PURPOSE: Lactoferrin supplementation suppresses ultraviolet light B (UV-B)-induced oxidation of cultures of human corneal epithelial cells. To investigate the protective effect of lactoferrin containing eyedrops against UV-B-induced corneal damage in vivo, we examined lactoferrin efficacy in a rat UV-B keratitis model. METHODS: Sprague-Dawley rats were irradiated with >10 kJ/m2 after anesthetization, and then corneal epithelial defect was observed at 24 h postirradiation. The pre- or postapplication of vehicle or lactoferrin-containing eyedrops was performed, and then corneal epithelial damage was scored based on fluorescein staining. RESULTS: Posttreatment with lactoferrin did not inhibit the extent of corneal damage and did not affect wound healing. However, pretreatment by topical application of lactoferrin suppressed development of a corneal epithelial defect induced by UV-B irradiation in rats. CONCLUSION: These results suggest that the presence of lactoferrin in human tear fluid may inhibit UV-induced corneal epithelial damage.
PURPOSE:Lactoferrin supplementation suppresses ultraviolet light B (UV-B)-induced oxidation of cultures of human corneal epithelial cells. To investigate the protective effect of lactoferrin containing eyedrops against UV-B-induced corneal damage in vivo, we examined lactoferrin efficacy in a rat UV-B keratitis model. METHODS:Sprague-Dawley rats were irradiated with >10 kJ/m2 after anesthetization, and then corneal epithelial defect was observed at 24 h postirradiation. The pre- or postapplication of vehicle or lactoferrin-containing eyedrops was performed, and then corneal epithelial damage was scored based on fluorescein staining. RESULTS: Posttreatment with lactoferrin did not inhibit the extent of corneal damage and did not affect wound healing. However, pretreatment by topical application of lactoferrin suppressed development of a corneal epithelial defect induced by UV-B irradiation in rats. CONCLUSION: These results suggest that the presence of lactoferrin in human tear fluid may inhibit UV-induced corneal epithelial damage.
Authors: Gordon W Laurie; Leslie A Olsakovsky; Brian P Conway; Robert L McKown; Kazuko Kitagawa; Jason J Nichols Journal: Optom Vis Sci Date: 2008-08 Impact factor: 1.973
Authors: Abrar A Rageh; Deborah A Ferrington; Heidi Roehrich; Ching Yuan; Marcia R Terluk; Elizabeth F Nelson; Sandra R Montezuma Journal: Curr Eye Res Date: 2015-10-02 Impact factor: 2.424