Slowing of Greater Axial Length Elongation Stemming from the Coronavirus Disease 2019 Pandemic with Increasing Time Outdoors: The Tokyo Myopia Study

IF 3.2 Q1 OPHTHALMOLOGY

Ophthalmology science Pub Date : 2024-02-10 DOI:10.1016/j.xops.2024.100491

Erisa Yotsukura MD, PhD , Hidemasa Torii MD, PhD , Kiwako Mori MD, PhD , Mamoru Ogawa MD, PhD , Akiko Hanyuda MD, PhD , Kazuno Negishi MD, PhD , Toshihide Kurihara MD, PhD , Kazuo Tsubota MD, PhD

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Abstract

Purpose

To investigate the changes in axial length (AL) elongation and other ocular parameters before and during the coronavirus disease 2019 pandemic.

Design

A longitudinal school-based study.

Participants

Public elementary schoolchildren in Tokyo (grades 1–6; age, 6–12 years) participated in this study from 2018 to 2021.

Methods

All participants underwent eye examinations and provided written consent to measurements of the noncycloplegic refraction and ocular biometry including AL, among others. The students’ parents also completed a questionnaire about the students’ lifestyles. We included the right eye in our analysis and compared the changes in the ocular parameters among the periods using a linear mixed-effects model for repeated measures and examined the univariate and step-wise multiple regression analyses to evaluate the associations between myopia and other covariates.

Main Outcome Measures

Changes in AL elongation and other ocular parameters from 2018 to 2019 (prepandemic), that of 2019 to 2020 (immediately after the pandemic onset), and that of 2020 to 2021 (during the pandemic).

Results

A total of 578 students before the pandemic period, 432 immediately after the pandemic onset, and 457 during the pandemic period were evaluated. The changes in the ALs and spherical equivalents (SEs) a year before, immediately after onset, and during the pandemic were 0.31 mm/−0.20 diopter, 0.38 mm/−0.27 diopter, and 0.28 mm/−0.47 diopter, respectively (ALs, P < 0.001; SEs, P = 0.014). The results of the questionnaire showed that time spent outdoors daily had changed during the 3 years to 79, 63, and 77 minutes/day, respectively (P < 0.001). Time spent using smartphones or tablets increased year by year to 41, 52, and 62 minutes/day (P < 0.001). The greatest AL elongation occurred during the period when the shortest amount of time was spent outdoors during the 3 years.

Conclusions

These results suggested that the school closures and decreasing time spent outdoors might have caused greater AL elongation among schoolchildren in Tokyo; however, it is possible that, although the time spent in near work still increased, the return to the time spent outdoors to the prepandemic levels may have affected the slowing of AL elongation after lockdown.

Financial Disclosure(s)

Proprietary or commercial disclosure may be found in the Footnotes and Disclosures at the end of this article.

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随着户外活动时间的增加，COVID-19 大流行导致的大轴向长度伸长减缓：东京近视研究

目的研究冠状病毒病2019年大流行之前和期间轴长（AL）伸长率和其他眼部参数的变化。方法所有参与者都接受了眼部检查，并书面同意测量非环屈光度和眼部生物测量，包括AL等。学生家长也填写了一份关于学生生活方式的问卷。我们将右眼纳入分析范围，并使用线性混合效应模型进行重复测量，比较了不同时期眼部参数的变化，还进行了单变量和逐步多元回归分析，以评估近视与其他协变量之间的关联。主要结果测量2018年至2019年（大流行前）、2019年至2020年（大流行刚开始后）和2020年至2021年（大流行期间）AL伸长率和其他眼部参数的变化。结果共评估了大流行前的578名学生、大流行刚开始后的432名学生和大流行期间的457名学生。在大流行前一年、大流行开始后一年和大流行期间，ALs 和球面等效度（SEs）的变化分别为 0.31 毫米/-0.20 屈光度、0.38 毫米/-0.27 屈光度和 0.28 毫米/-0.47 屈光度（ALs，P < 0.001；SEs，P = 0.014）。问卷调查结果显示，3 年间每天户外活动的时间分别变为 79 分钟、63 分钟和 77 分钟（P < 0.001）。使用智能手机或平板电脑的时间逐年增加，分别为每天 41 分钟、52 分钟和 62 分钟（P < 0.001）。结论这些结果表明，学校关闭和户外活动时间减少可能会导致东京学龄儿童的AL伸长率增加；然而，虽然在工作场所附近度过的时间仍然增加，但户外活动时间恢复到流行前水平可能会影响封锁后AL伸长率的减缓。专利或商业信息披露见本文末尾的脚注和披露。

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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