Abstract
The human brain has a very limited capacity for self-repair, presenting significant challenges in recovery following injuries such as ischemic stroke. Stem cell-based therapies have emerged as promising strategies to enhance post-stroke recovery. Building on a large body of preclinical evidence, clinical trials are currently ongoing to prove the efficacy of stem cell therapy in stroke patients. However, the mechanisms through which stem cell grafts promote neural repair remain incompletely understood. Key questions include whether these effects are primarily driven by (1) the secretion of trophic factors that stimulate endogenous repair processes, (2) direct neural cell replacement, or (3) a combination of both mechanisms. This review explores the latest advancements in neural stem cell therapy for stroke, highlighting research insights in brain repair mechanisms. Deciphering the fundamental mechanisms underlying stem cell-mediated brain regeneration holds the potential to refine therapeutic strategies and advance treatments for a range of neurological disorders.