Attention improves transfer of motion information between V1 and MT

Selective attention modulates activity within individual visual areas; however, the role of attention in mediating the transfer of information between areas is not well understood. Here, we used fMRI to assess attention-related changes in coupled BOLD activation in two key areas of human visual cort...

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Bibliographic Details
Published in:The Journal of neuroscience 2014-03, Vol.34 (10), p.3586-3596
Main Authors: Saproo, Sameer, Serences, John T
Format: Article
Language:English
Subjects:
Adolescent
Adult
Attention - physiology
Female
Humans
Magnetic Resonance Imaging - methods
Male
Motion Perception - physiology
Photic Stimulation - methods
Visual Cortex - physiology
Visual Pathways - physiology
Young Adult
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Summary:Selective attention modulates activity within individual visual areas; however, the role of attention in mediating the transfer of information between areas is not well understood. Here, we used fMRI to assess attention-related changes in coupled BOLD activation in two key areas of human visual cortex that are involved in motion processing: V1 and MT. To examine attention-related changes in cross-area coupling, multivoxel patterns in each visual area were decomposed to estimate the trial-by-trial response amplitude in a set of direction-selective "channels." In both V1 and MT, BOLD responses increase in direction-selective channels tuned to the attended direction of motion and decrease in channels tuned away from the attended direction. Furthermore, the modulation of cross-area correlations between similarly tuned populations is inversely related to the modulation of their mean responses, an observation that can be explained via a feedforward motion computation in MT and a modulation of local noise correlations in V1. More importantly, these modulations accompany an increase in the cross-area mutual information between direction-selective response patterns in V1 and MT, suggesting that attention improves the transfer of sensory information between cortical areas that cooperate to support perception. Finally, our model suggests that divisive normalization of neural activity in V1 before its integration by MT is critical to cross-area information coupling, both in terms of cross-area correlation as well as cross-area mutual information.
ISSN:0270-6474
1529-2401
DOI:10.1523/JNEUROSCI.3484-13.2014