Central nervous system adaptation represents a core compensatory mechanism whereby the nervous system dynamically adjusts structure and function to counteract pathological damages, relying on the synergistic effects of multi-level neural plasticity. Amblyopia training may enhance cortical function through dichoptic augmented reality and visual attention exercises, cognitive training and neuroimmunomodulation may facilitate multifocal intraocular lens adaptation after cataract surgery, transcranial alternating current stimulation may improve visual fields in glaucoma, and perceptual learning may optimize eccentric fixation in age-related macular degeneration rehabilitation. These therapeutic approaches may shift the focus of managements from traditional structural repair to neural functional remodeling in ophthalmic diseases, which will open a new way for enhancing patients' visual function and quality of vision. This review aims to systematically review the mechanisms underlying central nervous system adaptability, its current applications in ocular disease rehabilitation and future prospects.