Proceedings of the International scientific and practical conference ―Modern Science: Challenges and Perspectives‖ (February 9-11, 2026) / Publisher website: www.naukainfo.com. - London, United Kingdom, 2026. - 121 p.

118 also effective in the monotherapy mode of accommodation disorders and mild myopia. Keywords: Refractive disorders, hardware treatment, neuroplasticity, myopia control, vision therapy. One of the most significant challenges today for a pediatric ophthalmologist is the rapid increase in the number of refractive disorders among the child and adolescent population. This is due to excessive visual load at close range, early digitalization and changes in lifestyle due to the increase in the share of distance learning methods in the process of obtaining education. Myopia, hyperopia and astigmatism are often accompanied by secondary functional disorders, such as amblyopia ("lazy eye") and accommodation spasm, which significantly reduces the quality of life of patients and limits their opportunities in the future [1,2]. The global epidemiology of refractive errors, particularly myopia, has reached the scale of a ―silent pandemic‖. According to the World Health Organization (WHO) and leading research institutes (in particular, the Brien Holden Vision Institute) [3]. Hardware treatment in ophthalmology acts as an important non-invasive method of correction and prevention. Unlike purely optical correction (glasses), hardware methods are aimed at activating the internal reserves of the visual system: training the accommodation apparatus, stimulating the retina and restoring binocular connections in the cerebral cortex [4,5]. The current level of technological development allows the use of more complex and high-tech methods of hardware treatment of visual disorders. It is especially important to start using these treatments in the early stages of the development of the pathological process, when the use of non-invasive methods, even in monotherapy, can be highly effective for restoring visual acuity and controlling the progression of accommodation disorders. One of these modern tools is the method of video- computer auto-training (the Amblyocore system). This device uses the principle of biological feedback (BFB). The patient's brain receives a "reward" (a clear image of a film) only when the visual centers in the cerebral cortex work as efficiently as