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Sensitivity to light in bipolar disorder: implications for research and clinical practice: commentary, Terao

Published online by Cambridge University Press:  04 November 2024

Takeshi Terao*
Affiliation:
Department of Neuropsychiatry, Oita University Faculty of Medicine, Oita, Japan. Email: [email protected]
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Abstract

Type
Commentary
Copyright
Copyright © The Author(s), 2024. Published by Cambridge University Press on behalf of Royal College of Psychiatrists

Response

Dr Roguski and colleagues’ editorialReference Roguski, Ritter and Smith1 raises important questions about sensitivity to light in bipolar disorder, but there are several confusions. First, the authors claimed that indirect clinical evidence supporting light hypersensitivity in bipolar disorder comes from the recognized efficacy of chronotherapies such as bright-light therapy for bipolar depression and blue-light blocking glasses (or ‘dark therapies’) for mania. Simply speaking, however, bright-light therapy increases the amount of light and dark therapy decreases the amount of light, both of which are independent of sensitivity to light in bipolar disorder. Even if bipolar patients have normal sensitivity to light, they can obtain benefits from both treatments, which does not support the light hypersensitivity hypothesis in bipolar disorder.

Second, Dr Roguski and colleaguesReference Roguski, Ritter and Smith1 provided experimental evidence that melatonin suppression did not differ between bipolar disorder and control groups,Reference Ritter, Wieland, Skene, Pfennig, Weiss and Bauer2 and insisted that pathways from intrinsically photosensitive retinal ganglion cells (ipRGC) to the suprachiasmatic nucleus (SCN) for melatonin synthesis are intact and sufficient for entraining circadian rhythms, and that light is in itself capable of influencing mood states. However, there is another projection from ipRGC to the perihabenular nucleus (PHb), which is completely independent of SCN and drives the light-mediated mood alterations.Reference Fernandez, Fogerson, Ospri, Thomsen, Layne and Severin3 That is, ipRGCs that project to the SCN mediate the effects of light on circadian rhythms and learning, whereas mood regulation by light requires an SCN-independent pathway linking ipRGCs to PHb.Reference Fernandez, Fogerson, Ospri, Thomsen, Layne and Severin3 The involvement of the PHb in bipolar disorder may be associated with sensitivity to light, which should be clarified in further studies.

Third, Dr Roguski and colleaguesReference Roguski, Ritter and Smith1 indicated a possibility that light is in itself capable of influencing mood states. Hirakawa and colleaguesReference Hirakawa, Terao, Hatano, Shirahama, Kugimiya and Kohno4,Reference Hirakawa, Terao, Hatano, Shirahama, Kugimiya and Kohno5 conducted a randomised controlled trial with a 4-week period of bright light (10 000 lx) exposure or dim light (50 lx) exposure in healthy participantsReference Hirakawa, Terao, Hatano, Shirahama, Kugimiya and Kohno4 and in patients with mood disorders.Reference Hirakawa, Terao, Hatano, Shirahama, Kugimiya and Kohno5 Both studies showed a significantly increased volume of the head of the left dentate gyrus in the bright light exposure group but not in the dim light exposure group.Reference Hirakawa, Terao, Hatano, Shirahama, Kugimiya and Kohno4,Reference Hirakawa, Terao, Hatano, Shirahama, Kugimiya and Kohno5 Particularly in patients with mood disorder, there was a positive correlation between the percentage change in the volume of the whole left dentate gyrus and the percentage change in the scores of the mood visual analogue scale.Reference Hirakawa, Terao, Hatano, Shirahama, Kugimiya and Kohno5 These findings suggest a possibility of neurogenesis induced by bright light in the left dentate gyrus. Although this possibility is yet to be determined and should be cautiously investigated in further studies, if present, it may be applied not only to individuals with mood disorders including bipolar disorder, but also to the general population. Notably, the amount of light may be inversely associated with suicide in the general population.Reference Terao, Soeda, Yoshimura, Nakamura and Iwata6

Fourth, a 2-year follow-up studyReference Esaki, Obayashi, Saeki, Fujita, Iwata and Kitajima7 consisting of 172 bipolar patients (35% of which were people with bipolar I disorder) shows that manic/hypomanic episode relapses were significantly higher when the average nighttime illuminance was ≥3 lux than when it was <3 lux, whereas the association between nighttime light and depressive episode relapses was not significant. These findings suggest that hypersensitivity to light may be associated with manic/hypomanic relapses of bipolar disorder, supporting the hypersensitivity hypothesis in bipolar disorder.

Finally, I agree with the authors’ conclusion that a light hypersensitivity perspective of bipolar disorder is an exciting focus for future research, although sensitivity to light and the amount of light should be differentiated.

Funding

This research received no specific grant from any funding agency, or commercial or not-for-profit sectors.

Declaration of interest

None.

References

Roguski, A, Ritter, P, Smith, DJ. Sensitivity to light in bipolar disorder: implications for research and clinical practice. Br J Psychiatry [Epub ahead of print] 4 Jan 2024. Available from: https://doi.org/10.1192/bjp.2023.150.Google Scholar
Ritter, P, Wieland, F, Skene, DJ, Pfennig, A, Weiss, M, Bauer, M, et al. Melatonin suppression by melanopsin-weighted light in patients with bipolar I disorder compared to healthy controls. J Psychiatry Neurosci 2020; 45: 7987.CrossRefGoogle ScholarPubMed
Fernandez, DC, Fogerson, PM, Ospri, LL, Thomsen, MB, Layne, RM, Severin, D, et al. Light affects mood and learning through distinct retina-brain pathways. Cell 2018; 175: 7184.CrossRefGoogle ScholarPubMed
Hirakawa, H, Terao, T, Hatano, K, Shirahama, M, Kugimiya, T, Kohno, K, et al. Increase in the left hippocampal dentate gyrus head volume after a 4-week bright light exposure in healthy participants: a randomized controlled study. J Psychiatr Res 2021; 145: 15.CrossRefGoogle ScholarPubMed
Hirakawa, H, Terao, T, Hatano, K, Shirahama, M, Kugimiya, T, Kohno, K, et al. Increased volume of the left hippocampal dentate gyrus after 4 weeks of bright light exposure in patients with mood disorders: a randomized controlled study. Transl Psychiatry 2023; 13: 394.CrossRefGoogle ScholarPubMed
Terao, T, Soeda, S, Yoshimura, R, Nakamura, J, Iwata, N. Effect of latitude on suicide rates in Japan. Lancet 2002; 360(9348): 1892.CrossRefGoogle ScholarPubMed
Esaki, Y, Obayashi, K, Saeki, K, Fujita, K, Iwata, N, Kitajima, T. Effect of nighttime bedroom light exposure on mood episode relapses in bipolar disorder. Acta Psychiatr Scand 2022; 146: 6473.CrossRefGoogle ScholarPubMed
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