Difference between revisions of "2013 Project Week:4DShapeAnalysis"

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File:Frames.0000.png| Regression results with estimated baseline shapes (intercept) and initial momenta vectors (slope).  Color on the surface denotes contraction (blue) and expansion (red).
 
File:Frames.0000.png| Regression results with estimated baseline shapes (intercept) and initial momenta vectors (slope).  Color on the surface denotes contraction (blue) and expansion (red).
 
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{|border="1" cellpadding="5" cellspacing="0" align="center"
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! scope="col" style="background:#efefef;" | Shape
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! scope="col" style="background:#efefef;" | Initial Volume
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! scope="col" style="background:#efefef;" | Final Volume
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! scope="row" style="background:#efefef;" | Subject 10001
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<h3>HD Subjects</h3>
 
<h3>HD Subjects</h3>
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<gallery widths=276px heights=376px caption="HD Subjects">
 
<gallery widths=276px heights=376px caption="HD Subjects">
File:Sub_10001_3shapes.gif|Subject 10001
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File:Sub_10001_3shapes.gif|Subject 10001. Putamen volume decreased ~5%, thalamus volume decreased ~6.5%.
File:Sub_10018_3shapes.gif|Subject 10018
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File:Sub_10018_3shapes.gif|Subject 10018. Putamen volume decreased by ~3%, thalamus volume increased by 6.5%.
File:Sub_10027_3shapes.gif|Subject 10027
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File:Sub_10027_3shapes.gif|Subject 10027. Putamen volume decreased by ~6.5%.
 
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<gallery widths=276px heights=376px caption="Control Subjects">
 
<gallery widths=276px heights=376px caption="Control Subjects">
File:Sub_10016_3shapes.gif|Subject 10016
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File:Sub_10016_3shapes.gif|Subject 10016. All volume changes were less than 1%.
File:Sub_10017_3shapes.gif|Subject 10017
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File:Sub_10017_3shapes.gif|Subject 10017. Caudate and putamen changed in volume less that 1%.  Thalamus volume decreased by ~1%.
 
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Revision as of 16:55, 11 January 2013

Home < 2013 Project Week:4DShapeAnalysis

Key Investigators

  • James Fishbaugh, Marcel Prastawa, Guido Gerig, SCI
  • Hans Johnson, Iowa

Project Description

Objective

In past project weeks, we have explored the application of shape regression to study sub-cortical changes associated with Huntington's disease. This has led to the development and release of open source shape analysis software. During this project week, we would like to investigate a new algorithm recently developed for our software. The method is the extension of linear regression to shapes, where we jointly estimate a baseline shape (intercept) and initial momenta vectors (slope) which define the dynamics of shape change over time. This is in contrast to the current implementation, which assumes the baseline shape is fixed at the earliest time point.

Approach, Plan

  • Individual regression with control points at shared locations
    • Compare to previous results
    • Compare differences between HD subjects and controls

Progress

Segmentation

Here we consider a multi-shape complex of caudate, putamen, and thalamus, which were provided as binary images. Triangular meshes were extracted using marching cubes, giving us 3 shapes at 3 time points for each subject.

Regression

The continuous evolution of all 3 structures is estimated jointly, using a shared control point parameterization.

Conclusion

  • As before, segmentation quality is the most important factor in the analysis. The changes we are interested in detecting could potentially be of the same order as segmentation error.
  • Estimating the baseline shape may improve the robustness of the estimation,
  • However, we need to be careful about the estimation of the baseline shape. The changes over time are very subtle, therefore small differences in the baseline shape could lead to completely different dynamics of shape change.

Introduction


Shape Initial Volume Final Volume Percent Change
Subject 10001 text for row 1, column 1 text for row 1, column 2 text for row 1, column 3
Heading for row 2 text for row 2, column 1 text for row 2, column 2 text for row 2, column 3

HD Subjects

HD


Controls