Redundancy as a Graph-Based Index of Frequency Specific MEG Functional Connectivity

Claudia Di Lanzo, Laura Marzetti, Filippo Zappasodi, Fabrizio De Vico Fallani, Vittorio Pizzella
2012 Computational and Mathematical Methods in Medicine  
We used a recently proposed graph index to investigate connectivity redundancy in resting state MEG recordings. Usually, brain network analyses consider indexes linked to the shortest paths between cerebral regions. However, important information might be lost about alternative trails by neglecting longer pathways. We measured the redundancy of the connectivity by considering the multiple paths at the global level (i.e., scalar redundancy), across different path lengths (i.e., vector
more » ... , and between node pairs (i.e., matrix redundancy). We applied this approach to a robust frequency domain functional connectivity measure, the corrected imaginary part of coherence. The redundancy in the MEG networks, for each frequency band, was significantly (P<0.05) higher than in the random graphs, thus, confirming a natural tendency of the brain to present multiple interaction pathways between different specialized areas. Notably, this difference was more evident and localized among the channels covering the parietooccipital areas in the alpha range of MEG oscillations (7.5–13 Hz), as expected in the resting state conditions. Interestingly enough, the results obtained with the redundancy indexes were poorly correlated with those obtained using shortest paths only, and more sensitive with respect to those obtained by considering walk-based indexes.
doi:10.1155/2012/207305 pmid:23118799 pmcid:PMC3480692 fatcat:5fch2fk4xjd5bo6coh4lvjvoz4