Photobonding of silk fibroin-based hydrogels to rabbit corneas
Rocio Gutierrez-Contreras, Patricia Gallego-Muñoz, Andrés De La Hoz, Mar Fernández-Gutierrez, Irene E. Kochevar, M. Carmen Martínez-García, Susana Marcos

TL;DR
This study explores using silk fibroin hydrogels bonded with light to repair rabbit corneas, offering a sutureless alternative to amniotic membrane transplants.
Contribution
A sutureless photobonding technique for silk fibroin hydrogels in corneal repair is proposed and validated in ex vivo and in vivo models.
Findings
Bonding strengths of 2–3 N/cm² were achieved for both hydrogel types after photobonding.
In vivo results showed complete corneal re-epithelialization 15 and 30 days post-procedure.
The photobonding technique demonstrated consistent performance in ex vivo and in vivo conditions.
Abstract
Corneal abrasions are common ocular injuries characterized by the loss of epithelial cells. Severe cases are often treated with amniotic membrane transplantation. However, as an allogenic tissue, it can trigger immune responses, it is scarce and costly, and may require suturing to the cornea. In this study, we propose and evaluate two silk fibroin-based hydrogels implanted in rabbit corneas with a sutureless photobonding technique as a surrogate for the amniotic membrane in corneal wound healing. Silk fibroin-based hydrogels were developed with polyethylene glycol (PEG) 300 or 3350. The hydrogels were stained with 0.01% Rose Bengal and photobonded to ex vivo de-epithelialized rabbit corneal strips using a custom-developed irradiation system (532 nm; 0.13 or 0.15 W/cm2 irradiance for 6.6 min). Bonding strength after 24 and 72 h under hydrated conditions was measured using a uniaxial…
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Taxonomy
TopicsCorneal Surgery and Treatments · Silk-based biomaterials and applications · Wound Healing and Treatments
