Difference between revisions of "2009 Winter Project Week SegmentationAtlases"

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Since the project is in its very early stages, we mostly worked on planning and exploring different options instead of actual implementations. The goals accomplished were:
 
Since the project is in its very early stages, we mostly worked on planning and exploring different options instead of actual implementations. The goals accomplished were:
  
* Explored in detail existing algorithms for brain atlas construction including an algorithm based on bayesian inference (Van Leemput) and one based on clustering (M. R. Sabuncu et al).
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* Explored existing algorithms for brain atlas construction including an algorithm based on bayesian inference (Van Leemput) and one based on clustering (M. R. Sabuncu et al).
  
* Learned how ITK works which was necessary to understand existing implementations of the above algorithms.
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* Planned work for the weeks ahead which will include running experiments with data sets of interest using both existing and modified versions of these algorithms.
 
 
* Planned work for the weeks ahead which will include running experiments with different data sets using both existing and modified versions of these algorithms.
 
  
 
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Latest revision as of 18:36, 9 January 2009

Home < 2009 Winter Project Week SegmentationAtlases



Key Investigators

  • MIT: Michal Depa
  • MIT: Koen Van Leemput
  • MIT: Mert Rory Sabuncu
  • MIT: Polina Golland

Objective

We are exploring different methods of constructing brain probabilistic atlases and their impacts on segmentation algorithms. These atlases contain for each voxel of the image the probabilities that it belongs to each of the labels being investigated. The goal is to compare the results of these algorithms when using probabilistic atlases created in different manners in order to establish guidelines for the appropriate choice in various situations.

Approach, Plan

Our approach is to use the model-based segmentation algorithm described in the MICCAI 2008 (Van Leemput et al) reference below with several different probabilistic atlases. These are traditionally created from a set of manually labeled training data by counting the relative occurrence of labels in corresponding locations in the training images. However, the use of more advanced methods could yield better results. In the model-based segmentation algorithm, atlases are formed using Bayesian inference (Van Leemput). A new method could involve creating a set of atlases for different modes of the population using clustering (M. R. Sabuncu et al).

Our plan for the project week is to discuss these different techniques and determine which data sets would yield the most interesting contrasts between them. If time permits, we would also like to start running experiments.

Progress

Since the project is in its very early stages, we mostly worked on planning and exploring different options instead of actual implementations. The goals accomplished were:

  • Explored existing algorithms for brain atlas construction including an algorithm based on bayesian inference (Van Leemput) and one based on clustering (M. R. Sabuncu et al).
  • Planned work for the weeks ahead which will include running experiments with data sets of interest using both existing and modified versions of these algorithms.


References

  • K. Van Leemput et al. “Model-Based Segmentation of Hippocampal Subfields in Ulta-High Resolution In Vivo MRI.” MICCAI 2008.
  • K. Van Leemput. “Encoding Probabilistic Brain Atlases Using Bayesian Inference.” IEEE Transactions on Medical Imaging 2008 (accepted).
  • M. R. Sabuncu, S. K. Balci, and P. Golland. “Discovering Modes of an Image Population through Mixture Modeling.” MICCAI 2008.