Measuring visual acuity and spherical refraction with smartphone screens emitting blue light

IF 2.2 Q2 OPHTHALMOLOGY
Rosa María Salmerón-Campillo , Félix Tomás Varona-Gómez , Mari Ogino , Stephen Hunter , Vincent Hussey , Donny W. Suh , Rujuta Gore , Mateusz Jaskulski , Norberto López-Gil
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引用次数: 0

Abstract

Introduction

A periodical self-monitoring of spherical refraction using smartphones may potentially allow a quicker intervention by eye care professionals to reduce myopia progression. Unfortunately, at low levels of myopia, the far point (FP) can be located far away from the eye which can make interactions with the device difficult. To partially remedy this issue, a novel method is proposed and tested wherein the longitudinal chromatic aberration (LCA) of blue light is leveraged to optically bring the FP closer to the eye.

Methods

Firstly, LCA was obtained by measuring spherical refraction subjectively using blue pixels in stimuli shown on organic light-emitting diode (OLED) screens and also grey stimuli with matching luminance. Secondly, the visual acuity (VA) measured with a smartphone located at 1.0 m and 1.5 m and displaying blue optotypes was compared with that obtained clinically standard measurements. Finally, the spherical over refraction obtained in blue light with a smartphone was compared with clinical over-refraction with black and white (B&W) optotypes placed at 6 m.

Results

Mean LCA of blue OLED smartphone screens was −0.67 ± 0.11 D. No significant differences (p > 0.05) were found between the VA measured with blue optotypes on a smartphone screen and an eye chart. Mean difference between spherical over-refraction measured subjectively by experienced subjects with smartphones and the one obtained clinically was 0.08 ± 0.34 D.

Conclusions

Smartphones using blue light can be used as a tool to detect changes in visual acuity and spherical refraction and facilitate monitoring of myopia progression.

用发出蓝光的智能手机屏幕测量视力和球面折射率。
引言:使用智能手机定期自我监测球面屈光度可能会让眼科护理专业人员更快地进行干预,以减少近视的进展。不幸的是,在近视程度较低的情况下,远点(FP)可能位于远离眼睛的位置,这可能会使与设备的交互变得困难。为了部分解决这个问题,提出并测试了一种新的方法,其中利用蓝光的纵向色差(LCA)使FP在光学上更接近眼睛。方法:首先,使用有机发光二极管(OLED)屏幕上显示的刺激中的蓝色像素和亮度匹配的灰色刺激,主观测量球面折射,获得LCA。其次,将智能手机在1.0米和1.5米处测量的显示蓝色视标的视力(VA)与临床标准测量值进行比较。最后,将智能手机在蓝光中获得的球形过度折射与放置在6米处的黑白(B&W)视标的临床过度折射进行了比较。结果:蓝色OLED智能手机屏幕的平均LCA为-0.67±0.11 D。在智能手机屏幕上用蓝色视标测量的VA和眼图之间没有发现显著差异(p>0.05)。有经验的受试者用智能手机主观测量的球面过度折射与临床获得的球面过度屈光之间的平均差异为0.08±0.34D。结论:使用蓝光的智能手机可以用作检测视力和球面折射变化的工具,并有助于监测近视进展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Optometry
Journal of Optometry OPHTHALMOLOGY-
CiteScore
5.20
自引率
0.00%
发文量
60
审稿时长
66 days
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