TY - JOUR
T1 - Ultraviolet light exposure and its penetrance through the eye in a porcine model
AU - Fukuoka, Hideki
AU - Gali, Helena E.
AU - Bu, Jennifer J.
AU - Sella, Ruti
AU - Afshari, Natalie A.
N1 - Publisher Copyright:
© 2023 International Journal of Ophthalmology (c/o Editorial Office). All rights reserved.
PY - 2023/2/18
Y1 - 2023/2/18
N2 - AIM: To determine the amount of ultraviolet (UV) light irradiance that various layers of the eye receive as sunlight passes through the eye, and to investigate the protective benefits of UV light-blocking contact lenses. METHODS: Twenty-four porcine eyes were prepared in one of three ways: isolated cornea, cornea and lens together, or whole eye preparation. UV light irradiance was measured with a UV-A/B light meter before and after the eye preparations were placed over the meter to measure UV light penetration in each eye structure. In the whole eye preparation, a hole was placed in the fovea to measure light as it passed through the vitreous. Subsequently, UV-protective contact lenses were placed over the structures, and UV light penetrance was measured. Measurements of UV light exposure were taken outdoors at various locations and times. RESULTS: Cornea absorbed 63.56% of UV light that reached the eye. Cornea and lens absorbed 99.34% of UV light. Whole eye absorbed 99.77% of UV light. When UV-protective contact lenses were placed, absorption was 98.90%, 99.55%, and 99.87%, respectively. UV light exposure was dependent on directionality and time of day, and was greatest in areas of high albedo that reflect significant amounts of light, such as a beach. CONCLUSION: Cornea absorbs the majority of UV light that reaches the eye in this model. UV-protective contact lenses reduce UV exposure to the eye. Locations with high albedo expose the eye to higher levels of UV light.
AB - AIM: To determine the amount of ultraviolet (UV) light irradiance that various layers of the eye receive as sunlight passes through the eye, and to investigate the protective benefits of UV light-blocking contact lenses. METHODS: Twenty-four porcine eyes were prepared in one of three ways: isolated cornea, cornea and lens together, or whole eye preparation. UV light irradiance was measured with a UV-A/B light meter before and after the eye preparations were placed over the meter to measure UV light penetration in each eye structure. In the whole eye preparation, a hole was placed in the fovea to measure light as it passed through the vitreous. Subsequently, UV-protective contact lenses were placed over the structures, and UV light penetrance was measured. Measurements of UV light exposure were taken outdoors at various locations and times. RESULTS: Cornea absorbed 63.56% of UV light that reached the eye. Cornea and lens absorbed 99.34% of UV light. Whole eye absorbed 99.77% of UV light. When UV-protective contact lenses were placed, absorption was 98.90%, 99.55%, and 99.87%, respectively. UV light exposure was dependent on directionality and time of day, and was greatest in areas of high albedo that reflect significant amounts of light, such as a beach. CONCLUSION: Cornea absorbs the majority of UV light that reaches the eye in this model. UV-protective contact lenses reduce UV exposure to the eye. Locations with high albedo expose the eye to higher levels of UV light.
KW - contact lens
KW - cornea
KW - lens
KW - penetrance
KW - ultraviolet light
UR - http://www.scopus.com/inward/record.url?scp=85147718984&partnerID=8YFLogxK
U2 - 10.18240/ijo.2023.02.02
DO - 10.18240/ijo.2023.02.02
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C2 - 36816219
AN - SCOPUS:85147718984
SN - 2222-3959
VL - 16
SP - 172
EP - 177
JO - International Journal of Ophthalmology
JF - International Journal of Ophthalmology
IS - 2
ER -