Understanding brain function in terms of connectional architecture is a major goal of neuroimaging. However, direct investigation of the influence of brain circuitry on function has been hindered by the lack of a technique for exploring anatomical connectivity in the in vivo brain. Recent advances in magnetic resonance diffusion imaging have given scientists access to data relating to local white matter architecture and, for the first time, have raised the possibility of in vivo investigations into brain circuitry. This review investigates whether diffusion imaging may be used to identify regions of grey matter that are distinct in their connectional architecture, and whether these connectional differences are reflected either in local cyto...
By probing direction-dependent diffusivity of water molecules, diffusion MRI has shown its capabilit...
The identification of specialized, functional regions of the human cortex is a vital precondition fo...
International audienceIn this paper, we review the state of the art in diffusion magnetic resonance ...
This article addresses whether or not diffusion MRI, a noninvasive technique that probes the microst...
<p>The study of complex computational systems is facilitated by network maps, such as circuit diagra...
The study of anatomical connectivity is essential for interpreting functional MRI data, and establis...
The structural architecture and the anatomical connectivity of the human brain show different organi...
The structural architecture and the anatomical connectivity of the human brain show different organi...
This article examines functional and anatomical connectivity in healthy human subjects measured with...
The anatomical connections of a brain area constrain the information it receives and the influence i...
Diffusion imaging can be used to estimate the routes taken by fiber pathways connecting different re...
A fundamental and largely unanswered question in neuroscience is whether extrinsic connectivity and ...
In this thesis data acquired using diffusion-weighted imaging were analysed to study the anatomical ...
International audienceCortical area parcellation is a challenging problem that is often approached b...
Evidence concerning anatomical connectivities in the human brain is sparse and based largely on limi...
By probing direction-dependent diffusivity of water molecules, diffusion MRI has shown its capabilit...
The identification of specialized, functional regions of the human cortex is a vital precondition fo...
International audienceIn this paper, we review the state of the art in diffusion magnetic resonance ...
This article addresses whether or not diffusion MRI, a noninvasive technique that probes the microst...
<p>The study of complex computational systems is facilitated by network maps, such as circuit diagra...
The study of anatomical connectivity is essential for interpreting functional MRI data, and establis...
The structural architecture and the anatomical connectivity of the human brain show different organi...
The structural architecture and the anatomical connectivity of the human brain show different organi...
This article examines functional and anatomical connectivity in healthy human subjects measured with...
The anatomical connections of a brain area constrain the information it receives and the influence i...
Diffusion imaging can be used to estimate the routes taken by fiber pathways connecting different re...
A fundamental and largely unanswered question in neuroscience is whether extrinsic connectivity and ...
In this thesis data acquired using diffusion-weighted imaging were analysed to study the anatomical ...
International audienceCortical area parcellation is a challenging problem that is often approached b...
Evidence concerning anatomical connectivities in the human brain is sparse and based largely on limi...
By probing direction-dependent diffusivity of water molecules, diffusion MRI has shown its capabilit...
The identification of specialized, functional regions of the human cortex is a vital precondition fo...
International audienceIn this paper, we review the state of the art in diffusion magnetic resonance ...