Purpose: To introduce and evaluate a sutureless technique by using a polymethyl methacrylate (PMMA) ring and fibrin sealant to fix an amniotic membrane (AM) patch on the ocular surface as a therapeutic contact lens in a rabbit model.
Methods: PMMA rings were fabricated by duplicating an impression of a rabbit conjunctival fornix. The central cornea of the left eye in 16 rabbits was deepithelialized (diameter = 10 mm). A human AM patch was fixed to the ocular surface by using either a PMMA ring and fibrin sealant or interrupted 10-0 nylon sutures. The fibrin sealant was used to create the PMMA ring-AM complex but not to attach the AM/PMMA ring to the ocular surface. The rabbits were followed up with slit-lamp examination and fluorescein staining for 7 days. Reepithelialization and complications were recorded.
Results: The corneal epithelial defect was recovered in each rabbit of both groups after 5 days. In the sutureless group, all membranes remained in place and intact during the follow-up period. One eye was noted to have a partial conjunctival epithelial defect caused by exposure to the PMMA ring. In contrast, >50% of rabbits in the interrupted suture group exhibited complications including conjunctival edema, suture loosening, patch detachment, bleeding, and conjunctival epithelial defects.
Conclusions: The sutureless technique that uses a PMMA ring and fibrin sealant for AM patch placement has a lower incidence of complications than the interrupted suture method. This sutureless technique may promote increased clinical use of AM patch by alleviating patients' pain and shortening surgical time.