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Photic memory for executive brain responses.

Photic memory for executive brain responses.
Photic memory for executive brain responses.
Light is a powerful stimulant for human alertness and cognition, presumably acting through a photoreception system that heavily relies on the photopigment melanopsin. In humans, evidence for melanopsin involvement in light-driven cognitive stimulation remains indirect, due to the difficulty to selectively isolate its contribution. Therefore, a role for melanopsin in human cognitive regulation remains to be established. Here, sixteen participants underwent consecutive and identical functional MRI recordings, during which they performed a simple auditory detection task and a more difficult auditory working memory task, while continuously exposed to the same test light (515 nm). We show that the impact of test light on executive brain responses depends on the wavelength of the light to which individuals were exposed prior to each recording. Test-light impact on executive responses in widespread prefrontal areas and in the pulvinar increased when the participants had been exposed to longer (589 nm), but not shorter (461 nm), wavelength light, more than 1 h before. This wavelength-dependent impact of prior light exposure is consistent with recent theories of the light-driven melanopsin dual states. Our results emphasize the critical role of light for cognitive brain responses and are, to date, the strongest evidence in favor of a cognitive role for melanopsin, which may confer a form of “photic memory” to human cognitive brain function
0027-8424
6087-6091
Chellappa, S. L.
516582b5-3cba-4644-86c9-14c91a4510f2
Ly, JQ
d58c9966-52b4-463a-ab18-65dc222ed99a
Meyer, C
58af247c-0c51-4872-bb9c-3384fbf8d3a2
Balteau, E
ebe0197e-1d2c-43f5-a2cd-1764927f75fa
Degueldre, C
3ca09d52-1894-4009-a3a2-2cc4f394d97b
Luxen, A
a87cdbec-45d5-4d32-aa0e-3d29c4bd3959
Phillips, C
446f3884-e47a-41ad-a398-cf055dfb901d
Cooper, H. M.
98b65df0-139e-40be-b70a-5c6049e7a158
Vandewalle, G
26e86381-f07d-41ae-ae39-debbfd10013b
Chellappa, S. L.
516582b5-3cba-4644-86c9-14c91a4510f2
Ly, JQ
d58c9966-52b4-463a-ab18-65dc222ed99a
Meyer, C
58af247c-0c51-4872-bb9c-3384fbf8d3a2
Balteau, E
ebe0197e-1d2c-43f5-a2cd-1764927f75fa
Degueldre, C
3ca09d52-1894-4009-a3a2-2cc4f394d97b
Luxen, A
a87cdbec-45d5-4d32-aa0e-3d29c4bd3959
Phillips, C
446f3884-e47a-41ad-a398-cf055dfb901d
Cooper, H. M.
98b65df0-139e-40be-b70a-5c6049e7a158
Vandewalle, G
26e86381-f07d-41ae-ae39-debbfd10013b

Chellappa, S. L., Ly, JQ, Meyer, C, Balteau, E, Degueldre, C, Luxen, A, Phillips, C, Cooper, H. M. and Vandewalle, G (2014) Photic memory for executive brain responses. Proceedings of the National Academy of Sciences of the United States of America, 111 (16), 6087-6091. (doi:10.1073/pnas.1320005111).

Record type: Article

Abstract

Light is a powerful stimulant for human alertness and cognition, presumably acting through a photoreception system that heavily relies on the photopigment melanopsin. In humans, evidence for melanopsin involvement in light-driven cognitive stimulation remains indirect, due to the difficulty to selectively isolate its contribution. Therefore, a role for melanopsin in human cognitive regulation remains to be established. Here, sixteen participants underwent consecutive and identical functional MRI recordings, during which they performed a simple auditory detection task and a more difficult auditory working memory task, while continuously exposed to the same test light (515 nm). We show that the impact of test light on executive brain responses depends on the wavelength of the light to which individuals were exposed prior to each recording. Test-light impact on executive responses in widespread prefrontal areas and in the pulvinar increased when the participants had been exposed to longer (589 nm), but not shorter (461 nm), wavelength light, more than 1 h before. This wavelength-dependent impact of prior light exposure is consistent with recent theories of the light-driven melanopsin dual states. Our results emphasize the critical role of light for cognitive brain responses and are, to date, the strongest evidence in favor of a cognitive role for melanopsin, which may confer a form of “photic memory” to human cognitive brain function

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Accepted/In Press date: 13 February 2014
Published date: 10 March 2014
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Identifiers

Local EPrints ID: 479471
URI: http://eprints.soton.ac.uk/id/eprint/479471
DOI: doi:10.1073/pnas.1320005111
ISSN: 0027-8424
PURE UUID: 455320ab-bfab-4dab-bd15-b15e4179ac09
ORCID for S. L. Chellappa: ORCID iD orcid.org/0000-0002-6190-464X

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Date deposited: 25 Jul 2023 16:31
Last modified: 17 Mar 2024 04:20

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Contributors

Author: S. L. Chellappa ORCID iD
Author: JQ Ly
Author: C Meyer
Author: E Balteau
Author: C Degueldre
Author: A Luxen
Author: C Phillips
Author: H. M. Cooper
Author: G Vandewalle

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