Inhibition of matrix metalloproteases by a chemical cross-linker to halt the corneal degradation in keratoconus.

The need for better and simpler alternative crosslinking strategies to treat keratoconus (KC) is becoming essential as there is only a single approved way to treat it. Recently, conventional UV-A Riboflavin crosslinking is proven to have some disadvantages such as causing damage to the corneal endothelium and inducing keratocyte apoptosis. A chemical cross-linker (CXL) using carbodiimide chemistry and an octanedioic acid spacer is found effective in stiffening the cornea and has the potential to be developed as an alternative therapy to halt KC progression.

Chemical Cross-Linking of Corneal Tissue to Reduce Progression of Loss of Sight in Patients With Keratoconus.

Purpose: We aimed to develop a novel chemical cross-linker treatment for keratoconus by reacting dicarboxylic acid spacer molecules and amine functional groups on protein structure of the tissue using carbodi-imide chemistry. We propose this as an alternative to conventional cross-linking treatment for keratoconus.

Methods: The study involved optimization of the cross-linker formulation.