Distinct mechanisms underlie value-driven modulation of visual cortex by previously rewarded visual and auditory stimuli
Distinct mechanisms underlie value-driven modulation of visual cortex by previously rewarded visual and auditory stimuli
Past reward associations may be signaled by stimuli from different sensory modalities, however it remains unclear how different types of reward-associated stimuli modulate perception. In this human fMRI study, we employed a paradigm involving a visual discrimination task, where a visual target was simultaneously presented with either an intra-(visual) or a cross-modal (auditory) cue that was previously associated with rewards. We hypothesized that depending on the sensory modality of the cues distinct neural pathways underlie the value-driven modulation of visual areas. Two steps of analyses were conducted: first, using a multivariate approach, we confirmed that previously reward-associated cues enhanced the target representation in the early visual areas. Then, using effective connectivity analysis, we tested three possible patterns of communication across the brain regions that could underlie the modulation of visual cortex: a direct pathway from the frontal valuation areas to the visual areas, a mediated pathway through the attention-related areas, and a mediated pathway that additionally involved distinct sensory association areas for auditory and visual rewards. We found evidence for the third model and demonstrate that reward-related information is communicated across the valuation and attention-related brain regions such as the intraparietal sulcus across for both visual and auditory cues. Additionally, the long-range communication of reward information also involved the superior temporal areas in case of auditory reward-associated stimuli. These results suggest that in the presence of previously rewarded stimuli from different sensory modalities, a combination of domain-general and domain-specific mechanisms are recruited across the brain to adjust visual processing.
Antono, Jesssica Emily
ecbabe77-583a-40a2-ae8a-3876f14b16c7
Dang, Shilpa
beaa809b-b64f-41a4-b134-48a42b5e97f8
Auksztulewicz, Ryszard
bac30103-5fb2-453c-8e15-ff249a970684
Pooresmaeili, Arezoo
319b6aed-8454-4ad2-b16e-8fadfdfd2e53
25 January 2023
Antono, Jesssica Emily
ecbabe77-583a-40a2-ae8a-3876f14b16c7
Dang, Shilpa
beaa809b-b64f-41a4-b134-48a42b5e97f8
Auksztulewicz, Ryszard
bac30103-5fb2-453c-8e15-ff249a970684
Pooresmaeili, Arezoo
319b6aed-8454-4ad2-b16e-8fadfdfd2e53
[Unknown type: UNSPECIFIED]
Abstract
Past reward associations may be signaled by stimuli from different sensory modalities, however it remains unclear how different types of reward-associated stimuli modulate perception. In this human fMRI study, we employed a paradigm involving a visual discrimination task, where a visual target was simultaneously presented with either an intra-(visual) or a cross-modal (auditory) cue that was previously associated with rewards. We hypothesized that depending on the sensory modality of the cues distinct neural pathways underlie the value-driven modulation of visual areas. Two steps of analyses were conducted: first, using a multivariate approach, we confirmed that previously reward-associated cues enhanced the target representation in the early visual areas. Then, using effective connectivity analysis, we tested three possible patterns of communication across the brain regions that could underlie the modulation of visual cortex: a direct pathway from the frontal valuation areas to the visual areas, a mediated pathway through the attention-related areas, and a mediated pathway that additionally involved distinct sensory association areas for auditory and visual rewards. We found evidence for the third model and demonstrate that reward-related information is communicated across the valuation and attention-related brain regions such as the intraparietal sulcus across for both visual and auditory cues. Additionally, the long-range communication of reward information also involved the superior temporal areas in case of auditory reward-associated stimuli. These results suggest that in the presence of previously rewarded stimuli from different sensory modalities, a combination of domain-general and domain-specific mechanisms are recruited across the brain to adjust visual processing.
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Published date: 25 January 2023
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Local EPrints ID: 481697
URI: http://eprints.soton.ac.uk/id/eprint/481697
PURE UUID: cb104565-852f-431b-bf59-35ccbf8aea01
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Date deposited: 06 Sep 2023 16:50
Last modified: 17 Mar 2024 04:18
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Author:
Jesssica Emily Antono
Author:
Shilpa Dang
Author:
Ryszard Auksztulewicz
Author:
Arezoo Pooresmaeili
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