Abstract
Stable sensory perception is achieved through balanced excitatory-inhibitory interactions of lateralized sensory processing. In real world experience, sensory processing is rarely equal across lateralized processing regions, resulting in continuous rebalancing. Using lateralized attention as a case study, we predicted rebalancing lateralized processing following prolonged spatial attention imbalance could cause a gain in attention in the opposite direction. In neurotypical human adults, we isolated covert attention to one visual field with a 30-min attention-demanding task and found an increase in attention in the opposite visual field after manipulation. We suggest a gain in lateralized attention in the previously unattended visual field is due to an overshoot through attention rebalancing. The offline post-manipulation effect is suggestive of long-term potentiation affecting behavior. Our finding of visual field specific attention increase could be critical for the development of clinical rehabilitation for patients with a unilateral lesion and lateralized attention deficits. This proof-of-concept study initiates the examination of overshoot following the release of imbalance in other lateralized control and sensory domains, important in our basic understanding of lateralized processing.
Highlights
Stable sensory perception is achieved through balanced excitatory-inhibitory interactions of lateralized sensory processing
The dorsal frontal-parietal attention regions span the intraparietal sulcus (IPS), superior parietal lobule (SPL), frontal eye fields (FEF) and dorsolateral prefrontal cortex (PFC) in both the left and right h emisphere5,8. fMRI evidence supports that spatial attention to the left and right visual field is lateralized to right and left hemispheres, r espectively[9,10,11,12]
We first examined the impact of prolonged tracking in one visual field on modulation of visual field specific attention from pre- to post-isolation
Summary
Stable sensory perception is achieved through balanced excitatory-inhibitory interactions of lateralized sensory processing. Our finding of visual field specific attention increase could be critical for the development of clinical rehabilitation for patients with a unilateral lesion and lateralized attention deficits. This proof-of-concept study initiates the examination of overshoot following the release of imbalance in other lateralized control and sensory domains, important in our basic understanding of lateralized processing. Deficits in left visual field attention are typically found in patients with a right frontal-parietal unilateral lesion. When driving on the outside lane of a highway, we fixate on the road ahead, but attend to the right visual field continuously for hazards How does this prolonged imbalance affect subsequent attention processing across the visual field?.
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