International audienceThe recovery of microstructure-related features of the brain's white matter is a current challenge in diffusion MRI.To robustly estimate these important features from multi-shell diffusion MRI data, we propose to analytically regularize the coefficient estimation of the Mean Apparent Propagator (MAP)-MRI method using the norm of the Laplacian of the reconstructed signal.We first compare our approach, which we call MAPL, with competing, state-of-the-art functional basis approaches.We show that it outperforms the original MAP-MRI implementation and the recently proposed modified Spherical Polar Fourier (mSPF) basis with respect to signal fitting and reconstruction of the Ensemble Average Propagator (EAP) and Orientation ...
At the typical spatial resolution of MRI in the human brain, approximately 60–90% of voxels contain ...
While diffusion MRI promises an insight into white matter microstructure in vivo, the axonal pathwa...
The research presented in this thesis models the diffusion-weighted MRI signal within brain white ma...
International audienceThe recovery of microstructure-related features of the brain's white matter is...
International audienceIn diffusion MRI, the accurate description of the entire diffusion signal from...
International audienceIn diffusion MRI, the reconstructed Ensemble Average Propagator (EAP) from the...
International audienceWe propose a novel method to simultaneously trace brain white matter (WM) fasc...
Diffusion-weighted MRI (DW-MRI) is a powerful in vivo imaging technique that is particularly sensiti...
International audienceIntroduction: Diffusion-weighted (DW) magnetic resonance imaging (MRI) tractog...
Tissue microstructure features, namely axon radius and volume fraction, provide important informatio...
PURPOSE: Diffusion MRI has recently been used with detailed models to probe tissue microstructure. M...
AbstractAxonal density and diameter are two fundamental properties of brain white matter. Recently, ...
International audienceWe propose a novel framework to simultaneously represent the diffusion-weighte...
Diffusion MRI techniques are used widely to study the characteristics of the human brain connectome ...
Axonal density and diameter are two fundamental properties of brain white matter. Recently, advanced...
At the typical spatial resolution of MRI in the human brain, approximately 60–90% of voxels contain ...
While diffusion MRI promises an insight into white matter microstructure in vivo, the axonal pathwa...
The research presented in this thesis models the diffusion-weighted MRI signal within brain white ma...
International audienceThe recovery of microstructure-related features of the brain's white matter is...
International audienceIn diffusion MRI, the accurate description of the entire diffusion signal from...
International audienceIn diffusion MRI, the reconstructed Ensemble Average Propagator (EAP) from the...
International audienceWe propose a novel method to simultaneously trace brain white matter (WM) fasc...
Diffusion-weighted MRI (DW-MRI) is a powerful in vivo imaging technique that is particularly sensiti...
International audienceIntroduction: Diffusion-weighted (DW) magnetic resonance imaging (MRI) tractog...
Tissue microstructure features, namely axon radius and volume fraction, provide important informatio...
PURPOSE: Diffusion MRI has recently been used with detailed models to probe tissue microstructure. M...
AbstractAxonal density and diameter are two fundamental properties of brain white matter. Recently, ...
International audienceWe propose a novel framework to simultaneously represent the diffusion-weighte...
Diffusion MRI techniques are used widely to study the characteristics of the human brain connectome ...
Axonal density and diameter are two fundamental properties of brain white matter. Recently, advanced...
At the typical spatial resolution of MRI in the human brain, approximately 60–90% of voxels contain ...
While diffusion MRI promises an insight into white matter microstructure in vivo, the axonal pathwa...
The research presented in this thesis models the diffusion-weighted MRI signal within brain white ma...