Cortical depth dependent population receptive field attraction by spatial attention in human V1

Barrie P. Klein; Alessio Fracasso; Jelle A. van Dijk; Chris L.E. Paffen; Susan F. te Pas; Serge O. Dumoulin

doi:10.1016/j.neuroimage.2018.04.055

Cortical depth dependent population receptive field attraction by spatial attention in human V1

Barrie P. Klein, Alessio Fracasso, Jelle A. van Dijk, Chris L.E. Paffen, Susan F. te Pas, Serge O. Dumoulin^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Visual spatial attention concentrates neural resources at the attended location. Recently, we demonstrated that voluntary spatial attention attracts population receptive fields (pRFs) toward its location throughout the visual hierarchy. Theoretically, both a feed forward or feedback mechanism could underlie pRF attraction in a given cortical area. Here, we use sub-millimeter ultra-high field functional MRI to measure pRF attraction across cortical depth and assess the contribution of feed forward and feedback signals to pRF attraction. In line with previous findings, we find consistent attraction of pRFs with voluntary spatial attention in V1. When assessed as a function of cortical depth, we find pRF attraction in every cortical portion (deep, center and superficial), although the attraction is strongest in deep cortical portions (near the gray-white matter boundary). Following the organization of feed forward and feedback processing across V1, we speculate that a mixture of feed forward and feedback processing underlies pRF attraction in V1. Specifically, we propose that feedback processing contributes to the pRF attraction in deep cortical portions.

Original language	English
Pages (from-to)	301-312
Number of pages	12
Journal	NeuroImage
Volume	176
DOIs	https://doi.org/10.1016/j.neuroimage.2018.04.055
Publication status	Published - 1 Aug 2018

Funding

This work was supported in part by the Netherlands Organisation for Scientific Research (NWO) grant numbers ( NWO 406-12-141 to B. P. K. and S. O. D.) and Ammodo KNAW Award (S. O. D). The Spinoza Centre for Neuroimaging is a joint initiative of the University of Amsterdam, Academic Medical Center, VU University, VU medical center, Netherlands Institute for Neuroscience and the Royal Netherlands Academy of Sciences. Appendix A

Keywords

Attention field
Population receptive field
Receptive field attraction
Spatial attention
Sub-millimeter fMRI
Visual cortex

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1-s2.0-S1053811918303653-mainFinal published version, 1.68 MBLicence: CC BY-NC-ND

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title = "Cortical depth dependent population receptive field attraction by spatial attention in human V1",

abstract = "Visual spatial attention concentrates neural resources at the attended location. Recently, we demonstrated that voluntary spatial attention attracts population receptive fields (pRFs) toward its location throughout the visual hierarchy. Theoretically, both a feed forward or feedback mechanism could underlie pRF attraction in a given cortical area. Here, we use sub-millimeter ultra-high field functional MRI to measure pRF attraction across cortical depth and assess the contribution of feed forward and feedback signals to pRF attraction. In line with previous findings, we find consistent attraction of pRFs with voluntary spatial attention in V1. When assessed as a function of cortical depth, we find pRF attraction in every cortical portion (deep, center and superficial), although the attraction is strongest in deep cortical portions (near the gray-white matter boundary). Following the organization of feed forward and feedback processing across V1, we speculate that a mixture of feed forward and feedback processing underlies pRF attraction in V1. Specifically, we propose that feedback processing contributes to the pRF attraction in deep cortical portions.",

keywords = "Attention field, Population receptive field, Receptive field attraction, Spatial attention, Sub-millimeter fMRI, Visual cortex",

author = "Klein, {Barrie P.} and Alessio Fracasso and {van Dijk}, {Jelle A.} and Paffen, {Chris L.E.} and {te Pas}, {Susan F.} and Dumoulin, {Serge O.}",

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AU - Klein, Barrie P.

AU - Fracasso, Alessio

AU - van Dijk, Jelle A.

AU - Paffen, Chris L.E.

AU - te Pas, Susan F.

AU - Dumoulin, Serge O.

PY - 2018/8/1

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N2 - Visual spatial attention concentrates neural resources at the attended location. Recently, we demonstrated that voluntary spatial attention attracts population receptive fields (pRFs) toward its location throughout the visual hierarchy. Theoretically, both a feed forward or feedback mechanism could underlie pRF attraction in a given cortical area. Here, we use sub-millimeter ultra-high field functional MRI to measure pRF attraction across cortical depth and assess the contribution of feed forward and feedback signals to pRF attraction. In line with previous findings, we find consistent attraction of pRFs with voluntary spatial attention in V1. When assessed as a function of cortical depth, we find pRF attraction in every cortical portion (deep, center and superficial), although the attraction is strongest in deep cortical portions (near the gray-white matter boundary). Following the organization of feed forward and feedback processing across V1, we speculate that a mixture of feed forward and feedback processing underlies pRF attraction in V1. Specifically, we propose that feedback processing contributes to the pRF attraction in deep cortical portions.

AB - Visual spatial attention concentrates neural resources at the attended location. Recently, we demonstrated that voluntary spatial attention attracts population receptive fields (pRFs) toward its location throughout the visual hierarchy. Theoretically, both a feed forward or feedback mechanism could underlie pRF attraction in a given cortical area. Here, we use sub-millimeter ultra-high field functional MRI to measure pRF attraction across cortical depth and assess the contribution of feed forward and feedback signals to pRF attraction. In line with previous findings, we find consistent attraction of pRFs with voluntary spatial attention in V1. When assessed as a function of cortical depth, we find pRF attraction in every cortical portion (deep, center and superficial), although the attraction is strongest in deep cortical portions (near the gray-white matter boundary). Following the organization of feed forward and feedback processing across V1, we speculate that a mixture of feed forward and feedback processing underlies pRF attraction in V1. Specifically, we propose that feedback processing contributes to the pRF attraction in deep cortical portions.

KW - Attention field

KW - Population receptive field

KW - Receptive field attraction

KW - Spatial attention

KW - Sub-millimeter fMRI

KW - Visual cortex

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Cortical depth dependent population receptive field attraction by spatial attention in human V1

Abstract

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Keywords

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