a representative selection of current state-of-the-a...
We present a collection of methods that model and interpret information represented in structural ma...
Diffusion MRI-based tractography is the most commonly-used technique when inferring the structural b...
Diffusion MRI-based tractography is the most commonly-used technique when inferring the structural b...
The exploration of the human connectome, a term denoting the global structural connectivity of the b...
Tractography algorithms provide us with the ability to non-invasively reconstruct fiber pathways in ...
This article addresses whether or not diffusion MRI, a noninvasive technique that probes the microst...
Diffusion-weighted magnetic resonance imaging can be used to non-invasively probe the brain microstr...
Diffusion MRI‐based tractography is the most commonly‐used technique when inferring the structural b...
The human brain, one of the most complex structures known, is composed of more than 100 billion neur...
Magnetic resonance imaging (MRI) is a flexible and widely available neuroimaging technique. Structu...
In this paper, we compare a representative selection of current state-of-the-art algorithms in diffu...
By probing direction-dependent diffusivity of water molecules, diffusion MRI has shown its capabilit...
Fiber bundles in the brain may be reconstructed from diffusion magnetic resonance imaging data. Stru...
In addition to the assessment of local alterations of specific brain regions, the investigation of e...
International audienceIn this paper, we compare a representative selection of current state-of-the-a...
We present a collection of methods that model and interpret information represented in structural ma...
Diffusion MRI-based tractography is the most commonly-used technique when inferring the structural b...
Diffusion MRI-based tractography is the most commonly-used technique when inferring the structural b...
The exploration of the human connectome, a term denoting the global structural connectivity of the b...
Tractography algorithms provide us with the ability to non-invasively reconstruct fiber pathways in ...
This article addresses whether or not diffusion MRI, a noninvasive technique that probes the microst...
Diffusion-weighted magnetic resonance imaging can be used to non-invasively probe the brain microstr...
Diffusion MRI‐based tractography is the most commonly‐used technique when inferring the structural b...
The human brain, one of the most complex structures known, is composed of more than 100 billion neur...
Magnetic resonance imaging (MRI) is a flexible and widely available neuroimaging technique. Structu...
In this paper, we compare a representative selection of current state-of-the-art algorithms in diffu...
By probing direction-dependent diffusivity of water molecules, diffusion MRI has shown its capabilit...
Fiber bundles in the brain may be reconstructed from diffusion magnetic resonance imaging data. Stru...
In addition to the assessment of local alterations of specific brain regions, the investigation of e...
International audienceIn this paper, we compare a representative selection of current state-of-the-a...
We present a collection of methods that model and interpret information represented in structural ma...