Human posterior parietal cortex responds to visual stimuli as early as peristriate occipital cortex

Regev, Tamar I; Winawer, Jonathan; Gerber, Edden M.; Knight, Robert T.; Deouell, Leon Y.

doi:10.1101/377887

2018

DOI: 10.1101/377887

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Human posterior parietal cortex responds to visual stimuli as early as peristriate occipital cortex

Tamar I Regev

Jonathan Winawer

Edden M. Gerber

et al.

Abstract: Much of what is known about the timing of visual processing in the brain is inferred from intracranial studies in monkeys, with human data limited to mainly non-invasive methods with lower spatial resolution. Here, we estimated visual onset latencies from electrocorticographic (ECoG) recordings in a patient who was implanted with 112 sub-dural electrodes, distributed across the posterior cortex of the right hemisphere, for pre-surgical evaluation of intractable epilepsy. Functional MRI prior to surgery was use… Show more

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References 72 publications

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Intracranial recordings demonstrate medial temporal lobe engagement in visual search in humans

Slama

Jimenez

Saha

et al. 2020

Preprint

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Visual search is a fundamental human behavior, which has been proposed to include two component processes: inefficient search (Search) and efficient search (Pop-out). According to extant research, these two processes map onto two separable neural systems located in the frontal and parietal association cortices. In the present study, we use intracranial recordings from 23 participants to delineate the neural correlates of Search and Pop-out with an unprecedented combination of spatiotemporal resolution and coverage across cortical and subcortical structures. First, we demonstrate a role for the medial temporal lobe in visual search, on par with engagement in frontal and parietal association cortex. Second, we show a gradient of increasing engagement over anatomical space from dorsal to ventral lateral frontal cortex. Third, we confirm previous work demonstrating nearly complete overlap in neural engagement across cortical regions in Search and Pop-out. We further demonstrate Pop-out selectivity manifesting as activity increase in Pop-out as compared to Search in a distributed set of sites including frontal cortex. This result is at odds with the view that Pop-out is implemented in low-level visual cortex or parietal cortex alone. Finally, we affirm a central role for the right lateral frontal cortex in Search.

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Intracranial recordings demonstrate medial temporal lobe engagement in visual search in humans

Slama

Jimenez

Saha

et al. 2020

Preprint

View full text Add to dashboard Cite

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Human posterior parietal cortex responds to visual stimuli as early as peristriate occipital cortex

Cited by 1 publication

References 72 publications

Intracranial recordings demonstrate medial temporal lobe engagement in visual search in humans

Intracranial recordings demonstrate medial temporal lobe engagement in visual search in humans

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