Imaging mass spectrometry by matrix-assisted laser desorption/ionization and stress-strain measurements in iontophoresis transepithelial corneal collagen cross-linking.
Paolo VinciguerraRita MencucciVito RomanoEberhard SpoerlFabrizio I CamesascaEleonora FavuzzaClaudio AzzoliniRodolfo MastropasquaRiccardo VinciguerraPublished in: BioMed research international (2014)
In rabbits, I-CXL induced a significant increase in corneal stiffness as well as better riboflavin penetration when compared to controls and TE-CXL but not to S-CXL. Stress-strain in human corneas did not show significant differences among techniques, possibly because of the small sample size of groups. In conclusion, I-CXL could be a valid alternative to S-CXL for riboflavin delivery in CXL, preserving the epithelium.