TY - GEN
T1 - Quantification of age-related brain cortex change using 3D shape analysis
AU - Elnakib, A.
AU - Nitzken, M.
AU - Casanova, M. F.
AU - Park, H. Y.
AU - Gimel'Farb, G.
AU - El-Baz, A.
PY - 2012
Y1 - 2012
N2 - To characterize the brain changes associated with aging, we detect brain cortex variability through a spherical harmonic analysis that represents a 3D surface supported by the unit sphere through a linear combination of special basis functions, called spherical harmonics (SHs). The proposed 3D shape analysis is carried out in four steps: (i) 3D Delau-nay triangulation to construct a 3D mesh model of the brain cortex surface; (ii) mapping this model to the unit sphere; (iii) computing the SHs for the surface; and (iv) calculating the area under the error reconstruction curve for the SHs to delineate the brain cortex. We describe the brain shape complexity with a new shape index, the estimated area under the error reconstruction curve for the SHs. The initial experiments on 187 male subjects (age range, 4-22 years) and the comparison results with the cortex volumetric index suggest that our shape index is a promising supplement to current metrics that characterize age-related brain changes.
AB - To characterize the brain changes associated with aging, we detect brain cortex variability through a spherical harmonic analysis that represents a 3D surface supported by the unit sphere through a linear combination of special basis functions, called spherical harmonics (SHs). The proposed 3D shape analysis is carried out in four steps: (i) 3D Delau-nay triangulation to construct a 3D mesh model of the brain cortex surface; (ii) mapping this model to the unit sphere; (iii) computing the SHs for the surface; and (iv) calculating the area under the error reconstruction curve for the SHs to delineate the brain cortex. We describe the brain shape complexity with a new shape index, the estimated area under the error reconstruction curve for the SHs. The initial experiments on 187 male subjects (age range, 4-22 years) and the comparison results with the cortex volumetric index suggest that our shape index is a promising supplement to current metrics that characterize age-related brain changes.
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M3 - Conference contribution
AN - SCOPUS:84874566731
SN - 9784990644109
T3 - Proceedings - International Conference on Pattern Recognition
SP - 41
EP - 44
BT - ICPR 2012 - 21st International Conference on Pattern Recognition
T2 - 21st International Conference on Pattern Recognition, ICPR 2012
Y2 - 11 November 2012 through 15 November 2012
ER -