https://www.selleckchem.com/products/rimiducid-ap1903.html To examine differences in sleep between myopic and non-myopic children. Objective measurements of sleep, light exposure, and physical activity were collected from 91 children, aged 10 to 15 years, for two 14-day periods approximately 6 months apart. Sleep parameters were analyzed with respect to refractive error, season, day of the week, age, and sex. Myopic children exhibited differences in sleep duration by day of the week ( < 0.001) and season ( = 0.007). Additionally, myopic children exhibited shorter sleep latency than non-myopic children ( = 0.04). For all children, wake time was later ( < 0.001) and sleep duration was longer ( = 0.03) during the cooler season compared with the warmer season. On weekends, children went to bed later ( < 0.001), woke up later ( < 0.001), and had increased sleep duration ( < 0.001) than on weekdays. Younger children exhibited earlier bedtime ( = 0.005) and wake time ( = 0.01) than older children. Time spent outdoors was positively associated with sleep duration ( = 0.03), and daily physical activity was negatively associated with wake time ( < 0.001). Myopic children tended to have more variable sleep duration and shorter latency than non-myopic children. Sleep patterns were influenced by season, day of the week, age, time outdoors, and activity. Myopic children tended to have more variable sleep duration and shorter latency than non-myopic children, which may reflect previously reported differences in environmental and behavioral factors between refractive error groups. Myopic children tended to have more variable sleep duration and shorter latency than non-myopic children, which may reflect previously reported differences in environmental and behavioral factors between refractive error groups. To investigate whether UV irradiation of the mouse eye can induce photoreceptor degeneration, producing a phenotype reminiscent of the rd10 mouse, left eyes of female C57Bl/6J mic