Impact of repeated short light exposures on sustained pupil responses in an fMRI environment

doi:10.1111/jsr.14085

. 2024 Aug;33(4):e14085.

doi: 10.1111/jsr.14085. Epub 2023 Oct 30.

Impact of repeated short light exposures on sustained pupil responses in an fMRI environment

Affiliations

¹ GIGA-Cyclotron Research Centre-In Vivo Imaging, University of Liège, Liège, Belgium.
² Faculty of Health, Medicine and Life Sciences, School for Mental Health and Neuroscience, Alzheimer Centre Limburg, Maastricht University, Maastricht, the Netherlands.
³ Institute of Neuroscience (IoNS), Université Catholique de Louvain (UCLouvain), Woluwe-Saint-Lambert, Belgium.
⁴ Synergia Medical SA, Mont-Saint-Guibert, Belgium.
⁵ Gordon Center for Medical Imaging, Department of Radiology, Massachusetts General Hospital, Harvard Medical School, Boston, Massachusetts, USA.

PMID: 37904313
DOI: 10.1111/jsr.14085

Free article

Impact of repeated short light exposures on sustained pupil responses in an fMRI environment

Elise Beckers et al. J Sleep Res. 2024 Aug.

Free article

. 2024 Aug;33(4):e14085.

doi: 10.1111/jsr.14085. Epub 2023 Oct 30.

Authors

Affiliations

¹ GIGA-Cyclotron Research Centre-In Vivo Imaging, University of Liège, Liège, Belgium.
² Faculty of Health, Medicine and Life Sciences, School for Mental Health and Neuroscience, Alzheimer Centre Limburg, Maastricht University, Maastricht, the Netherlands.
³ Institute of Neuroscience (IoNS), Université Catholique de Louvain (UCLouvain), Woluwe-Saint-Lambert, Belgium.
⁴ Synergia Medical SA, Mont-Saint-Guibert, Belgium.
⁵ Gordon Center for Medical Imaging, Department of Radiology, Massachusetts General Hospital, Harvard Medical School, Boston, Massachusetts, USA.

PMID: 37904313
DOI: 10.1111/jsr.14085

Abstract

Light triggers numerous non-image-forming, or non-visual, biological effects. The brain correlates of these non-image-forming effects have been investigated, notably using magnetic resonance imaging and short light exposures varying in irradiance and spectral quality. However, it is not clear whether non-image-forming responses estimation may be biased by having light in sequential blocks, for example, through a potential carryover effect of one light onto the next. We reasoned that pupil light reflex was an easy readout of one of the non-image-forming effects of light that could be used to address this issue. We characterised the sustained pupil light reflex in 13-16 healthy young individuals under short light exposures during three distinct cognitive processes (executive, emotional and attentional). Light conditions pseudo-randomly alternated between monochromatic orange light (0.16 melanopic equivalent daylight illuminance lux) and polychromatic blue-enriched white light of three different levels (37, 92, 190 melanopic equivalent daylight illuminance lux). As expected, higher melanopic irradiance was associated with larger sustained pupil light reflex in each cognitive domain. This result was stable over the light sequence under higher melanopic irradiance levels compared with lower ones. Exploratory frequency-domain analyses further revealed that sustained pupil light reflex was more variable under lower melanopic irradiance levels. Importantly, sustained pupil light reflex varied across tasks independently of the light condition, pointing to a potential impact of light history and/or cognitive context on sustained pupil light reflex. Together, our results emphasise that the distinct contribution and adaptation of the different retinal photoreceptors influence the non-image-forming effects of light and therefore potentially their brain correlates.

Keywords: functional magnetic resonance imaging; melanopic equivalent daylight illuminance; melanopsin; non‐image‐forming effect of light; pupil light reflex.

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Paparella I, Campbell I, Sharifpour R, Beckers E, Berger A, Aizpurua JFB, Koshmanova E, Mortazavi N, Talwar P, Degueldre C, Lamalle L, Sherif S, Phillips C, Maquet P, Vandewalle G. Paparella I, et al. Commun Biol. 2023 Sep 16;6(1):945. doi: 10.1038/s42003-023-05337-5. Commun Biol. 2023. PMID: 37714936 Free PMC article.

References

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1. Banse, R., & Scherer, K. R. (1996). Acoustic profiles in vocal emotion expression. Journal of Personality and Social Psychology, 70(3), 614–636. https://doi.org/10.1037//0022-3514.70.3.614
1. Beck, A. T., Epstein, N., Brown, G., & Steer, R. A. (1988). An inventory for measuring clinical anxiety: Psychometric properties. Journal of Consulting and Clinical Psychology, 56(6), 893–897. https://doi.org/10.1037//0022-006x.56.6.893
1. Beck, A. T., Ward, C. H., Mendelson, M., Mock, J., & Erbaugh, J. (1961). An inventory for measuring depression. Archives of General Psychiatry, 4, 561–571. https://doi.org/10.1001/archpsyc.1961.01710120031004
1. Berson, D. M., Dunn, F. A., & Takao, M. (2002). Phototransduction by retinal ganglion cells that set the circadian clock. Science, 295(5557), 1070–1073. https://doi.org/10.1126/science.1067262

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[1] Aston‐Jones, G., & Bloom, F. E. (1981). Norepinephrine‐containing locus coeruleus neurons in behaving rats exhibit pronounced responses to non‐noxious environmental stimuli. The Journal of Neuroscience, 1(8), 887–900. https://doi.org/10.1523/jneurosci.01-08-00887.1981

[2] Aston‐Jones, G., & Bloom, F. E. (1981). Norepinephrine‐containing locus coeruleus neurons in behaving rats exhibit pronounced responses to non‐noxious environmental stimuli. The Journal of Neuroscience, 1(8), 887–900. https://doi.org/10.1523/jneurosci.01-08-00887.1981

[3] Banse, R., & Scherer, K. R. (1996). Acoustic profiles in vocal emotion expression. Journal of Personality and Social Psychology, 70(3), 614–636. https://doi.org/10.1037//0022-3514.70.3.614

[4] Banse, R., & Scherer, K. R. (1996). Acoustic profiles in vocal emotion expression. Journal of Personality and Social Psychology, 70(3), 614–636. https://doi.org/10.1037//0022-3514.70.3.614

[5] Beck, A. T., Epstein, N., Brown, G., & Steer, R. A. (1988). An inventory for measuring clinical anxiety: Psychometric properties. Journal of Consulting and Clinical Psychology, 56(6), 893–897. https://doi.org/10.1037//0022-006x.56.6.893

[6] Beck, A. T., Epstein, N., Brown, G., & Steer, R. A. (1988). An inventory for measuring clinical anxiety: Psychometric properties. Journal of Consulting and Clinical Psychology, 56(6), 893–897. https://doi.org/10.1037//0022-006x.56.6.893

[7] Beck, A. T., Ward, C. H., Mendelson, M., Mock, J., & Erbaugh, J. (1961). An inventory for measuring depression. Archives of General Psychiatry, 4, 561–571. https://doi.org/10.1001/archpsyc.1961.01710120031004

[8] Beck, A. T., Ward, C. H., Mendelson, M., Mock, J., & Erbaugh, J. (1961). An inventory for measuring depression. Archives of General Psychiatry, 4, 561–571. https://doi.org/10.1001/archpsyc.1961.01710120031004

[9] Berson, D. M., Dunn, F. A., & Takao, M. (2002). Phototransduction by retinal ganglion cells that set the circadian clock. Science, 295(5557), 1070–1073. https://doi.org/10.1126/science.1067262

[10] Berson, D. M., Dunn, F. A., & Takao, M. (2002). Phototransduction by retinal ganglion cells that set the circadian clock. Science, 295(5557), 1070–1073. https://doi.org/10.1126/science.1067262

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Impact of repeated short light exposures on sustained pupil responses in an fMRI environment

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Impact of repeated short light exposures on sustained pupil responses in an fMRI environment

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