国际眼科纵览 ›› 2026, Vol. 50 ›› Issue (3): 184-190.doi: 10.3760/cma.j.cn115500-20250929-26304

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基于对比度理论的点扩散技术在近视防控中的应用

邢潇英  张丹  杜军辉   

  1. 苏州卫生职业技术学院附属眼视光医院,江苏苏州 215021
  • 出版日期:2026-06-22 发布日期:2026-06-22
  • 通讯作者: 杜军辉,Email:djh79918@163.com

Application of diffusion optics technology based on contrast theory in myopia prevention and control 

Xing Xiaoying, Zhang Dan, Du Junhui   

  1. Suzhou Eye Hospital of Suzhou Vocational Health College, Suzhou Jiangsu 215021, China
  • Online:2026-06-22 Published:2026-06-22
  • Contact: Du Junhui, Email:djh79918@163.com

摘要: 对比度是指目标和背景光强度的比值,对比度理论认为对比度信号是眼轴调控的重要因素,过多的高对比度视觉信号会导致近视的发生。高对比度信号会异常激活ON/OFF通道,从而导致多巴胺能系统紊乱,致使脉络膜变薄及脉络膜血流减少,造成巩膜缺氧重塑,而巩膜重塑是近视发生发展的根本病理生理改变。近年提出基于对比度理论的点扩散技术(diffusion optics technology, DOT),根据此技术研发的DOT镜片仅仅通过微观散射结构即可降低视网膜高对比度信号,从而减缓眼轴增长、控制近视进展,且安全性和视觉功能耐受性良好。但目前研究主要为短期评价,长期效果及反弹效应仍需进一步验证。

关键词: 近视控制, 对比度理论, 点扩散技术

Abstract: Contrast is defined as the ratio of the light intensity of a target to that of its background. The contrast theory posits that contrast signals are a critical regulator of ocular axial growth, and excessive high-contrast visual signals can trigger the onset of myopia. High-contrast signals can abnormally activate the retinal ON/OFF pathways, which in turn causes dysfunction of the dopaminergic system, resulting in choroidal thinning and reduced choroidal blood flow, and ultimately leading to hypoxic scleral remodeling — the fundamental pathophysiological change driving the onset and progression of myopia.In recent years, diffusion optics technology (DOT) based on the contrast theory has been proposed. DOT lenses developed with this technology can reduce high-contrast signals impinging on the retina solely through their micro-scattering structures, thereby slowing axial elongation and controlling myopia progression, with a favorable safety profile and excellent tolerance of visual function. However, existing studies are mainly limited to short-term evaluations, and the long-term efficacy and rebound effect of the lenses remain to be further verified.

Key words: Myopia control, Contrast theory, Diffusion optics technology