Ubiraci P. C. Neves scite author profile

Functional magnetic resonance imaging (fMRI) data analysis has been carried out recently in the framework of information theory, by means of the Shannon entropy. As a natural extension, a method based on the generalized Tsallis entropy was developed to the analysis event-related (ER-fMRI), where a brief stimulus is presented, followed by a long period of rest. The new technique aims for spatial localization neuronal activity due to a specific task. This method does not require a priori hypothesis of the hemodynamic response function (HRF) shape and the linear relation between BOLD responses with the presented task. Numerical simulations were performed so as to determine the optimal values of the Tsallis q parameter and the number of levels, L. In order to avoid undesirable divergences of the Tsallis entropy, only positive q values were studied. Results from simulated data (with L = 3) indicated that, for q = 0.8, the active brain areas are detected with the highest performance. Moreover, the method was tested for an in vivo experiment and demonstrated the ability to discriminate active brain regions that selectively responded to a bilateral motor task.

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Generalized relative entropy in functional magnetic resonance imaging

Cabella

Sturzbecher

Araújo

et al. 2009

Physica A: Statistical Mechanics and its Applications

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Generalized mutual information tests applied to fMRI analysis

Tedeschi

Müller

Araújo

et al. 2005

Physica A: Statistical Mechanics and its Applications

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Series expansion of the directed percolation probability

Onody¹,

Neves²

1992

J. Phys. A: Math. Gen.

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Ubiraci P. C. Neves

Shannon entropy applied to the analysis of event-related fMRI time series

Non-extensive entropy and the extraction of BOLD spatial information in event-related functional MRI

Generalized relative entropy in functional magnetic resonance imaging

Generalized mutual information tests applied to fMRI analysis

Series expansion of the directed percolation probability

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