Mnemonic representations in human lateral geniculate nucleus

There is a growing appreciation for the role of the thalamus in high-level cognition. Motivated by findings that internal cognitive state drives activity in feedback layers of primary visual cortex (V1) that target the lateral geniculate nucleus (LGN), we investigated the role of LGN in working memo...

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Published inFrontiers in behavioral neuroscience Vol. 17; p. 1094226
Main Authors Rahmati, Masih, Curtis, Clayton E., Sreenivasan, Kartik K.
Format Journal Article
LanguageEnglish
Published Switzerland Frontiers Research Foundation 10.05.2023
Frontiers Media S.A
Subjects
Cognitive ability
Feedback
fMRI
Hemodynamics
human
Lateral geniculate nucleus
Magnetic resonance imaging
Memory
modeling
Neuroimaging
Neuroscience
retinotopy
saccades
Saccadic eye movements
Scanners
Short term memory
Spatial memory
Thalamus
Visual cortex
working memory
New York
Canada
United States > US
fMRI
modeling
saccades
working memory
human
retinotopy
Online AccessGet full text
ISSN1662-5153
1662-5153
DOI10.3389/fnbeh.2023.1094226

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Abstract There is a growing appreciation for the role of the thalamus in high-level cognition. Motivated by findings that internal cognitive state drives activity in feedback layers of primary visual cortex (V1) that target the lateral geniculate nucleus (LGN), we investigated the role of LGN in working memory (WM). Specifically, we leveraged model-based neuroimaging approaches to test the hypothesis that human LGN encodes information about spatial locations temporarily encoded in WM. First, we localized and derived a detailed topographic organization in LGN that accords well with previous findings in humans and non-human primates. Next, we used models constructed on the spatial preferences of LGN populations in order to reconstruct spatial locations stored in WM as subjects performed modified memory-guided saccade tasks. We found that population LGN activity faithfully encoded the spatial locations held in memory in all subjects. Importantly, our tasks and models allowed us to dissociate the locations of retinal stimulation and the motor metrics of memory-guided saccades from the maintained spatial locations, thus confirming that human LGN represents true WM information. These findings add LGN to the growing list of subcortical regions involved in WM, and suggest a key pathway by which memories may influence incoming processing at the earliest levels of the visual hierarchy.
AbstractList There is a growing appreciation for the role of the thalamus in high-level cognition. Motivated by findings that internal cognitive state drives activity in feedback layers of primary visual cortex (V1) that target the lateral geniculate nucleus (LGN), we investigated the role of LGN in working memory (WM). Specifically, we leveraged model-based neuroimaging approaches to test the hypothesis that human LGN encodes information about spatial locations temporarily encoded in WM. First, we localized and derived a detailed topographic organization in LGN that accords well with previous findings in humans and non-human primates. Next, we used models constructed on the spatial preferences of LGN populations in order to reconstruct spatial locations stored in WM as subjects performed modified memory-guided saccade tasks. We found that population LGN activity faithfully encoded the spatial locations held in memory in all subjects. Importantly, our tasks and models allowed us to dissociate the locations of retinal stimulation and the motor metrics of memory-guided saccades from the maintained spatial locations, thus confirming that human LGN represents true WM information. These findings add LGN to the growing list of subcortical regions involved in WM, and suggest a key pathway by which memories may influence incoming processing at the earliest levels of the visual hierarchy.
There is a growing appreciation for the role of the thalamus in high-level cognition. Motivated by findings that internal cognitive state drives activity in feedback layers of primary visual cortex (V1) that target the lateral geniculate nucleus (LGN), we investigated the role of LGN in working memory (WM). Specifically, we leveraged model-based neuroimaging approaches to test the hypothesis that human LGN encodes information about spatial locations temporarily encoded in WM. First, we localized and derived a detailed topographic organization in LGN that accords well with previous findings in humans and non-human primates. Next, we used models constructed on the spatial preferences of LGN populations in order to reconstruct spatial locations stored in WM as subjects performed modified memory-guided saccade tasks. We found that population LGN activity faithfully encoded the spatial locations held in memory in all subjects. Importantly, our tasks and models allowed us to dissociate the locations of retinal stimulation and the motor metrics of memory-guided saccades from the maintained spatial locations, thus confirming that human LGN represents true WM information. These findings add LGN to the growing list of subcortical regions involved in WM, and suggest a key pathway by which memories may influence incoming processing at the earliest levels of the visual hierarchy.There is a growing appreciation for the role of the thalamus in high-level cognition. Motivated by findings that internal cognitive state drives activity in feedback layers of primary visual cortex (V1) that target the lateral geniculate nucleus (LGN), we investigated the role of LGN in working memory (WM). Specifically, we leveraged model-based neuroimaging approaches to test the hypothesis that human LGN encodes information about spatial locations temporarily encoded in WM. First, we localized and derived a detailed topographic organization in LGN that accords well with previous findings in humans and non-human primates. Next, we used models constructed on the spatial preferences of LGN populations in order to reconstruct spatial locations stored in WM as subjects performed modified memory-guided saccade tasks. We found that population LGN activity faithfully encoded the spatial locations held in memory in all subjects. Importantly, our tasks and models allowed us to dissociate the locations of retinal stimulation and the motor metrics of memory-guided saccades from the maintained spatial locations, thus confirming that human LGN represents true WM information. These findings add LGN to the growing list of subcortical regions involved in WM, and suggest a key pathway by which memories may influence incoming processing at the earliest levels of the visual hierarchy.
Author Sreenivasan, Kartik K.
Curtis, Clayton E.
Rahmati, Masih
AuthorAffiliation 2 Division of Science and Mathematics, New York University Abu Dhabi , Abu Dhabi , United Arab Emirates
4 Center for Neural Science, New York University , New York, NY , United States
1 Department of Psychology, New York University , New York, NY , United States
3 Department of Psychiatry, Yale University , New Haven, CT , United States
AuthorAffiliation_xml – name: 3 Department of Psychiatry, Yale University , New Haven, CT , United States
– name: 2 Division of Science and Mathematics, New York University Abu Dhabi , Abu Dhabi , United Arab Emirates
– name: 4 Center for Neural Science, New York University , New York, NY , United States
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Keywords fMRI
modeling
saccades
working memory
human
retinotopy
Language English
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Snippet There is a growing appreciation for the role of the thalamus in high-level cognition. Motivated by findings that internal cognitive state drives activity in...
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SubjectTerms Cognitive ability
Feedback
fMRI
Hemodynamics
human
Lateral geniculate nucleus
Magnetic resonance imaging
Memory
modeling
Neuroimaging
Neuroscience
retinotopy
saccades
Saccadic eye movements
Scanners
Short term memory
Spatial memory
Thalamus
Visual cortex
working memory
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