Reaction-diffusion model as framework for understanding the role of riboflavin in "eye defence" formulations

Francesca Di Nezza; Ciro Caruso; Ciro Costagliola; Luigi Ambrosone

doi:10.1039/d0ra00417k

Reaction-diffusion model as framework for understanding the role of riboflavin in "eye defence" formulations

RSC Adv. 2020 Apr 16;10(25):14965-14971. doi: 10.1039/d0ra00417k. eCollection 2020 Apr 8.

Authors

Francesca Di Nezza¹, Ciro Caruso², Ciro Costagliola¹, Luigi Ambrosone¹

Affiliations

¹ Consorzio per Lo Sviluppo Dei Sistemi a Grande Interfase (C.S.G.I.), c/o Department of Medicine and Health Sciences V. Tiberio, University of Molise 86100 Campobasso Italy ambroson@unimol.it +39 0874 404715.
² Corneal Transplant Center, Pellegrini Hospital Naples Italy.

Abstract

Analysis of UV-visible spectra, performed on commercial riboflavin-based eye drops, showed that absorbance is a saturating function of vitamin concentration. This implies a threshold concentration, C _t, such that for riboflavin concentration > C _t the absorbance remains constant and the effectiveness of the eye drops is independent of the dose used. These experimental results were combined with a diffusion-reaction model to elucidate the mechanism of action within the cornea. The model predicts that the eye drops have a low effectiveness on UVB and UVC, while they have a good performance for UVA. Indeed, at the center of the cornea the transmittance is significantly reduced and after 1 h it is reduced by about 70% compared to a cornea devoid of eye drops.