RÉSUMÉ
Objective To investigate the effect of blue light on the dioptric development of the eyes of lens-induced myopia(LIM)guinea pigs.Methods Three-week-old trichromatic guinea pigs were randomly divided into three groups:control group,white light LIM(WL)group,and blue light LIM(BL)group(420 nm LED light,with an illuminance of 700 lx);guinea pigs in the latter two groups wore-10.00 D lenses in their right eyes to induce myopia.All guinea pigs under-went a 12 h light/12 h dark treatment cycle.Before and 2,4 weeks after the intervention,the diopter,axial length,retinal thickness and choroidal thickness were measured in all groups.After 4 weeks of intervention,the corneal fluorescent stai-ning and retinal Hematoxylin and Eosin(HE)staining were conducted.Results Compared with the control group,from week 0 to week 2 of the intervention(changes in weeks 0-2),the eyes in the WL group drifted(-2.22±1.28)D towards myopia,the axial length lengthened by(0.40±0.05)mm,and the retinal and choroidal thicknesses reduced by(-7.42± 7.04)μm and(-6.29±4.66)μm,respectively;compared with the WL group,in the BL group,the eyes drifted toward hyperopia by(0.48±1.16)D,the axial length increased by(0.20±0.10)mm,and retinal and choroidal thicknesses in-creased by(1.36±7.46)μm and(8.05±8.08)μm,respectively(all P<0.05).From week 2 to week 4(changes in weeks 2-4),compared with the control group,the diopter in the WL and BL groups progressed towards myopia,with changes of(-4.64±0.50)D and(-2.11±2.02)D,respectively(both P<0.05);the axial length lengthened,and reti-nal and choroidal thicknesses reduced in the WL group,with changes of(0.44±0.06)mm,(-7.35±5.87)μm and(-4.84±2.61)μm,while the choroidal thickness and the retinal thickness decreased in the BL group,with changes of(-0.33±5.95)μm and(-4.78±4.96)μm,respectively.Observations of corneal fluorescence staining and retinal HE staining indicated that prolonged blue light exposure could lead to damage to corneal and retinal cells.Conclusion Blue light may influence the development of myopia through choroid-related mechanisms,but its inhibitory effect is not positive-ly correlated with time.Prolonged exposure to blue light can damage the cornea and retina,thereby reducing the inhibitory effect.
RÉSUMÉ
The complex function of the brain depends on the interaction of its intrinsic neurons and neural network systems,in which glutamatergic projection neurons and GABAergic inhibitory interneurons play an important role.There is a critical period in the postnatal development of the visual system when it is susceptible to the external environment,which may affect visual plasticity.Changes in the visual environment can lead to adaptive adjustment in neural connections and synaptic structures among visual cortexes,and the perineural network in the extracellular matrix has been proven to play an essential role in this process.The parvalbumin-positive inhibitory interneurons(PV+INs)contained in the perineural net-works are also involved in regulating plasticity during the critical period of visual development.PV+INs are a kind of inter-neurons that express the parvalbumin found in various parts of the brain.Recent studies have demonstrated that specific modulation of these neurons not only reveals some potential therapeutic mechanisms for disorders such as amblyopia,de-pression and autism but also provides a more precise treatment for these diseases.In this paper,various regulatory factors of PV+INs from their origin to the end of the critical period of visual development and their involvement in visual develop-mental plasticity were reviewed,with the aim of providing some guidance for basic research on visual cortical plasticity.