Difference between revisions of "2008AHM.Tractography.MeetingNotes"
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| − | From Vince Magnotta's presentation:GTRACT fine for forceps major and minor, internal capusule and Fast Marching algorithm better for fornix, hippocampus-cingulum and cingulum. | + | From Vince Magnotta's presentation:GTRACT fine for forceps major and minor, internal capusule and Fast Marching algorithm better for fornix, hippocampus-cingulum and cingulum. For the Fast Marching algorithm, modified the algorithm to use cost image generations based on tensor and anisotropy, gradient descent. His algorithm would perform "better" for core of cingulum bundle, needs a smaller, more focal ROI. For uncinate, couldn't get it to bend around, would need intermediate ROIs. |
Action Plan: | Action Plan: | ||
Revision as of 17:54, 9 January 2008
Home < 2008AHM.Tractography.MeetingNotesFrom Sonia: Could do tractography for all tracks with both ROI and whole brain seeding.
From Casey's presentation: Could do tractography for all tracks. Made suggestion to compute more complex statistics of fiber track, e.g. FA measure in spatial distribution. His Atlas presentation brought up idea of using one set of ROI specifications for an entire study in atlas space and map them back to the individual.
From John's presentation: His method required that he had to shrink the provided ROIs for uncinate fasciulus and corpus callosum to make his method work. Then could generate fiber volumes for each tract. His tracts all STOP at ROIs (end points). If given ROIs farther apart could generate longer tracts. Needed a white matter mask- created his own with Tri by thresholding FA (>0.15). Discussion regarding whether the ROIs based on Susumu Mori's criteria would actually be optimal or even work for every method.
From Tri's presentation: Able to generate all tracks with given ROIs. Needed white matter mask (see above). 30 minutes/tract on 63GB computer. Seed with source, filter with sink. Had to cut uncinate fasciulus. For later statistical analysis, considered only non-zero connectivity value voxels. Reminds us that bundle thickness is related to both uncertainty and physical radius Internal capsule, why so much blue? What would be his suggestions for how best to quantify outcome?
From Vince Magnotta's presentation:GTRACT fine for forceps major and minor, internal capusule and Fast Marching algorithm better for fornix, hippocampus-cingulum and cingulum. For the Fast Marching algorithm, modified the algorithm to use cost image generations based on tensor and anisotropy, gradient descent. His algorithm would perform "better" for core of cingulum bundle, needs a smaller, more focal ROI. For uncinate, couldn't get it to bend around, would need intermediate ROIs.
Action Plan:
Plan upload for each subject the DTI registered white matter mask in nrrd format (Anastasia, Sylvain, bug-reporter as needed)
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