Applying Visual-Motor Training Combined with an Eye Relaxation System Based on Far-Infrared Nanomaterials in Pseudomyopia

Abstract

To explore the effect of far-infrared nanomaterial eye relaxation system combined with visual-motor training in pseudomyopia, 120 patients with pseudomyopia were included in the experiment and randomly divided into nanomaterial and control groups. The control group received visual-motor training, and the nanomaterial group was treated with an eye relaxation system. This study found that nanozirconia and nanotitanium dioxide used in eye relaxation systems could maintain good stability in acidic and alkaline conditions. Additionally, nanozirconia could produce a warm effect, and nanotitanium dioxide had a clear sterilization effect. Moreover, the two abovementioned nanoparticles could be closely combined with fiberoptic materials. After treatment, the eye adjustment function, visual acuity, and diopter of the two groups were significantly improved, especially in the nanomaterial group. Additionally, using the nanomaterial eye relaxation system could better control intraocular pressure, reduce lens thickness, and improve the symptoms of eye fatigue. Furthermore, anxiety and depression were better reduced in the nanomaterial group, and their quality of life was greatly improved. Therefore, the far-infrared nanomaterial eye relaxation system combined with visual-motor training can be used as a new and effective scheme for pseudomyopia.