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BMC Bioinformatics. 2012 Feb 9;13:29. doi: 10.1186/1471-2105-13-29.

Method: automatic segmentation of mitochondria utilizing patch classification, contour pair classification, and automatically seeded level sets.

Author information

1
Center for Research in Biological Systems, University of California, 9500 Gilman Dr., La Jolla, CA 92093, USA. rgiuly@gmail.com

Abstract

BACKGROUND:

While progress has been made to develop automatic segmentation techniques for mitochondria, there remains a need for more accurate and robust techniques to delineate mitochondria in serial blockface scanning electron microscopic data. Previously developed texture based methods are limited for solving this problem because texture alone is often not sufficient to identify mitochondria. This paper presents a new three-step method, the Cytoseg process, for automated segmentation of mitochondria contained in 3D electron microscopic volumes generated through serial block face scanning electron microscopic imaging. The method consists of three steps. The first is a random forest patch classification step operating directly on 2D image patches. The second step consists of contour-pair classification. At the final step, we introduce a method to automatically seed a level set operation with output from previous steps.

RESULTS:

We report accuracy of the Cytoseg process on three types of tissue and compare it to a previous method based on Radon-Like Features. At step 1, we show that the patch classifier identifies mitochondria texture but creates many false positive pixels. At step 2, our contour processing step produces contours and then filters them with a second classification step, helping to improve overall accuracy. We show that our final level set operation, which is automatically seeded with output from previous steps, helps to smooth the results. Overall, our results show that use of contour pair classification and level set operations improve segmentation accuracy beyond patch classification alone. We show that the Cytoseg process performs well compared to another modern technique based on Radon-Like Features.

CONCLUSIONS:

We demonstrated that texture based methods for mitochondria segmentation can be enhanced with multiple steps that form an image processing pipeline. While we used a random-forest based patch classifier to recognize texture, it would be possible to replace this with other texture identifiers, and we plan to explore this in future work.

PMID:
22321695
PMCID:
PMC3293777
DOI:
10.1186/1471-2105-13-29
[Indexed for MEDLINE]
Free PMC Article

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