Abstract
Corneal nerve integrity is vital for maintaining ocular surface health and visual clarity, but damage from injury or disease can lead to pain, persistent epithelial defects, and even vision loss. A deeper understanding of how corneal nerves regenerate at the molecular level is key to developing therapies that restore both anatomical structure and function. In this review, we bring together current insights into the pathways that drive corneal nerve repair after injury. We outline the major signaling pathways that promote neuronal survival, axon extension, and nerve-epithelial interactions, along with evolving research around novel modulators that could improve repair outcomes. Although advances in imaging and molecular therapies have led to significant progress in promoting nerve regrowth, functional sensory recovery often lags. This gap in recovery emphasizes the need for research approaches that align anatomical restoration with sensory function. In this review, we aim to clarify the mechanisms underlying corneal nerve regeneration (and their intersections) and identify opportunities for improving patient outcomes.