We propose a method for the automated identification of key white matter fiber tracts for neurosurgical planning, and we apply the method in a retrospective study of 18 consecutive neurosurgical patients with brain tumors. Our method is designed to be relatively robust to challenges in neurosurgical tractography, which include peritumoral edema, displacement, and mass effect caused by mass lesions. The proposed method has two parts. First, we learn a data-driven white matter parcellation or fiber cluster atlas using groupwise registration and spectral clustering of multi-fiber tractography from healthy controls. Key fiber tract clusters are identified in the atlas. Next, patient-specific fiber tracts are automatically identified using tract...
To understand factors that affect brain connectivity and integrity, it is beneficial to automaticall...
Knowledge of eloquent white matter fascicles is imperative to prevent the loss of sensory processing...
To understand factors that affect brain connectivity and integrity, it is beneficial to automaticall...
We propose a method for the automated identification of key white matter fiber tracts for neurosurgi...
International audienceWhite matter (WM) fiber bundles of the brain can be delineated by diffusion tr...
Diffusion tensor imaging (DTI) has become a standard clinical procedure in assessing the health of w...
<p>Visualization of AF tracts uses colors indicating individual fiber clusters as defined in the atl...
Reconstruction of white matter tracts based on diffusion tensor imaging (DTI) is currently widely us...
International audienceWhite matter fiber bundles of the brain can be delineated by tractography util...
Diffusion MRI and tractography hold great potential for surgery planning, especially to preserve elo...
Automatic labeling of white matter fibres in diffusion-weighted brain MRI is vital for comparing bra...
<p>Fiber tractography is performed to generate streamlines that approximate the underlying axonal pa...
BACKGROUND/PURPOSE: Despite its potential for visualizing white matter fiber tracts in vivo, diffusi...
To understand factors that affect brain connectivity and integrity, it is beneficial to automaticall...
Knowledge of eloquent white matter fascicles is imperative to prevent the loss of sensory processing...
To understand factors that affect brain connectivity and integrity, it is beneficial to automaticall...
We propose a method for the automated identification of key white matter fiber tracts for neurosurgi...
International audienceWhite matter (WM) fiber bundles of the brain can be delineated by diffusion tr...
Diffusion tensor imaging (DTI) has become a standard clinical procedure in assessing the health of w...
<p>Visualization of AF tracts uses colors indicating individual fiber clusters as defined in the atl...
Reconstruction of white matter tracts based on diffusion tensor imaging (DTI) is currently widely us...
International audienceWhite matter fiber bundles of the brain can be delineated by tractography util...
Diffusion MRI and tractography hold great potential for surgery planning, especially to preserve elo...
Automatic labeling of white matter fibres in diffusion-weighted brain MRI is vital for comparing bra...
<p>Fiber tractography is performed to generate streamlines that approximate the underlying axonal pa...
BACKGROUND/PURPOSE: Despite its potential for visualizing white matter fiber tracts in vivo, diffusi...
To understand factors that affect brain connectivity and integrity, it is beneficial to automaticall...
Knowledge of eloquent white matter fascicles is imperative to prevent the loss of sensory processing...
To understand factors that affect brain connectivity and integrity, it is beneficial to automaticall...