Modulation of cortical activity by spherical blur and its correlation with retinal defocus.

Cortical activity, as recorded via electroencephalography, has been linked to the refractive error of an individual. It is however unclear which optical metric modulates this response. Here, we measured simultaneously the brain activity and the retinal defocus of a visual stimulus perceived through several values of spherical blur. We found that, contrary to the existing literature on the topic, the cortical response as a function of the overcorrections follows a sigmoidal shape rather than the classical bell shape, with the inflection point corresponding to the subjective refraction and to the stimulus being in focus on the retina. However, surprisingly, the amplitude of the cortical response does not seem to be a good indicator of how much the stimulus is in or out of focus on the retina. Nonetheless, the defocus is not equivalent to the retinal image quality, nor is an absolute predictor of the visual performance of an individual. Simulations of the retinal image quality seem to be a powerful tool to predict the modulation of the cortical response with the refractive error.

Effects of mild- and moderate-intensity illumination on short-term axial length and choroidal thickness changes in young adults.

PURPOSE: Previous studies have shown that time spent outdoors is protective against myopia development in children. In this study, we examined the effects of 500 and 1000 lux of illumination to the eye on axial length (AL) and choroidal thickness (CT) changes in young adults. METHODS: Fifteen participants (mean age, 21.60 years [2.16]) with a mean refraction of -0.34 D (0.37) were exposed to 500 and 1000 lux of illumination for 120 min in a dark room on two different days, using a pair of light-emitting glasses. Ocular measurements were repeated on an additional day in darkness (~5 lux). Ocular biometrics and CT were measured and analysed in the right eye before the light exposure (0 min), after 30, 60 and 120 min of exposure and 30 min after light offset to measure recovery using the Lenstar biometer and the Cirrus optical coherence tomographer, respectively. RESULTS: Exposure to 500 and 1000 lux of illumination resulted in a significant reduction in AL at 30, 60 and 120 min compared to darkness (AL change at 120 min: darkness, +0.020 mm [0.004]; 500 lux, -0.006 mm [0.004]; 1000 lux, -0.013 mm [0.004]; p < 0.001). Exposure to 500 and 1000 lux caused a significant overall thickening of the subfoveal choroid compared to darkness (CT change across 120 min: darkness, -0.010 mm [0.007]; 500 lux, +0.006 mm [0.005]; 1000 lux, +0.009 mm [0.003], p = 0.02). Ocular changes were not significantly different between the two illumination levels (p > 0.05) and returned to baseline within 30 min of light offset. CONCLUSIONS: Exposure to mild- or moderate-intensity illumination on the eye can induce a significant short-term reduction in AL and an increase in CT in young adults. Future studies on larger cohorts with varying light intensities are needed to better understand the effects of ocular illumination on AL changes in humans.

Drifting while stepping in place in old adults: Association of self-motion perception with reference frame reliance and ground optic flow sensitivity.

Optic flow provides visual self-motion information and is shown to modulate gait and provoke postural reactions. We have previously reported an increased reliance on the visual, as opposed to the somatosensory-based egocentric, frame of reference (FoR) for spatial orientation with age. In this study, we evaluated FoR reliance for self-motion perception with respect to the ground surface. We examined how effects of ground optic flow direction on posture may be enhanced by an intermittent podal contact with the ground, and reliance on the visual FoR and aging. Young, middle-aged and old adults stood quietly (QS) or stepped in place (SIP) for 30s under static stimulation, approaching and receding optic flow on the ground and a control condition. We calculated center of pressure (COP) translation and optic flow sensitivity was defined as the ratio of COP translation velocity over absolute optic flow velocity: the visual self-motion quotient (VSQ). COP translation was more influenced by receding flow during QS and by approaching flow during SIP. In addition, old adults drifted forward while SIP without any imposed visual stimulation. Approaching flow limited this natural drift and receding flow enhanced it, as indicated by the VSQ. The VSQ appears to be a motor index of reliance on the visual FoR during SIP and is associated with greater reliance on the visual and reduced reliance on the egocentric FoR. Exploitation of the egocentric FoR for self-motion perception with respect to the ground surface is compromised by age and associated with greater sensitivity to optic flow.