Abstract
The purpose of this study was to determine the transmission properties of the anterior segment of young primate eyes and potentially relate those changes to photochemical processes in the retina that lead to the early, rapid formation of lipofuscin. A simple method has been developed to determine the optical properties of the anterior segment of the intact eye. Using this technique, the transmission/absorption properties of primate cadaver eyes were determined. A young primate anterior segment has a maximum absorption at 365nm due to the presence of the O-β-glucoside of 3-hydroxykynurenine in the lens. This is synthesized in the last trimester of gestation. Although this compound filters out most of the UV light from reaching the retina, there is a small window of transmission centered on an absorption minimum at 320nm. This closes by the second decade of life. The window of transmission of UV light to the primate retina may explain the initial accelerated formation of lipofuscin in the young human retina by a photochemical process. This would be exacerbated by any decrease in the ozone layer with concomitant increase in UV-B reaching the earth's surface.
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