Difference between revisions of "Documentation/Nightly/Extensions/BrainVolumeRefinement"
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Most frequently used for these scenarios: | Most frequently used for these scenarios: | ||
* Use Case 1: Cortical thickness surface delineation. | * Use Case 1: Cortical thickness surface delineation. | ||
| − | **When dealing with grey-matter overestimate due to badly | + | **When dealing with grey-matter overestimate due to badly brain extraction step. |
* Use Case 2: Brain atrophy | * Use Case 2: Brain atrophy | ||
**Assist in the total brain volume estimate also reducing the non-brain tissues belonging outside the grey-matter tissue frontier. | **Assist in the total brain volume estimate also reducing the non-brain tissues belonging outside the grey-matter tissue frontier. | ||
<gallery widths="400px" heights="400px" perrow="3"> | <gallery widths="400px" heights="400px" perrow="3"> | ||
| − | Image: | + | Image:T1-FS.png|T1 weighted MRI Image with FreeSurfer original brain mask overlay (only the out surface is represented) |
| + | Image:T1-FS-BVeR.png|Same T1 weighted MRI Image but with BVeR correction mask overlay (using the previous FreeSurfer input) | ||
</gallery> | </gallery> | ||
Revision as of 06:54, 14 September 2019
Home < Documentation < Nightly < Extensions < BrainVolumeRefinement
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For the latest Slicer documentation, visit the read-the-docs. |
Introduction and Acknowledgements
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This work was partially funded by CAPES and CNPq, Brazilian Agencies. Information on CAPES can be obtained on the CAPES website and CNPq website. | |||||||||
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Extension Description
The Brain Volume Refinement (BVeR) extension is designed to assist neuroscience studies. The BVeR algorithm is suitable for a broad use of healthy brain structural MRI images, e.g. T1w and T2w, offering broad application in many large data analyses. The main contribution of the proposed method is related to the reduction of manual interference in the brain volume refinement after an automatic skull stripping procedure been performed, helping to reduce human errors and processing time. Even though the BVeR method does not provide a fully brain extraction algorithm, it can be helpful as a ad hoc image processing step in which increase the quality of well-known brain extraction algorithm in the literature. Any brain extracting frameworks can be refined with this method, e.g. FSL-BET, FreeSurfer, BEasT, 3DSkullStrip, ROBEX, OptiBET and many others.
Modules
- Structural T1w and T2w brain volume correction: BVeR
Use Cases
Most frequently used for these scenarios:
- Use Case 1: Cortical thickness surface delineation.
- When dealing with grey-matter overestimate due to badly brain extraction step.
- Use Case 2: Brain atrophy
- Assist in the total brain volume estimate also reducing the non-brain tissues belonging outside the grey-matter tissue frontier.
T1 weighted MRI Image with FreeSurfer original brain mask overlay (only the out surface is represented)
Same T1 weighted MRI Image but with BVeR correction mask overlay (using the previous FreeSurfer input)
Similar Extensions
References
- Insight-Journal
Information for Developers
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Section under construction. |
Repositories:
- Source code: GitHub repository
- Issue tracker: open issues and enhancement requests
