We propose a methodological framework for exploring complex multimodal imaging data from a neuroscience study with the aim of identifying a data-driven group structure in the patients sample, possibly connected with the presence/absence of lifetime mental disorder. The functional covariances of fMRI signals are first considered as data objects. Appropriate clustering procedures and low dimensional representations are proposed. For inference, a Frechet estimator of both the covariance operator itself and the average covariance operator is used. A permutation procedure to test the equality of the covariance operators between two groups is also considered. We finally propose a method to incorporate spatial dependencies between different brain regions, merging the information from both the Structural Networks and the Dynamic functional activity.
An Object Oriented Approach to Multimodal Imaging Data in Neuroscience / A. Cappozzo, F. Federico, M. Stefanucci, P. Secchi (SPRINGER PROCEEDINGS IN MATHEMATICS & STATISTICS). - In: Studies in Neural Data Science / [a cura di] A. Canale, D. Durante, L. Paci, B. Scarpa. - [s.l] : Springer, 2018. - ISBN 978-3-030-00039-4. - pp. 57-73 (( convegno StartUp Research tenutosi a Siena nel 2017 [10.1007/978-3-030-00039-4_4].
An Object Oriented Approach to Multimodal Imaging Data in Neuroscience
A. Cappozzo;
2018
Abstract
We propose a methodological framework for exploring complex multimodal imaging data from a neuroscience study with the aim of identifying a data-driven group structure in the patients sample, possibly connected with the presence/absence of lifetime mental disorder. The functional covariances of fMRI signals are first considered as data objects. Appropriate clustering procedures and low dimensional representations are proposed. For inference, a Frechet estimator of both the covariance operator itself and the average covariance operator is used. A permutation procedure to test the equality of the covariance operators between two groups is also considered. We finally propose a method to incorporate spatial dependencies between different brain regions, merging the information from both the Structural Networks and the Dynamic functional activity.
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