Predictive Models Based on Support Vector Machines: Whole-Brain versus Regional Analysis of Structural MRI in the Alzheimer's Disease

Decision-making systems trained on structural magnetic resonance imaging data of subjects affected by the Alzheimer's disease (AD) and healthy controls (CTRL) are becoming widespread prognostic tools for subjects with mild cognitive impairment (MCI). This study compares the performances of thre...

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Bibliographic Details
Published inJournal of neuroimaging Vol. 25; no. 4; p. 552
Main Authors Retico, Alessandra, Bosco, Paolo, Cerello, Piergiorgio, Fiorina, Elisa, Chincarini, Andrea, Fantacci, Maria Evelina
Format Journal Article
LanguageEnglish
Published United States 01.07.2015
Subjects
Aged
Alzheimer Disease - pathology
Brain - pathology
Computer Simulation
Connectome - methods
Female
Humans
Male
Models, Neurological
Models, Statistical
Nerve Net - pathology
Reproducibility of Results
Sensitivity and Specificity
Support Vector Machine
mild cognitive impairment
support vector machines
classification
MRI
Alzheimer's disease
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Summary:Decision-making systems trained on structural magnetic resonance imaging data of subjects affected by the Alzheimer's disease (AD) and healthy controls (CTRL) are becoming widespread prognostic tools for subjects with mild cognitive impairment (MCI). This study compares the performances of three classification methods based on support vector machines (SVMs), using as initial sets of brain voxels (ie, features): (1) the segmented grey matter (GM); (2) regions of interest (ROIs) by voxel-wise t-test filtering; (3) parceled ROIs, according to prior knowledge. The recursive feature elimination (RFE) is applied in all cases to investigate whether feature reduction improves the classification accuracy. We analyzed more than 600 AD Neuroimaging Initiative (ADNI) subjects, training the SVMs on the AD/CTRL dataset, and evaluating them on a trial MCI dataset. The classification performance, evaluated as the area under the receiver operating characteristic curve (AUC), reaches AUC = (88.9 ± .5)% in 20-fold cross-validation on the AD/CTRL dataset, when the GM is classified as a whole. The highest discrimination accuracy between MCI converters and nonconverters is achieved when the SVM-RFE is applied to the whole GM: with AUC reaching (70.7 ± .9)%, it outperforms both ROI-based approaches in predicting the AD conversion.
ISSN:1552-6569
DOI:10.1111/jon.12163