Time spent in outdoor activities in relation to myopia prevention and control: a meta‐analysis and systematic review

Outdoor time is considered to reduce the risk of developing myopia. The purpose is to evaluate the evidence for association between time outdoors and (1) risk of onset of myopia (incident/prevalent myopia); (2) risk of a myopic shift in refractive error and c) risk of progression in myopes only. A s...

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Veröffentlicht in:	Acta ophthalmologica (Oxford, England) England), 2017-09, Vol.95 (6), p.551-566
Hauptverfasser:	Xiong, Shuyu, Sankaridurg, Padmaja, Naduvilath, Thomas, Zang, Jiajie, Zou, Haidong, Zhu, Jianfeng, Lv, Minzhi, He, Xiangui, Xu, Xun
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Sprache:	eng
Schlagworte:	Children Clinical trials Data processing dose–response analysis Heterogeneity Humans Leisure Activities Meta-analysis Myopia Myopia - prevention & control Nonlinear response Outdoor activities outdoor time Outdoors Random variables Review Studies Time Factors
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container_title	Acta ophthalmologica (Oxford, England)
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creator	Xiong, Shuyu Sankaridurg, Padmaja Naduvilath, Thomas Zang, Jiajie Zou, Haidong Zhu, Jianfeng Lv, Minzhi He, Xiangui Xu, Xun
description	Outdoor time is considered to reduce the risk of developing myopia. The purpose is to evaluate the evidence for association between time outdoors and (1) risk of onset of myopia (incident/prevalent myopia); (2) risk of a myopic shift in refractive error and c) risk of progression in myopes only. A systematic review followed by a meta‐analysis and a dose–response analysis of relevant evidence from literature was conducted. PubMed, EMBASE and the Cochrane Library were searched for relevant papers. Of the 51 articles with relevant data, 25 were included in the meta‐analysis and dose–response analysis. Twenty‐three of the 25 articles involved children. Risk ratio (RR) for binary variables and weighted mean difference (WMD) for continuous variables were conducted. Mantel–Haenszel random‐effects model was used to pool the data for meta‐analysis. Statistical heterogeneity was assessed using the I2 test with I2 ≥ 50% considered to indicate high heterogeneity. Additionally, subgroup analyses (based on participant's age, prevalence of myopia and study type) and sensitivity analyses were conducted. A significant protective effect of outdoor time was found for incident myopia (clinical trials: risk ratio (RR) = 0.536, 95% confidence interval (CI) = 0.338 to 0.850; longitudinal cohort studies: RR = 0.574, 95% CI = 0.395 to 0.834) and prevalent myopia (cross‐sectional studies: OR = 0.964, 95% CI = 0.945 to 0.982). With dose–response analysis, an inverse nonlinear relationship was found with increased time outdoors reducing the risk of incident myopia. Also, pooled results from clinical trials indicated that when outdoor time was used as an intervention, there was a reduced myopic shift of −0.30 D (in both myopes and nonmyopes) compared with the control group (WMD = −0.30, 95% CI = −0.18 to −0.41) after 3 years of follow‐up. However, when only myopes were considered, dose–response analysis did not find a relationship between time outdoors and myopic progression (R2 = 0.00064). Increased time outdoors is effective in preventing the onset of myopia as well as in slowing the myopic shift in refractive error. But paradoxically, outdoor time was not effective in slowing progression in eyes that were already myopic. Further studies evaluating effect of outdoor in various doses and objective measurements of time outdoors may help improve our understanding of the role played by outdoors in onset and management of myopia.
doi_str_mv	10.1111/aos.13403
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The purpose is to evaluate the evidence for association between time outdoors and (1) risk of onset of myopia (incident/prevalent myopia); (2) risk of a myopic shift in refractive error and c) risk of progression in myopes only. A systematic review followed by a meta‐analysis and a dose–response analysis of relevant evidence from literature was conducted. PubMed, EMBASE and the Cochrane Library were searched for relevant papers. Of the 51 articles with relevant data, 25 were included in the meta‐analysis and dose–response analysis. Twenty‐three of the 25 articles involved children. Risk ratio (RR) for binary variables and weighted mean difference (WMD) for continuous variables were conducted. Mantel–Haenszel random‐effects model was used to pool the data for meta‐analysis. Statistical heterogeneity was assessed using the I2 test with I2 ≥ 50% considered to indicate high heterogeneity. Additionally, subgroup analyses (based on participant's age, prevalence of myopia and study type) and sensitivity analyses were conducted. A significant protective effect of outdoor time was found for incident myopia (clinical trials: risk ratio (RR) = 0.536, 95% confidence interval (CI) = 0.338 to 0.850; longitudinal cohort studies: RR = 0.574, 95% CI = 0.395 to 0.834) and prevalent myopia (cross‐sectional studies: OR = 0.964, 95% CI = 0.945 to 0.982). With dose–response analysis, an inverse nonlinear relationship was found with increased time outdoors reducing the risk of incident myopia. Also, pooled results from clinical trials indicated that when outdoor time was used as an intervention, there was a reduced myopic shift of −0.30 D (in both myopes and nonmyopes) compared with the control group (WMD = −0.30, 95% CI = −0.18 to −0.41) after 3 years of follow‐up. 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Additionally, subgroup analyses (based on participant's age, prevalence of myopia and study type) and sensitivity analyses were conducted. A significant protective effect of outdoor time was found for incident myopia (clinical trials: risk ratio (RR) = 0.536, 95% confidence interval (CI) = 0.338 to 0.850; longitudinal cohort studies: RR = 0.574, 95% CI = 0.395 to 0.834) and prevalent myopia (cross‐sectional studies: OR = 0.964, 95% CI = 0.945 to 0.982). With dose–response analysis, an inverse nonlinear relationship was found with increased time outdoors reducing the risk of incident myopia. Also, pooled results from clinical trials indicated that when outdoor time was used as an intervention, there was a reduced myopic shift of −0.30 D (in both myopes and nonmyopes) compared with the control group (WMD = −0.30, 95% CI = −0.18 to −0.41) after 3 years of follow‐up. 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Further studies evaluating effect of outdoor in various doses and objective measurements of time outdoors may help improve our understanding of the role played by outdoors in onset and management of myopia.</description><subject>Children</subject><subject>Clinical trials</subject><subject>Data processing</subject><subject>dose–response analysis</subject><subject>Heterogeneity</subject><subject>Humans</subject><subject>Leisure Activities</subject><subject>Meta-analysis</subject><subject>Myopia</subject><subject>Myopia - prevention & control</subject><subject>Nonlinear response</subject><subject>Outdoor activities</subject><subject>outdoor time</subject><subject>Outdoors</subject><subject>Random variables</subject><subject>Review</subject><subject>Studies</subject><subject>Time Factors</subject><issn>1755-375X</issn><issn>1755-3768</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2017</creationdate><recordtype>article</recordtype><sourceid>24P</sourceid><sourceid>WIN</sourceid><sourceid>EIF</sourceid><recordid>eNp1kc9qFTEUhwex2Fpd-AIScGMXt00m_2ZcCKVULRS6sIK7cG7mjKbMTMYkM2V2PoLP6JOY29teqmA2Ced8-TicX1G8YvSY5XMCPh4zLih_UhwwLeWKa1U93b3l1_3ieYw3lCqmlHhW7JdVKVnF1UExX7seSRxxSMQNxE-p8T4QsMnNLjmMm2rADpLzA0me9IsfHZAx4Jz_bIowNMT6IQXfvSNAekzw--cvGKBboot37bjEhH122OyaHd6-KPZa6CK-vL8Piy8fzq_PPq0urz5enJ1erqykNV9Z0aoKG2VryipAC5JrW2qFYg1CqLaBWrQWsKRtW1OrW1oK1spq3QhK0Sp-WLzfesdp3WNj88gBOjMG10NYjAdn_u4M7rv55mcjZV3XkmbB23tB8D8mjMn0LlrsOhjQT9GwSnNdlkyLjL75B73xU8hryFTNeSk1F1WmjraUDT7GgO1uGEbNJk2T0zR3aWb29ePpd-RDfBk42QK3rsPl_yZzevV5q_wDpx2tzA</recordid><startdate>201709</startdate><enddate>201709</enddate><creator>Xiong, Shuyu</creator><creator>Sankaridurg, Padmaja</creator><creator>Naduvilath, Thomas</creator><creator>Zang, Jiajie</creator><creator>Zou, Haidong</creator><creator>Zhu, Jianfeng</creator><creator>Lv, Minzhi</creator><creator>He, Xiangui</creator><creator>Xu, Xun</creator><general>Wiley Subscription Services, Inc</general><general>John Wiley and Sons Inc</general><scope>24P</scope><scope>WIN</scope><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7TK</scope><scope>7X8</scope><scope>5PM</scope></search><sort><creationdate>201709</creationdate><title>Time spent in outdoor activities in relation to myopia prevention and control: a meta‐analysis and systematic review</title><author>Xiong, Shuyu ; 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The purpose is to evaluate the evidence for association between time outdoors and (1) risk of onset of myopia (incident/prevalent myopia); (2) risk of a myopic shift in refractive error and c) risk of progression in myopes only. A systematic review followed by a meta‐analysis and a dose–response analysis of relevant evidence from literature was conducted. PubMed, EMBASE and the Cochrane Library were searched for relevant papers. Of the 51 articles with relevant data, 25 were included in the meta‐analysis and dose–response analysis. Twenty‐three of the 25 articles involved children. Risk ratio (RR) for binary variables and weighted mean difference (WMD) for continuous variables were conducted. Mantel–Haenszel random‐effects model was used to pool the data for meta‐analysis. Statistical heterogeneity was assessed using the I2 test with I2 ≥ 50% considered to indicate high heterogeneity. Additionally, subgroup analyses (based on participant's age, prevalence of myopia and study type) and sensitivity analyses were conducted. A significant protective effect of outdoor time was found for incident myopia (clinical trials: risk ratio (RR) = 0.536, 95% confidence interval (CI) = 0.338 to 0.850; longitudinal cohort studies: RR = 0.574, 95% CI = 0.395 to 0.834) and prevalent myopia (cross‐sectional studies: OR = 0.964, 95% CI = 0.945 to 0.982). With dose–response analysis, an inverse nonlinear relationship was found with increased time outdoors reducing the risk of incident myopia. Also, pooled results from clinical trials indicated that when outdoor time was used as an intervention, there was a reduced myopic shift of −0.30 D (in both myopes and nonmyopes) compared with the control group (WMD = −0.30, 95% CI = −0.18 to −0.41) after 3 years of follow‐up. 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subjects	Children Clinical trials Data processing dose–response analysis Heterogeneity Humans Leisure Activities Meta-analysis Myopia Myopia - prevention & control Nonlinear response Outdoor activities outdoor time Outdoors Random variables Review Studies Time Factors
title	Time spent in outdoor activities in relation to myopia prevention and control: a meta‐analysis and systematic review
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