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Articles, Behavioral/Systems/Cognitive

Interactions of Top-Down and Bottom-Up Mechanisms in Human Visual Cortex

Stephanie McMains and Sabine Kastner
Journal of Neuroscience 12 January 2011, 31 (2) 587-597; DOI: https://doi.org/10.1523/JNEUROSCI.3766-10.2011
Stephanie McMains
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Sabine Kastner
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Abstract

Multiple stimuli present in the visual field at the same time compete for neural representation by mutually suppressing their evoked activity throughout visual cortex, providing a neural correlate for the limited processing capacity of the visual system. Competitive interactions among stimuli can be counteracted by top-down, goal-directed mechanisms such as attention, and by bottom-up, stimulus-driven mechanisms. Because these two processes cooperate in everyday life to bias processing toward behaviorally relevant or particularly salient stimuli, it has proven difficult to study interactions between top-down and bottom-up mechanisms. Here, we used an experimental paradigm in which we first isolated the effects of a bottom-up influence on neural competition by parametrically varying the degree of perceptual grouping in displays that were not attended. Second, we probed the effects of directed attention on the competitive interactions induced with the parametric design. We found that the amount of attentional modulation varied linearly with the degree of competition left unresolved by bottom-up processes, such that attentional modulation was greatest when neural competition was little influenced by bottom-up mechanisms and smallest when competition was strongly influenced by bottom-up mechanisms. These findings suggest that the strength of attentional modulation in the visual system is constrained by the degree to which competitive interactions have been resolved by bottom-up processes related to the segmentation of scenes into candidate objects.

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The Journal of Neuroscience: 31 (2)
Journal of Neuroscience
Vol. 31, Issue 2
12 Jan 2011
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Interactions of Top-Down and Bottom-Up Mechanisms in Human Visual Cortex
Stephanie McMains, Sabine Kastner
Journal of Neuroscience 12 January 2011, 31 (2) 587-597; DOI: 10.1523/JNEUROSCI.3766-10.2011

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Interactions of Top-Down and Bottom-Up Mechanisms in Human Visual Cortex
Stephanie McMains, Sabine Kastner
Journal of Neuroscience 12 January 2011, 31 (2) 587-597; DOI: 10.1523/JNEUROSCI.3766-10.2011
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