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Automatic Tissue Segmentation of Neonate Brain MR Images with Subject-specific Atlases.


ABSTRACT: Automatic tissue segmentation of the neonate brain using Magnetic Resonance Images (MRI) is extremely important to study brain development and perform early diagnostics but is challenging due to high variability and inhomogeneity in contrast throughout the image due to incomplete myelination of the white matter tracts. For these reasons, current methods often totally fail or give unsatisfying results. Furthermore, most of the subcortical midbrain structures are misclassified due to a lack of contrast in these regions. We have developed a novel method that creates a probabilistic subject-specific atlas based on a population atlas currently containing a number of manually segmented cases. The generated subject-specific atlas is sharp and adapted to the subject that is being processed. We then segment brain tissue classes using the newly created atlas with a single-atlas expectation maximization based method. Our proposed method leads to a much lower failure rate in our experiments. The overall segmentation results are considerably improved when compared to using a non-subject-specific, population average atlas. Additionally, we have incorporated diffusion information obtained from Diffusion Tensor Images (DTI) to improve the detection of white matter that is not visible at this early age in structural MRI (sMRI) due to a lack of myelination. Although this necessitates the acquisition of an additional sequence, the diffusion information improves the white matter segmentation throughout the brain, especially for the mid-brain structures such as the corpus callosum and the internal capsule.

SUBMITTER: Cherel M 

PROVIDER: S-EPMC4469197 | biostudies-literature | 2015 Feb

REPOSITORIES: biostudies-literature

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Automatic Tissue Segmentation of Neonate Brain MR Images with Subject-specific Atlases.

Cherel Marie M   Budin Francois F   Prastawa Marcel M   Gerig Guido G   Lee Kevin K   Buss Claudia C   Lyall Amanda A   Consing Kirsten Zaldarriaga KZ   Styner Martin M  

Proceedings of SPIE--the International Society for Optical Engineering 20150201


Automatic tissue segmentation of the neonate brain using Magnetic Resonance Images (MRI) is extremely important to study brain development and perform early diagnostics but is challenging due to high variability and inhomogeneity in contrast throughout the image due to incomplete myelination of the white matter tracts. For these reasons, current methods often totally fail or give unsatisfying results. Furthermore, most of the subcortical midbrain structures are misclassified due to a lack of con  ...[more]

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