Add to ORKGWhite-matter pathologies disrupt the white-matter organization, that manifests as deficits in brain function. When treating such pathologies, it is of great importance to infer which pathways are affected. However, the white-matter lesions hamper the use of tractography to track fiber bundles. In this work, leveraging diffusion imaging, we propose a novel diffusion-driven technique to improve the localization of brain pathways. Aggregating information from few healthy subjects, our technique is able to localize both the affected pathways and the lesion interrupting when tracking is not possible
The identification of specialized, functional regions of the human cortex is a vital precondition fo...
To understand factors that affect brain connectivity and integrity, it is beneficial to automaticall...
We present a new technique for noninvasively tracing brain white matter fiber tracts using diffusion...
Inferring which pathways are affected by a brain lesion is key for both pre and post-treatment plann...
Abstract: Diffusion tensor MRI provides unique directional diffusion information that can be used to...
Brain fiber tracking is a very challenging issue as we need to solve a difficult inverse problem i.e...
International audienceWhite matter pathologies such as tumors or traumatic brain injury disrupt the ...
This thesis presents the design and validation of a method for digitally reconstructing white matte...
The ability of fiber tractography to delineate non-invasively the white matter fiber pathways of the...
International audienceWhite matter (WM) fiber bundles of the brain can be delineated by diffusion tr...
We introduce a method for combining fiber tracking from diffusion-tensor (DT) imaging with cortical ...
This abstract reported our recent progress in white matter fiber tractography based on diffusion spe...
© 2011 Dr. Thomas G. CloseWhite matter is the collection of long-range axons connecting disparate re...
In vivo white matter tractography by diffusion tensor imaging (DTI) has become a popular tool for in...
To understand factors that affect brain connectivity and integrity, it is beneficial to automaticall...
The identification of specialized, functional regions of the human cortex is a vital precondition fo...
To understand factors that affect brain connectivity and integrity, it is beneficial to automaticall...
We present a new technique for noninvasively tracing brain white matter fiber tracts using diffusion...
Inferring which pathways are affected by a brain lesion is key for both pre and post-treatment plann...
Abstract: Diffusion tensor MRI provides unique directional diffusion information that can be used to...
Brain fiber tracking is a very challenging issue as we need to solve a difficult inverse problem i.e...
International audienceWhite matter pathologies such as tumors or traumatic brain injury disrupt the ...
This thesis presents the design and validation of a method for digitally reconstructing white matte...
The ability of fiber tractography to delineate non-invasively the white matter fiber pathways of the...
International audienceWhite matter (WM) fiber bundles of the brain can be delineated by diffusion tr...
We introduce a method for combining fiber tracking from diffusion-tensor (DT) imaging with cortical ...
This abstract reported our recent progress in white matter fiber tractography based on diffusion spe...
© 2011 Dr. Thomas G. CloseWhite matter is the collection of long-range axons connecting disparate re...
In vivo white matter tractography by diffusion tensor imaging (DTI) has become a popular tool for in...
To understand factors that affect brain connectivity and integrity, it is beneficial to automaticall...
The identification of specialized, functional regions of the human cortex is a vital precondition fo...
To understand factors that affect brain connectivity and integrity, it is beneficial to automaticall...
We present a new technique for noninvasively tracing brain white matter fiber tracts using diffusion...