Cross-linking effects in the cornea of rabbits

Background: The mechanical stabilization of the cornea in keratoconus may d elay progression of this disease. The cross-linking techniques optimized in corneas of enucleated porcine eyes were investigated under in vivo conditi ons in rabbits to estimate the biocompatibility and duration of the stiffen ing effect. Methods: Twenty-eight rabbits were treated monocularly, the fellow eye serv ing as control. The epithelium was mechanically removed and 19 eyes were tr eated with riboflavin plus ultraviolet irradiation (365 nm, 2 mW/cm(2)) for 45 min and 9 eyes with 0.075% glutaraldehyde for 20 min. After treatment,t he eyelids were sutured for 3 days. The healing process was controlled by s lit-lamp examination and photographically documented. After 1 month, ZD ani mals and after 3 months 8 animals were sacrificed,the eyes enucleated, and the stress-strain relation of the corneas measured and compared to the fell ow eye. Results: The epithelium was closed after 4-5 days. The transparency of the corneas remained clear during follow-up, and there were no signs of inflamm atory reaction. Stress for a strain of 6% was higher in the treated corneas by a factor of 1.3+/-0.66 (P=0.319) in the glutaraldehyde group and by a f actor of 1.6+/-0.75 (P=0.0408) in the riboflavin group at 1 month,and by 1. 3+/-0.48 (P=0.07) at 3 months after treatment, Conclusions: The cross-linking technique using riboflavin plus UV irradiati on is suitable for at least temporarily stiffening the cornea in vivo and s eems to be a promising method for conservative treatment of keratectasia.