Methods based on the multivariate autoregressive (MVAR) approach are commonly used for effective connectivity estimation as they allow to include all available sources into a unique model. To ensure high levels of accuracy for high model dimensions, all the observations are used to provide a unique estimation of the model, and thus of the network and its properties. The unavailability of a distribution of connectivity values for a single experimental condition prevents to perform statistical comparisons between different conditions at a single subject level. This is a major limitation, especially when dealing with the heterogeneity of clinical conditions presented by patients. In the present paper we proposed a novel approach to the construction of a distribution of connectivity in a single subject case. The proposed approach is based on small perturbations of the networks properties and allows to assess significant changes in brain connectivity indexes derived from graph theory. Its feasibility and applicability were investigated by means of a simulation study and an application to real EEG data.
Investigating statistical differences in connectivity patterns properties at single subject level: A new resampling approach / Toppi, Jlenia; Anzolin, Alessandra; Petti, Manuela; Cincotti, Febo; Mattia, D.; Salinari, Serenella; Babiloni, Fabio; Astolfi, Laura. - 2014:(2014), pp. 6357-6360. (Intervento presentato al convegno 36th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, EMBC 2014 tenutosi a Chicago; United States nel 2014-Aug) [10.1109/EMBC.2014.6945082].
Investigating statistical differences in connectivity patterns properties at single subject level: A new resampling approach
TOPPI, JLENIA
;ANZOLIN, ALESSANDRA;PETTI, MANUELA;CINCOTTI, FEBO;SALINARI, Serenella;BABILONI, Fabio;ASTOLFI, LAURA
2014
Abstract
Methods based on the multivariate autoregressive (MVAR) approach are commonly used for effective connectivity estimation as they allow to include all available sources into a unique model. To ensure high levels of accuracy for high model dimensions, all the observations are used to provide a unique estimation of the model, and thus of the network and its properties. The unavailability of a distribution of connectivity values for a single experimental condition prevents to perform statistical comparisons between different conditions at a single subject level. This is a major limitation, especially when dealing with the heterogeneity of clinical conditions presented by patients. In the present paper we proposed a novel approach to the construction of a distribution of connectivity in a single subject case. The proposed approach is based on small perturbations of the networks properties and allows to assess significant changes in brain connectivity indexes derived from graph theory. Its feasibility and applicability were investigated by means of a simulation study and an application to real EEG data.| File | Dimensione | Formato | |
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