Temporal bright light at low frequency retards lens-induced myopia in guinea pigs

Temporal bright light at low frequency retards lens-induced myopia in guinea pigs

Bright light conditions are supposed to curb eye growth in animals with experimental myopia. Here we investigated the effects of temporal bright light at very low frequencies exposures on lens-induced myopia (LIM) progression. Myopia was induced by application of -6.00 D lenses over the right eye of...

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Bibliographic Details
Published in:PeerJ (San Francisco, CA) Vol. 11; p. e16425
Main Authors: Deng, Baodi, Li, Wentao, Chen, Ziping, Zeng, Junwen, Zhao, Feng
Format: Journal Article
Language:English
Published: United States PeerJ. Ltd 14-11-2023
PeerJ, Inc
PeerJ Inc
Subjects:
Analysis
Animals
Dynamic light
Elongation
Experiments
Eye
Eye lens
Guinea Pigs
Illumination
Lens-induced myopia
Light
Lighting
Myopia
Myopia - prevention & control
Refraction, Ocular
Refractive Errors
Temporal illumination modulation
China
Lens-induced myopia
Guinea pigs
Dynamic light
Temporal illumination modulation
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Summary:Bright light conditions are supposed to curb eye growth in animals with experimental myopia. Here we investigated the effects of temporal bright light at very low frequencies exposures on lens-induced myopia (LIM) progression. Myopia was induced by application of -6.00 D lenses over the right eye of guinea pigs. They were randomly divided into four groups based on exposure to different lighting conditions: constant low illumination (CLI; 300 lux), constant high illumination (CHI; 8,000 lux), very low frequency light (vLFL; 300/8,000 lux, 10 min/c), and low frequency light (LFL; 300/8,000 lux, 20 s/c). Refraction and ocular dimensions were measured per week. Changes in ocular dimensions and refractions were analyzed by paired t-tests, and differences among the groups were analyzed by one-way ANOVA. Significant myopic shifts in refractive error were induced in lens-treated eyes compared with contralateral eyes in all groups after 3 weeks (all < 0.05). Both CHI and LFL conditions exhibited a significantly less refractive shift of LIM eyes than CLI and vLFL conditions ( < 0.05). However, only LFL conditions showed significantly less overall myopic shift and axial elongation than CLI and vLFL conditions (both < 0.05). The decrease in refractive error of both eyes correlated significantly with axial elongation in all groups ( < 0.001), except contralateral eyes in the CHI group ( = 0.231). LFL condition significantly slacked lens thickening in the contralateral eyes. Temporal bright light at low temporal frequency (0.05 Hz) appears to effectively inhibit LIM progression. Further research is needed to determine the safety and the potential mechanism of temporal bright light in myopic progression.
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ISSN:2167-8359
2167-8359
DOI:10.7717/peerj.16425