Fast-Marching Tractography for Connection Matrix (Fast-TraC)

Although high angular resolution diffusion MRI techniques are able to solve multiple intra-voxel fiber orientations, the usual streamline Diffusion Spectrum Imaging (DSI) tractography algorithms present some limitations in their ability to map complex fiber-crossings in the brain white matter because they select locally only the most linear trajectories. In this work, we present a fast marching tractography algorithm for DSI, called Fast-TraC, which 1) is able to efficiently address this issue, 2) creates fiber trajectories between 1000 small cortical ROIs covering the entire brain and 3) builds a whole brain connection matrix. We also see selected tracts that are accurately reconstructed.

Fast-Marching Tractography for Connection Matrix (Fast-TraC)

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White adipose tissue distribution and amount are associated with increased white matter connectivity

Parental status and markers of brain and cellular age: A 3D convolutional network and classification study

The interplay between white adipose tissue, adipokines, and structural gray matter changes

White adipose tissue distribution and amount are associated with increased white matter connectivity

Parental status and markers of brain and cellular age: A 3D convolutional network and classification study

The interplay between white adipose tissue, adipokines, and structural gray matter changes