Harrington Síofra, O'Dwyer Veronica
School of Physics, Clinical, and Optometric Sciences, and Centre for Eye Research Ireland, Technological University Dublin, Dublin, Ireland.
Ophthalmic Physiol Opt. 2023 May;43(3):505-516. doi: 10.1111/opo.13116. Epub 2023 Feb 26.
More time spent on near tasks has consistently been associated with the promotion of myopia. The World Health Organization advises limiting daily screentime to less than 2 h for children aged five and over. This study explored the relationship between time spent on screens and reading/writing with refractive status, ocular biometric and anthropometric factors in 6- to 7-year-olds in Ireland.
Participants were 723 schoolchildren (377 boys [51.8%]), mean age 7.08 (0.45) years. The examination included cycloplegic autorefraction (1% cyclopentolate hydrochloride), ocular biometry (Zeiss IOLMaster), height (cm) and weight (kg). Screentime and reading/writing time were reported by parents/legal guardians by questionnaire. Myopia (≤-0.50D) and premyopia (>-0.50D ≤ 0.75D) risk assessments were performed using logistic regression, and multivariate linear regression was used to analyse continuous variables.
Reported daily screentimes were 31% <1 h, 49.5% 1-2 h, 15.6% 2-4 h and 3.9% >4 h. Reading/writing times were 42.2% frequently, 48.0% infrequently and 9.8% seldom/never. Linear regression, controlling for age and ethnicity, revealed >2 h/day on screens was associated with a more myopic spherical equivalent [β = -1.15 (95% confidence intervals {CIs}: 1.62-0.69, p < 0.001)], increased refractive astigmatism (β = 0.29, CI: 0.06-0.51, p = 0.01), shorter corneal radius (β = 0.12, CI: 0.02-0.22, p = 0.02), higher axial length/corneal radius (β = 0.06, CI: 0.03-0.09, p < 0.001), heavier weight (β = 1.60, CI: 0.76-2.45, p < 0.001) and higher body mass index (BMI) (β = 1.10, CI: 0.28-1.12, p < 0.001). Logistic regression, controlling for age and ethnicity, revealed daily screentime >2 h was associated with myopia (OR = 10.9, CI: 4.4-27.2, p = 0.01) and premyopia (OR = 2.4, CI: 1.5-3.7, p < 0.001). Frequent reading/writing was associated with screentime ≤2 h/day (OR = 3.2, CI: 1.8-5.8, p < 0.001).
Increased screentime was associated with a more myopic refraction, higher axial length/corneal radius ratio, increased odds of myopia, premyopia, higher degrees of astigmatism, increased weight, BMI and decreased reading/writing time. Dedicated education programmes promoting decreased screentime in children are vital to prevent myopia and support eye and general health.
长时间进行近距离任务一直与近视的发展相关。世界卫生组织建议5岁及以上儿童将每日屏幕使用时间限制在2小时以内。本研究探讨了爱尔兰6至7岁儿童的屏幕使用时间、阅读/书写时间与屈光状态、眼部生物测量及人体测量因素之间的关系。
研究对象为723名学童(377名男孩[51.8%]),平均年龄7.08(0.45)岁。检查包括睫状肌麻痹验光(1%盐酸环喷托酯)、眼部生物测量(蔡司IOLMaster)、身高(厘米)和体重(千克)。父母/法定监护人通过问卷调查报告屏幕使用时间和阅读/书写时间。使用逻辑回归进行近视(≤-0.50D)和近视前期(>-0.50D≤0.75D)风险评估,并使用多元线性回归分析连续变量。
报告的每日屏幕使用时间为31%<1小时,49.5%为1 - 2小时,15.6%为2 - 4小时,3.9%>4小时。阅读/书写时间为经常的占42.2%,不经常的占48.0%,很少/从不的占9.8%。在控制年龄和种族的线性回归分析中,显示每天屏幕使用时间>2小时与更近视的等效球镜度相关[β=-1.15(95%置信区间{CIs}:1.62 - 0.69,p<0.001)],屈光性散光增加(β=0.29,CI:0.06 - 0.51,p = 0.01),角膜半径缩短(β=0.12,CI:0.02 - 0.22,p = 0.02),眼轴长度/角膜半径比值升高(β=0.06,CI:0.03 - 0.09,p<0.001),体重增加(β=1.60,CI:0.76 - 2.45,p<0.001)以及体重指数(BMI)升高(β=1.10,CI:0.28 - 1.12,p<0.001)。在控制年龄和种族的逻辑回归分析中,显示每日屏幕使用时间>2小时与近视(OR = 10.9,CI:4.4 - 27.2,p = 0.01)和近视前期(OR = 2.4,CI:1.5 - 3.7,p<0.001)相关。经常阅读/书写与每日屏幕使用时间≤2小时相关(OR = 3.2,CI:1.8 - 5.8,p<0.001)。
屏幕使用时间增加与更近视的屈光、更高的眼轴长度/角膜半径比值、近视和近视前期几率增加、散光度数增加、体重和BMI升高以及阅读/书写时间减少相关。开展专门的教育项目以减少儿童的屏幕使用时间对于预防近视以及维护眼睛和整体健康至关重要。
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