Difference between revisions of "ProstateSegmentationAHM2009"
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|[[Image:NAMIC-SLC.jpg|thumb|320px|Return to [[2009_Winter_Project_Week|Project Week Main Page]] ]] | |[[Image:NAMIC-SLC.jpg|thumb|320px|Return to [[2009_Winter_Project_Week|Project Week Main Page]] ]] | ||
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|[[Image:TRPB_ProstateSegmentation.JPG|Prostate segmentation integrated inside TR Prostate biopsy interactive module|thumb|320px]] | |[[Image:TRPB_ProstateSegmentation.JPG|Prostate segmentation integrated inside TR Prostate biopsy interactive module|thumb|320px]] | ||
| + | |[[Image:ShapeBasePstSegSlicer.png|Shape base prostate segmentation in Slicer through command line module|thumb|320px]] | ||
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<h1>Objective</h1> | <h1>Objective</h1> | ||
| − | For the task of prostate segmentation, we provide two tools: 1. shape based and 2. semi-automatic random walk based. The goal is to put both algorithm into Slicer3 | + | For the task of prostate segmentation, we provide two tools: 1. shape based and 2. semi-automatic random walk based. The goal is to put both algorithm into Slicer3. |
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<h1>Approach, Plan</h1> | <h1>Approach, Plan</h1> | ||
| − | Algorithm 1. is a | + | Algorithm 1. is a Shape based segmentation. The shape of prostates are learned and then the new image is segmented using the shapes learned. Algorithm 2. is based on the Random Walks segmentation algorithm. It need more human input but the result could be interactively improved arbitrarily close to user's expectation. |
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<h1>Progress</h1> | <h1>Progress</h1> | ||
| − | + | During the project week, we achieved: | |
| − | + | * Integrated semi-auto algorithm (algorithm 2) into Trans Rectal Prostate biopsy interactive loadable module, shown in the middle figure above. | |
| − | + | * Integrated shape based algorithm (algorithm 1) into Slicer3 as command line module, shown in the right figure above. | |
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Latest revision as of 23:42, 8 January 2009
Home < ProstateSegmentationAHM2009 Return to Project Week Main Page |
Key Investigators
- Gabor Fichtinger, Purang Abolmaesumi, David Gobbi, Siddharth Vikal; Queen’s University
- Allen Tannenbaum, Yi Gao; Georgia Tech
- Katie Hayes, Brigham and Women's Hospital
Objective
For the task of prostate segmentation, we provide two tools: 1. shape based and 2. semi-automatic random walk based. The goal is to put both algorithm into Slicer3.
Approach, Plan
Algorithm 1. is a Shape based segmentation. The shape of prostates are learned and then the new image is segmented using the shapes learned. Algorithm 2. is based on the Random Walks segmentation algorithm. It need more human input but the result could be interactively improved arbitrarily close to user's expectation.
Progress
During the project week, we achieved:
- Integrated semi-auto algorithm (algorithm 2) into Trans Rectal Prostate biopsy interactive loadable module, shown in the middle figure above.
- Integrated shape based algorithm (algorithm 1) into Slicer3 as command line module, shown in the right figure above.
