Difference between revisions of "Projects:TubularSurfaceSegmentationPopStudy"

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We have proposed a new framework for performing group studies on DW-MRI data using the Tubular Surface Model to study white-matter properties. We show that the model facilitates population studies by the natural registration that occurs by the sampling of WM properties along the fiber bundles center-lines. Further, by allowing us to characterize the discrimination ability of local regions of the fiber bundles, the framework allows us to identify the regions that are "affected" by the disorder under study. In our experiments, we have applied the framework to study the Cingulum Bundle towards discriminating Schizophrenia.
 
We have proposed a new framework for performing group studies on DW-MRI data using the Tubular Surface Model to study white-matter properties. We show that the model facilitates population studies by the natural registration that occurs by the sampling of WM properties along the fiber bundles center-lines. Further, by allowing us to characterize the discrimination ability of local regions of the fiber bundles, the framework allows us to identify the regions that are "affected" by the disorder under study. In our experiments, we have applied the framework to study the Cingulum Bundle towards discriminating Schizophrenia.
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== Some Results
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The results below show the visualization of t-statistics with respect to the extracted features, with discrimination ability increasing from green to red. This demonstrates the ability of the framework to visualize the role of different regions of the fiber bundle in Schizophrenia.
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* [[Image:GT-PopStudyVis_OnCBs_Case19-View1.jpg | Visualization of T-statistics on Cingulum Bundle surface (View 1)| 300px]] Visualization of T-statistics on Cingulum Bundle surface (View 1)
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* [[Image:GT-PopStudyVis_OnCBs_Case19-View2.jpg | Visualization of T-statistics on Cingulum Bundle surface (View 2)| 300px]] Visualization of T-statistics on Cingulum Bundle surface (View 2)
  
  
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* [http://www.na-mic.org/publications/pages/display?search=Projects%3ADWIReorientation&submit=Search&words=all&title=checked&keywords=checked&authors=checked&abstract=checked&sponsors=checked&searchbytag=checked| NA-MIC Publications Database]
 
* [http://www.na-mic.org/publications/pages/display?search=Projects%3ADWIReorientation&submit=Search&words=all&title=checked&keywords=checked&authors=checked&abstract=checked&sponsors=checked&searchbytag=checked| NA-MIC Publications Database]
  
== Some Results
 
The results below show the visualization of t-statistics with respect to the extracted features, with discrimination ability increasing from green to red. This demonstrates the ability of the framework to visualize the role of different regions of the fiber bundle in Schizophrenia.
 
* [[Image:GT-PopStudyVis_OnCBs_Case19-View1.jpg | Visualization of T-statistics on Cingulum Bundle surface (View 1)| 300px]] Visualization of T-statistics on Cingulum Bundle surface (View 1)
 
* [[Image:GT-PopStudyVis_OnCBs_Case19-View2.jpg | Visualization of T-statistics on Cingulum Bundle surface (View 2)| 300px]] Visualization of T-statistics on Cingulum Bundle surface (View 2)
 
  
 
[[Category: MRI]]
 
[[Category: MRI]]

Revision as of 18:20, 20 October 2009

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Group study using the Tubular Surface model

Description

We have proposed a new framework for performing group studies on DW-MRI data using the Tubular Surface Model to study white-matter properties. We show that the model facilitates population studies by the natural registration that occurs by the sampling of WM properties along the fiber bundles center-lines. Further, by allowing us to characterize the discrimination ability of local regions of the fiber bundles, the framework allows us to identify the regions that are "affected" by the disorder under study. In our experiments, we have applied the framework to study the Cingulum Bundle towards discriminating Schizophrenia.

== Some Results The results below show the visualization of t-statistics with respect to the extracted features, with discrimination ability increasing from green to red. This demonstrates the ability of the framework to visualize the role of different regions of the fiber bundle in Schizophrenia.

  • Visualization of T-statistics on Cingulum Bundle surface (View 1) Visualization of T-statistics on Cingulum Bundle surface (View 1)
  • Visualization of T-statistics on Cingulum Bundle surface (View 2) Visualization of T-statistics on Cingulum Bundle surface (View 2)


Key Investigators

Georgia Tech: Allen Tannenbaum, Vandana Mohan

BWH: Marek Kubicki

Publications

In Print