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Decoding neurological disease from MRI brain patterns
Zitatschlüssel Hackmack2009
Autor Hackmack, K.
Jahr 2009
ISSN 1662-5188
DOI 10.3389/conf.neuro.10.2009.14.112
Journal Front. Comput. Neurosci.
Monat August
Zusammenfassung Recently, pattern recognition approaches have been successfully applied in the field of clinical neuroimaging in order to differentiate between clinical groups [1]. Against this background, we present a fully automated procedure using local brain tissue characteristics of structural brain images for the prediction of the subjects’ clinical condition. We proceeded as follows. After segmenting the images into grey and white matter we applied a first statistical analysis referred to as voxel-based morphometry [2,3]. Here, standard statistical procedures are employed to make a voxel-wise comparison of the local concentration of grey and white matter between clinical groups. The result is a statistical parametric map indicating differences between these groups. In order to classify the segmented images into patient or control group, we used a two-stage procedure. In the first step, independent classifiers are trained on local brain patterns using a searchlight approach [4,5]. By employing a nested cross-validation scheme we obtained accuracy maps for each region in the brain. In the second step, we used an ensemble approach to combine the information of best discriminating (i.e. most informative) brain regions in order to make a final decision towards the clinical status for a novel image. The ensemble-method was chosen, since it has been shown that classifier-ensembles tend to have better generalization abilities compared to individual classifiers [6]. To predict symptom severity, a further regression analysis within the clinical group with respect to different clinical markers was included. To our best knowledge this is the first pattern recognition approach that combines local tissue characteristics and ensemble methods to decode clinical status. Because multivariate decoding algorithms are sensitive to regional pattern changes and therefore provide more information than univariate methods, the identification of new regions accompanying neurological disease seem to be conceivable and thus enable clinical applications.
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