Litcius/Paper detail

Bio-orthogonal crosslinking and hyaluronan facilitate transparent healing after treatment of deep corneal injuries with in situ-forming hydrogels

Fang Chen, Uiyoung Han, Thitima Wungcharoen, Youngyoon Amy Seo, Peter Le, Jiang Li, Nae-Won Kang, Euisun Song, Kyeongwoo Jang, David C Mundy, Gabriella Maria Fernandes-Cunha, Sarah C. Heilshorn, David Myung

2025npj Regenerative Medicine11 citationsDOIOpen Access PDF

Abstract

Corneal transplantation is the primary treatment for corneal blindness, affecting millions globally. However, challenges like donor scarcity and surgical complications remain. Recently, in situ-forming corneal stroma substitutes have emerged, offering potential solutions to these limitations. These substitutes enable liquid-to-hydrogel formation in situ, eliminating sutures and reducing complications. Here we performed a direct, side-by-side comparison of a composite hyaluronan-collagen (HA-Col) hydrogel crosslinked by either photochemistry or bio-orthogonal chemistry to ascertain the impact of reaction specificity on corneal wound healing. Testing in rodent and rabbit models suggests that composite HA-Col gels crosslinked by bio-orthogonal chemistry results in more rapid and optically favorable wound healing compared to the same composition crosslinked by photochemistry as well as bio-orthogonally crosslinked collagen alone. These findings underscore biochemical parameters that may be important to the success of crosslinked, in situ-forming hydrogels as an alternative to corneal transplantation, with the potential for expanded access to treatment and improved outcomes.

Topics & Concepts

Self-healing hydrogelsIn situCorneal transplantationWound healingStromaTransplantationBlindnessCorneaChemistrySurgeryMedicineOphthalmologyPolymer chemistryPathologyOrganic chemistryOptometryImmunohistochemistryCorneal Surgery and TreatmentsCorneal surgery and disordersOcular Surface and Contact Lens