Comparison between standard and transepithelial corneal crosslinking using a theranostic UV-A device.

Abstract

To assess corneal concentration of riboflavin in two different corneal crosslinking protocols performed by a novel image-guided therapeutic (or "theranostic") UV-A device. Ten human eye bank donor tissues were used in this work. The tissues underwent corneal cross-linking according to the conventional treatment protocol (n = 5; 30min of stromal soaking followed by 30min of 3mW/cm2 UV-A irradiance) and the iontophoresis-assisted transepithelial protocol (n = 5; soaking for 5min at 1mA/min and 9min of 10mW/cm2 UV-A irradiance) using a theranostic UV-A device (Vision Engineering Italy srl, Italy). The device provided real time assessment of riboflavin concentration by hyperspectral image analysis of the cornea. A 0.1% riboflavin hypotonic solution (Ricrolin+, Sooft Italia Spa, Italy) was used in all cases. Manual application of hypotonic riboflavin for 30min into the stroma achieved greater corneal riboflavin concentration (425 ± 77μg/cm3) than transepithelial delivery of riboflavin by corneal iontophoresis (195 ± 35μg/cm3; P = 0.001). In both UV-A irradiation protocols, corneal riboflavin concentration decreased exponentially with a constant energy rate of 2.3 ± 0.5J/cm2 and 1.8 ± 0.3J/cm2 respectively. At the end of treatment, the average corneal concentration of riboflavin decreased by ≥ 85%, with values of 54 ± 29μg/cm3 and 31 ± 9μg/cm3 (P = 0.11), respectively. Manual application of riboflavin onto the stroma achieved almost 50% greater concentration of riboflavin than transepithelial delivery by corneal iontophoresis. The theranostic UV-A device provided a novel approach to estimate corneal concentration of riboflavin non-invasively during treatment.