Navigating the path to corneal healing success and challenges: a comprehensive overview

Abstract

Abstract The cornea serves to protect the eye from external insults and refracts light to the retina. Maintaining ocular homeostasis requires constant epithelial renewal and an efficient healing process following injury. Corneal wound healing is a dynamic process involving several key cell populations and molecular pathways. Immediately after a large corneal epithelial injury involving limbal stem cells, conjunctival epithelial cells migrate toward the center of the wound guided by the newly formed electrical field (EF). Proliferation and transdifferentiation play a critical role in corneal epithelial regeneration. Corneal nerve endings migrate through the EF, connect with the migrating epithelial cells, and provide them with multiple growth factors. Finally, the migrated epithelial cells undergo differentiation, which is also regulated by corneal nerve endings. All these processes require energy and effective cellular cross-talk between different cell lines and extracellular matrix molecules. We provide an overview of the roles and interactions between corneal wound regeneration components that may help develop fascinating new targeted therapeutic strategies to enhance corneal wound healing with less injury-related corneal opacity and neovascularization.