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ISBI
2008
IEEE
2008
IEEE
Connectivity-based parcellation of the cortical surface using q-ball imaging
This work exploits the idea that each individual brain region has a specific connection profile to create parcellations of the cortical surface using MR diffusion imaging. The parcellation is performed in two steps. First, for each vertex of a cortical surface mesh, a connection profile is computed using a probabilistic tractography framework. The tractography is performed from q-ball fields using regularized particle trajectories. The raw connectivity matrix is smoothed over the surface to account for a reasonable uncertainty on the tractography result. A cortical surface parcellation in 36 large gyri is used to reduce the connectivity profiles dimension. For each vertex, interconnection with the gyri is determined, leading to a connectivity profile made up of only 36 connection strengths. These profiles are clustered on a gyrus by gyrus basis using a k-means approach including spatial regularization. The reproducibility of the results is studied for three subjects.
Real-time TrafficConnectivity Profiles Dimension | Cortical Surface | Cortical Surface Parcellation | ISBI 2008 | Medical Imaging |
| Added | 20 Nov 2009 |
| Updated | 20 Nov 2009 |
| Type | Conference |
| Year | 2008 |
| Where | ISBI |
| Authors | Cyril Poupon, Denis Rivière, Jean-Francois Mangin, Muriel Perrin, Pamela Guevara, Pascal Cathier, Yann Cointepas |
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