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You are here: Home Publications CENs Bibliography Working memory capacity and the functional connectome - insights from resting-state fMRI and voxelwise centrality mapping

Sebastian Markett, Martin Reuter, Behrend Heeren, Bernd Lachmann, Bernd Weber, and Christian Montag (2018)

Working memory capacity and the functional connectome - insights from resting-state fMRI and voxelwise centrality mapping

Brain Imaging and Behavior, 12(1):238--246.

© 2017, Springer Science+Business Media New York. The functional connectome represents a comprehensive network map of functional connectivity throughout the human brain. To date, the relationship between the organization of functional connectivity and cognitive performance measures is still poorly understood. In the present study we use resting-state functional magnetic resonance imaging (fMRI) data to explore the link between the functional connectome and working memory capacity in an individual differences design. Working memory capacity, which refers to the maximum amount of context information that an individual can retain in the absence of external stimulation, was assessed outside the MRI scanner and estimated based on behavioral data from a change detection task. Resting-state time series were analyzed by means of voxelwise degree and eigenvector centrality mapping, which are data-driven network analytic approaches for the characterization of functional connectivity. We found working memory capacity to be inversely correlated with both centrality in the right intraparietal sulcus. Exploratory analyses revealed that this relationship was putatively driven by an increase in negative connectivity strength of the structure. This resting-state connectivity finding fits previous task based activation studies that have shown that this area responds to manipulations of working memory load.

Connectome, Intraparietal sulcus, Resting-state fMRI, Working, Working memory, memory capacity, cognitive ability
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