E R Gaillard1, L Zheng, J C Merriam, J Dillon. 1. Department of Chemistry and Biochemistry, Northern Illinois University, DeKalb 60115-2862, USA. gaillard@niu.edu
Abstract
PURPOSE: To quantitate aging of the primate lens by changes in the absorption characteristics that are related to the yellowing of lens protein. METHODS: The lenses of lower primates and humans were sectioned anterior to posterior every 0.25 mm, and the UV-visible spectrum of each section was measured to determine the cumulative spectra along the visual axis. The ratio of the absorbance at 320 nm (formed with aging) to the absorbance at 365 nm (present in the young lens) was correlated with the age of the lens. RESULTS: In the young primate UV-B is transmitted to the retina, and UV-A is transmitted to the nucleus of the lens. By puberty, changes in the absorption characteristics of the lens that are associated with the yellowing of lens protein prevented most of the UV-B from reaching the retina and by the eighth decade, the transmittances at 320 and 365 nm to the nucleus of the lens were approximately 40% and 79%, respectively. A linear relationship between the ratio of absorbance at 320 to 365 nm and age was found for both lower primates and humans to the age of 80 years. This is surprising, because the maximum life span of the lower primate is approximately 35 years, whereas humans may live 100 years. CONCLUSIONS: These data suggest that the observed spectral changes associated with the yellowing of the lens are the result of a chronological process, such as chemical or photochemical modifications, not biological aging.
PURPOSE: To quantitate aging of the primate lens by changes in the absorption characteristics that are related to the yellowing of lens protein. METHODS: The lenses of lower primates and humans were sectioned anterior to posterior every 0.25 mm, and the UV-visible spectrum of each section was measured to determine the cumulative spectra along the visual axis. The ratio of the absorbance at 320 nm (formed with aging) to the absorbance at 365 nm (present in the young lens) was correlated with the age of the lens. RESULTS: In the young primate UV-B is transmitted to the retina, and UV-A is transmitted to the nucleus of the lens. By puberty, changes in the absorption characteristics of the lens that are associated with the yellowing of lens protein prevented most of the UV-B from reaching the retina and by the eighth decade, the transmittances at 320 and 365 nm to the nucleus of the lens were approximately 40% and 79%, respectively. A linear relationship between the ratio of absorbance at 320 to 365 nm and age was found for both lower primates and humans to the age of 80 years. This is surprising, because the maximum life span of the lower primate is approximately 35 years, whereas humans may live 100 years. CONCLUSIONS: These data suggest that the observed spectral changes associated with the yellowing of the lens are the result of a chronological process, such as chemical or photochemical modifications, not biological aging.
Authors: Vivienne C Greenstein; Flavia Chiosi; Paul Baker; William Seiple; Karen Holopigian; Richard E Braunstein; Janet R Sparrow Journal: J Cataract Refract Surg Date: 2007-04 Impact factor: 3.351
Authors: Frank J Giblin; Victor R Leverenz; Vanita A Padgaonkar; Nalin J Unakar; Loan Dang; Li Ren Lin; Marjorie F Lou; Venkat N Reddy; Douglas Borchman; James P Dillon Journal: Exp Eye Res Date: 2002-10 Impact factor: 3.467