3D shape analysis of the brain cortex with application to autism

To discriminate more accurately between autistic and normal brains, we detect the brain cortex variability using a spherical harmonic analysis that represents a 3D surface supported by the unit sphere with a linear combination of special basis functions, called spherical harmonics (SHs). The propose...

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Hauptverfasser:	Nitzken, M, Casanova, M F, Gimel'farb, G, Khalifa, F, Elnakib, A, Switala, A E, El-Baz, A
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Sprache:	eng
Schlagworte:	Autism brain cortex segmentation Indexes shape analysis spherical harmonics
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creator	Nitzken, M Casanova, M F Gimel'farb, G Khalifa, F Elnakib, A Switala, A E El-Baz, A
description	To discriminate more accurately between autistic and normal brains, we detect the brain cortex variability using a spherical harmonic analysis that represents a 3D surface supported by the unit sphere with a linear combination of special basis functions, called spherical harmonics (SHs). The proposed 3D shape analysis is carried out in five steps: (i) 3D brain cortex segmentation, with a deformable 3D boundary, controlled by two probabilistic visual appearance models (the learned prior and the estimated current appearance one); (ii) 3D Delaunay triangulation to construct a 3D mesh model of the brain cortex surface; (iii) mapping this model to the unit sphere; (iv) computing the SHs for the surface; and (v) determining the number of the SHs to delineate the brain cortex. We describe the brain shape complexity with a new shape index, the estimated number of the SHs, and use it for K-nearest classification of normal and autistic brains. Initial experiments suggest that our shape index is a promising supplement to the current autism diagnostic techniques.
doi_str_mv	10.1109/ISBI.2011.5872767
format	Conference Proceeding
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subjects	Autism brain cortex segmentation Indexes shape analysis spherical harmonics
title	3D shape analysis of the brain cortex with application to autism
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