Paul V. Garcia scite author profile

MP correlates with three aspects of visual performance in glare. Unlike previous studies of MP and glare, the present study used free-viewing conditions, in which effects of iris pigmentation and pupil size could be accounted for. The effects described, therefore, can be extended more confidently to real-world, practical visual performance benefits. Greater iris constriction resulted (paradoxically) in greater visual discomfort. This finding may be attributable to the neurobiologic mechanism that mediates the pain elicited by light.

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Macular Pigment and Visual Performance in Low-Light Conditions

Stringham

Garcia²,

Smith³

et al. 2015

Invest. Ophthalmol. Vis. Sci.

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Macular pigment appears to enhance visual function in low-light conditions. Based on the results of this study, it can be said that MP extends the range of foveal vision into lower light. Additionally, MP appears to enhance dark adaptation kinetics, which suggests that increased MPOD leads to more efficient photopigment regeneration. The findings of the color detection portion of the study are suggestive of an active compensatory mechanism that offsets absorption by MP in order to maintain normal color perception.

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Wavelength and ambient luminance dependence of laser eye dazzle

et al. 2017

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A series of experiments has been conducted to quantify the effects of laser wavelength and ambient luminance on the severity of laser eye dazzle experienced by human subjects. Eight laser wavelengths in the visible spectrum were used (458-647 nm) across a wide range of ambient luminance conditions (0.1-10,000 cd·m). Subjects were exposed to laser irradiance levels up to 600 μW·cm and were asked to recognize the orientation of optotypes at varying eccentricities up to 31.6 deg of visual angle from the laser axis. More than 40,000 data points were collected from 14 subjects (ages 23-64), and these were consolidated into a series of obscuration angles for comparison to a theoretical model of laser eye dazzle. Scaling functions were derived to allow the model to predict the effects of laser dazzle on vision more accurately by including the effects of ambient luminance and laser wavelength. The updated model provides an improved match to observed laser eye dazzle effects across the full range of conditions assessed. The resulting model will find use in a variety of laser safety applications, including the estimation of maximum dazzle exposure and nominal ocular dazzle distance values.

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Impact of windscreen scatter on laser eye dazzle

et al. 2018

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A self-adjustment procedure for measuring the visual acuity of rhesus monkeys

Graham

Farrer

Crook

et al. 1970

Behav. Res. Meth. & Instru.

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Paul V. Garcia

Macular Pigment and Visual Performance in Glare: Benefits for Photostress Recovery, Disability Glare, and Visual Discomfort

Macular Pigment and Visual Performance in Low-Light Conditions

Wavelength and ambient luminance dependence of laser eye dazzle

Impact of windscreen scatter on laser eye dazzle

A self-adjustment procedure for measuring the visual acuity of rhesus monkeys

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