Virtual Far-sight Reading Device for Myopia Intervention Among Pre-myopic Children

The Virtual Far-sight Reading Device is an innovative ocular protection device integrating advanced far-image optical technology, designed to alleviate asthenopia and prevent myopia progression by simulating a long-distance visual environment. Utilizing a birdbath optical configuration and freeform surface technology, it extends the working distance from 30 cm to over 6 meters, mimicking natural distance viewing to induce ciliary muscle relaxation. The device incorporates a cinematic-grade 2K true-color retinal display combined with a peripheral defocus optical design to generate hyperopic retinal shifts, thereby suppressing myopia development. Additional features include an embedded high-resolution AI camera, full-spectrum LED auxiliary lighting (CCT 5000K, CRI >90), and compatibility with extensive e-learning resources, making it suitable for diverse scenarios such as online classes, reading, and writing tasks.

This study employs a randomized controlled crossover trial to evaluate the efficacy and safety of the device in pre-myopic children and adolescents. Participants are divided into Groups A and B, with Phase I (Days 0-90) requiring Group A to perform daily near-work activities using the device for ≥60 minutes of cumulative daily use, while Group B follows conventional near-work practices without intervention. During Phase II (Days 91-180), the interventions are reversed between groups. Comprehensive ophthalmic evaluations are conducted at baseline, Day 90, and Day 180 to assess changes in spherical equivalent refraction (SER), axial length (AL), myopia incidence rate, binocular visual function parameters, and ocular morphological metrics, ensuring rigorous analysis of both therapeutic outcomes and safety profiles.