Difference between revisions of "2013 Summer Project Week:Epilepsy Surgery"
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<li>As a nest step, I´ll integrate the code to 3DSlicer. | <li>As a nest step, I´ll integrate the code to 3DSlicer. | ||
<li>Try new schems of texture analisys to this application. | <li>Try new schems of texture analisys to this application. | ||
− | <li>Implement few learning | + | <li>Implement few machine learning algorithms, in addition to image processing in C++. |
− | <li>Extend these and other ideas to cotical dysplasia: | + | <li>Speed up some time consumming algorithms with GPU programming. |
+ | <li>Extend these and other ideas to cotical dysplasia: 2014 ! | ||
==References== | ==References== | ||
*Shaker, M. & Soltanian-Zadeh, H., 2008. Voxel-Based Morphometric Study of Brain Regions from Magnetic Resonance Images in Temporal Lobe Epilepsy. Image Analysis and Interpretation, 2008. SSIAI 2008. IEEE Southwest Symposium on, 209-212. | *Shaker, M. & Soltanian-Zadeh, H., 2008. Voxel-Based Morphometric Study of Brain Regions from Magnetic Resonance Images in Temporal Lobe Epilepsy. Image Analysis and Interpretation, 2008. SSIAI 2008. IEEE Southwest Symposium on, 209-212. |
Latest revision as of 15:01, 21 June 2013
Home < 2013 Summer Project Week:Epilepsy SurgeryKey Investigators
- USP - Luiz Murta
Objective
This project will investigate the presence and location of the epileptogenic focus in temporal lobe by analyzing patterns of texture in magnetic resonance imaging (MRI) after segmentation using anisotropic diffusion filters anomalous and geodesic active contour.
Purpose
Progress
Examples:
Normal MRI at mesial temporal lobe
MRI containing blurring phenomena on right side as indicated by the yellow arrow
Results
Classifier
-- artificial neural network;
-- nearest neighbour;
-- and decision tree
-- 24 were extracted from the co-occurrence matrix using Haralick texture descriptors and
-- 8 were intensity statistics obtained from histogram.
no blurring blurring
Decision Tree
D_Hist_MeanIntensity <= 0.453
| D_Hist_stdDev <= 0.138: with_blurring (5.0)
| D_Hist_stdDev > 0.138
| | E_Hist_Kurtosis <= 0.497
| | | E_COOmeanHomogeneity_dist3 <= 0.425
| | | | D_COOmeanHomogeneity_dist2 <= 0.318: without_blurring (9.0/2.0)
| | | | D_COOmeanHomogeneity_dist2 > 0.318: with_blurring (5.0)
| | | E_COOmeanHomogeneity_dist3 > 0.425
| | | | E_COOmeanHomogeneity_dist3 <= 0.895: without_blurring (26.0/1.0)
| | | | E_COOmeanHomogeneity_dist3 > 0.895: with_blurring (3.0/1.0)
| | E_Hist_Kurtosis > 0.497: with_blurring (5.0)
D_Hist_MeanIntensity > 0.453
| E_Hist_Kurtosis <= 0.48: with_blurring (12.0)
| E_Hist_Kurtosis > 0.48
| | E_COOmeanHomogeneity_dist1 <= 0.432: with_blurring (3.0)
| | E_COOmeanHomogeneity_dist1 > 0.432: without_blurring (2.0)
Number of Leaves : 9
Conclusions
To do list:
References
- Shaker, M. & Soltanian-Zadeh, H., 2008. Voxel-Based Morphometric Study of Brain Regions from Magnetic Resonance Images in Temporal Lobe Epilepsy. Image Analysis and Interpretation, 2008. SSIAI 2008. IEEE Southwest Symposium on, 209-212.