Abstract. In this paper, we compare a representative selection of current state-of-the-art algorithms in diffusion-weighted magnetic resonance imaging (dwMRI) tractography, and propose a novel way to quantitatively define the connectivity between brain regions. As criterion for the comparison, we quantify the connectivity computed with the different methods. We provide initial results using diffusion tensor, spherical deconvolution, ball-and-stick model, and persistent angular structure (PAS) along with deterministic and probabilistic tractography algorithms on a human DWI dataset. The connectivity is presented for a representative selection of regions in the brain in matrices and connectograms.Our results show that fiber crossing models ar...
Diffusion MRI-based tractography is the most commonly-used technique when inferring the structural b...
Diffusion-Weighted Magnetic Resonance Imaging (DW-MRI) on the brain is a revolutionary method that p...
Tractography algorithms provide us with the ability to non-invasively reconstruct fiber pathways in ...
International audienceIn this paper, we compare a representative selection of current state-of-the-a...
In this paper, we compare a representative selection of current state-of-the-art algorithms in diffu...
The study of anatomical connectivity is essential for interpreting functional MRI data, and establis...
Diffusion magnetic resonance imaging (dmri) is a technique that can be used to examine the diffusion...
Diffusion-weighted (DW) magnetic resonance imaging allows the quantification of water diffusion with...
Diffusion-weighted magnetic resonance imaging can be used to non-invasively probe the brain microstr...
Models of whole-brain connectivity are valuable for understanding neurological function. This thesis...
Diffusion MRI has evolved towards an important clinical diagnostic and research tool. Though clinica...
Several approaches have been used to trace axonal trajectories from diffusion MRI data. If such tech...
A new approach for quantifying the degree of connectivity between human brain regions from Diffusion...
Diffusion magnetic resonance imaging (dMRI) has had a great impact on the study of the human brain c...
Diffusion-weighted (DW) magnetic resonance imaging is the only non-invasive and in-vivo method avail...
Diffusion MRI-based tractography is the most commonly-used technique when inferring the structural b...
Diffusion-Weighted Magnetic Resonance Imaging (DW-MRI) on the brain is a revolutionary method that p...
Tractography algorithms provide us with the ability to non-invasively reconstruct fiber pathways in ...
International audienceIn this paper, we compare a representative selection of current state-of-the-a...
In this paper, we compare a representative selection of current state-of-the-art algorithms in diffu...
The study of anatomical connectivity is essential for interpreting functional MRI data, and establis...
Diffusion magnetic resonance imaging (dmri) is a technique that can be used to examine the diffusion...
Diffusion-weighted (DW) magnetic resonance imaging allows the quantification of water diffusion with...
Diffusion-weighted magnetic resonance imaging can be used to non-invasively probe the brain microstr...
Models of whole-brain connectivity are valuable for understanding neurological function. This thesis...
Diffusion MRI has evolved towards an important clinical diagnostic and research tool. Though clinica...
Several approaches have been used to trace axonal trajectories from diffusion MRI data. If such tech...
A new approach for quantifying the degree of connectivity between human brain regions from Diffusion...
Diffusion magnetic resonance imaging (dMRI) has had a great impact on the study of the human brain c...
Diffusion-weighted (DW) magnetic resonance imaging is the only non-invasive and in-vivo method avail...
Diffusion MRI-based tractography is the most commonly-used technique when inferring the structural b...
Diffusion-Weighted Magnetic Resonance Imaging (DW-MRI) on the brain is a revolutionary method that p...
Tractography algorithms provide us with the ability to non-invasively reconstruct fiber pathways in ...