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Brain Extraction based on nonlocal Segmentation Technique (BEaST)

Brain extraction is an important step in the analysis of brain images. The variability in brain morphology and the difference in intensity characteristics due to imaging sequences make the development of a general purpose brain extraction algorithm challenging. To address this issue, we propose a new robust method (BEaST) dedicated to produce consistent and accurate brain extraction. This method is based on nonlocal segmentation embedded in a multi-resolution framework. A library of 80 priors is semi-automatically constructed from the NIH-sponsored MRI study of normal brain development, the International Consortium for Brain Mapping, and the Alzheimer鈥檚 Disease Neuroimaging Initiative databases.

In testing, a mean Dice similarity coefficient of 0.9834卤0.0053 was obtained when performing leave-one-out cross validation selecting only 20 priors from the library. Validation using the online resulted in a top ranking position with a mean Dice coefficient of 0.9781卤0.0047. Robustness of BEaST is demonstrated on all baseline ADNI data, resulting in a very low failure rate. The segmentation accuracy of the method is better than two widely used publicly available methods and recent state-of-the-art hybrid approaches. BEaST provides results comparable to a recent label fusion approach, while being 40 times faster and requiring a much smaller library of priors.

Results from the Segmentation Validation Engine can be found .

References

Simon Fristed Eskildsen, Pierrick Coup茅, Vladimir Fonov, Jos茅 V. Manj贸n, Kelvin K. Leung, Nicolas Guizard, Shafik N. Wassef, Lasse Riis 脴stergaard and D. Louis Collins: NeuroImage, 59(3): 2362鈥2373.

Tutorial

A tutorial on running BEaST can be found

Download

This part is under construction

C source code

The latest bleeding edge source code can be found at
The following releases has been tested under Debian style Linux distributions, such as Ubuntu.

  • [md5sum: b4cdf710a9defdab7b16b29b578e871b]
  • [md5sum: 685c80456346c05f37d96dc77938f85e] (includes a free example image library)
  • [md5sum: 1f302e1d5e882a621699df37d8642bb8] (new)

Matlab code

笔别苍诲颈苍驳鈥

Binaries

Version 0.1, x86_64 Linux: [md5sum: 7526f11352eecad2109a0039c5cd1ad8]
Version 0.2, x86_64 Linux: [md5sum: 2da7395e97ec6994ac5c5ea9cb5bd740]
Version 1.15, x86_64 Linux: [md5sum: af92d3ade6d6156423802eb3b2752387] (new)

Library images

  • [md5sum: a332383324974c1450cb3ec61f3808f9]
    • contains 10 images at 4mm, 2mm, and 1mm voxel sizes
  • See on how to include ADNI images/masks in the library.

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