Abstract
Multiple use contact lenses have to be disinfected overnight to reduce the risk of infections. However, several studies demonstrated that not only microorganisms are affected by the disinfectants, but also ocular epithelial cells, which come into contact via residuals at reinsertion of the lens. Visible light has been demonstrated to achieve an inactivation effect on several bacterial and fungal species. Combinations with other disinfection methods often showed better results compared to separately applied methods. We therefore investigated contact lens disinfection solutions combined with 405 nm irradiation, with the intention to reduce the disinfectant concentration of ReNu Multiplus, OptiFree Express or AOSept while maintaining adequate disinfection results due to combination benefits. Pseudomonads, staphylococci and E. coli were studied with disk diffusion assay, colony forming unit (cfu) determination and growth delay. A log reduction of 4.49 was achieved for P. fluorescens in 2 h for 40% ReNu Multiplus combined with an irradiation intensity of 20 mW/cm2 at 405 nm. For AOSept the combination effect was so strong that 5% of AOSept in combination with light exhibited the same result as 100% AOSept alone. Combination of disinfectants with visible violet light is therefore considered a promising approach, as a reduction of potentially toxic ingredients can be achieved.
Highlights
IntroductionWith approximately 125 to 140 million contact lens wearers worldwide [1,2,3] (numbers from 2004 and 2010) the prevention of lens-related infection is a serious healthcare issue
With approximately 125 to 140 million contact lens wearers worldwide [1,2,3] the prevention of lens-related infection is a serious healthcare issue
As there seem to be synergistic or at least combined effects of irradiation techniques such as photodynamic therapy (PDT) and antibiotics [38,39] we investigate whether similar effects occur when combining contact lens disinfection solutions and LED-based irradiation at 405 nm
Summary
With approximately 125 to 140 million contact lens wearers worldwide [1,2,3] (numbers from 2004 and 2010) the prevention of lens-related infection is a serious healthcare issue. Due to the high numbers of contact lens users, even complications with a rare occurrence will concern a considerable number of patients. The incidence of contact lens related microbial keratitis is 1.9 per 10,000 for daily wear of soft contact lenses in Australia [8] and 1.8–2.44 per 10,000 in Scotland for all types [9], reaching up to. Contact lens wearers have an approximately five- to seven-fold higher risk of microbial keratitis compared to non-contact lens wearers [9,10], with increasing risk for extended or overnight wear
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