新冠肺炎疫情暴发前后城市学龄前儿童屏幕用眼时间分析

施姣姣; 史慧静; 王昱杰; 尹灿灿; 吕萍萍; 严玉洁; 汪玲

doi:10.16835/j.cnki.1000-9817.2022.03.007

新冠肺炎疫情暴发前后城市学龄前儿童屏幕用眼时间分析

doi: 10.16835/j.cnki.1000-9817.2022.03.007

1.
复旦大学公共卫生学院妇幼与儿少卫生教研室, 上海 200032
2.
上海市闵行区新虹社区卫生服务中心主任室

基金项目:

上海市加强公共卫生体系建设第五轮重点学科建设项目 GWV-10.1-XK08

详细信息

作者简介:
施姣姣(1993-), 女, 陕西西安人, 在读硕士, 主要研究方向为青少年健康和学校卫生

通讯作者:
严玉洁, E-mail: yanyujie1976@qq.com

汪玲, E-mail: lingwang@fudan.edu.cn

利益冲突声明 所有作者声明无利益冲突。
中图分类号: R179 G78
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出版历程
- 收稿日期: 2021-08-02
- 修回日期: 2021-10-20
- 网络出版日期: 2022-03-29
- 刊出日期: 2022-03-25

Electric screen time of urban preschoolers during and before COVID-19

1.
Department of Maternal and Child Health, School of Public Health, Fudan University, Shanghai (200032), China

摘要

摘要: 目的了解新冠肺炎疫情前及期间城市学龄前儿童各类电子屏幕使用时间及影响因素, 为控制学龄前儿童电子屏幕使用和预防近视提供科学依据。方法运用多阶段整群随机抽样法, 于2020年6—7月, 横断面调查上海市闵行区幼儿园8 244名儿童, 通过家长问卷收集学龄前儿童在新冠肺炎疫情暴发前后各类电子屏幕的使用时长, 估算加权屏幕屈光时间, 分析家庭电子屏幕督导行为与学龄前儿童加权屏幕屈光时间的关联。结果被调查学龄前儿童新冠肺炎疫情期间每日手机、电脑/平板、电视/投影视屏时长过度检出率分别为30.52%, 51.40%, 56.82%, 而疫情前上学日三者检出率分别为21.94%, 41.80%, 47.51%。控制重要混杂因素后, 家长控制孩子使用电子屏幕的频率高、家长对孩子使用电子屏幕时间有规定并严格实施与疫情前加权屏幕屈光时间负向关联(调整OR=0.60~0.77, P值均＜0.05);家长陪伴孩子时使用电子屏幕的频率高、家长对孩子使用电子屏幕时间有规定但实施不严格与加权屏幕屈光时间和疫情期间加权屏幕屈光时间增加正向关联(调整OR=1.18~1.80, P值均＜0.05)。结论城市学前儿童疫情前后电子屏幕用眼时长均过长。学龄前儿童视屏行为的控制措施中, 应注重家庭内部的电子屏幕使用管理和父母自身的榜样作用。
- 冠状病毒属 /
- 注视, 眼 /
- 时间 /
- 回归分析 /
- 儿童, 学龄前
Abstract: Objective To determine the influencing factors of electronic screen time of urban preschoolers before and after the COVID-19 outbreak, so as to provide a scientific basis for the control of digital screen use and early prevention of myopia among preschoolers. Methods Using multi-stage cluster random sampling method, a cross-sectional survey of 8 244 kindergarten students in a district of Shanghai was implemented, through parent questionnaire collecting the time child spent on various electronic screens before and after the COVID-19 outbreak, estimated the weighting screen time, and emphatically analyzed the relationship between family electronic screen supervision behavior and preschoolers' weighting screen time. Results The proportion of daily over-use time on average of mobile phones, computers and TV/projection screens among the surveyed preschool children during COVID-19 was 30.52%, 51.40% and 56.82%, respectively. On school days before the epidemic, the proportion was 21.94%, 41.80% and 47.51% respectively. After controlling for primary covariates, parents' frequent control of children's electronic screen use, parents' guidance for electronic screen use were significantly associated with lower weighted screen refractive time (OR=0.60-0.77, P < 0.05). The use of electronic screen when parents accompanied their children, the use of electronic screen time by parents but not strictly implemented were significantly associated with higher weighted screen refractive time and increased screen refractive time (OR=1.18-1.80, P < 0.05). Conclusion Urban preschoolers' electronic screen time was high during and before COVID-19. In the control measures of preschool children's electronic screen time, attention should be paid to the management of electronic screen use within the family and parents' role model.
- Coronavirus /
- Fixation, ocular /
- Time /
- Regression analysis /
- Child, preschool
注释:

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表 1 不同组别学龄前儿童新冠肺炎疫情前及疫情期间各类视屏时长过度检出率比较

Table 1. Distribution of various types of prolonged screen time in preschool children of different characteristics

组别	分类	人数	电视/投影				电脑/平板				手机
组别	分类	人数	疫情前	疫情期间	χ²值	P值	疫情前	疫情期间	χ²值	P值	疫情前	疫情期间	χ²值	P值
年龄/岁	≤4	2 895	1 389(47.98)	1 655(57.17)	756.88	＜0.01	984(33.99)	1 253(43.28)	1 270.58	＜0.01	581(20.07)	818(28.26)	1 263.10	＜0.01
	5	3 002	1 435(47.80)	1 712(57.03)	740.32	＜0.01	1 342(44.70)	1 644(54.76)	1 082.39	＜0.01	673(22.42)	932(31.05)	1 059.09	＜0.01
	≥6	2 327	1 083(46.54)	1 306(56.12)	489.52	＜0.01	1 112(47.79)	1 330(57.16)	763.31	＜0.01	550(23.64)	760(32.66)	863.16	＜0.01
性别	男	4 295	2 071(48.22)	2 432(56.62)	1 067.75	＜0.01	1 759(40.95)	2 173(50.59)	1 652.83	＜0.01	936(21.79)	1 307(30.43)	1 672.90	＜0.01
	女	3 929	1 836(46.73)	2 241(57.04)	916.96	＜0.01	1 679(42.73)	2 054(52.28)	1 497.04	＜0.01	868(22.09)	1 203(30.62)	1 500.17	＜0.01
父母高度近视^*	均不近视	6 641	3 196(48.13)	3 809(57.36)	1 534.80	＜0.01	2 756(41.50)	3 380(50.90)	2 498.22	＜0.01	1 541(23.20)	2 111(31.79)	2 557.87	＜0.01
	至少一方近视	1 505	673(44.72)	826(54.88)	428.27	＜0.01	649(43.12)	810(53.82)	626.29	＜0.01	235(15.61)	365(24.25)	585.18	＜0.01
幼儿眼病病史	否	7 131	3 418(47.93)	4 082(57.24)	1 703.60	＜0.01	2 970(41.65)	3 663(51.37)	2 706.14	＜0.01	1 610(22.58)	2 241(31.43)	2 785.66	＜0.01
	是	1 093	489(44.74)	591(54.07)	278.02	＜0.01	468(42.82)	564(51.60)	445.26	＜0.01	194(17.75)	269(24.61)	374.20	＜0.01
父亲文化程度	本科以下	3 479	1 761(50.62)	2 003(57.57)	749.94	＜0.01	1 406(40.41)	1 646(47.31)	1 308.69	＜0.01	1 088(31.27)	1 394(40.07)	1 204.44	＜0.01
	本科及以上	4 745	2 146(45.23)	2 670(56.27)	1 238.23	＜0.01	2 032(42.82)	2 581(54.39)	1 842.48	＜0.01	716(15.09)	1 116(23.52)	1 889.76	＜0.01
母亲文化程度	本科以下	3 680	1 841(50.03)	2 116(57.50)	793.70	＜0.01	1 450(39.40)	1 727(46.93)	1 359.89	＜0.01	1 163(31.60)	1 485(40.35)	1 283.34	＜0.01
	本科及以上	4 544	2 066(45.47)	2 557(56.27)	1 194.33	＜0.01	1 988(43.75)	2 500(55.02)	1 781.97	＜0.01	641(14.11)	1 025(22.56)	1 785.55	＜0.01
家长陪伴孩子时使用	不会或很少	1 373	526(38.31)	662(48.22)	321.48	＜0.01	429(31.25)	576(41.95)	513.36	＜0.01	205(14.93)	304(22.14)	429.34	＜0.01
电子屏幕频率	偶尔	3 821	1 807(47.29)	2 204(57.68)	932.83	＜0.01	1 561(40.85)	1 957(51.22)	1 496.25	＜0.01	812(21.25)	1 142(29.89)	1 427.25	＜0.01
	经常	3 030	1 574(51.95)	1 807(59.64)	701.26	＜0.01	1 448(47.79)	1 694(55.91)	1 103.33	＜0.01	787(25.97)	1 064(35.12)	1 258.01	＜0.01
家长控制孩子使用	经常	6 657	3 084(46.33)	3 822(57.41)	1 720.16	＜0.01	2 719(40.84)	3 412(51.25)	2 585.90	＜0.01	1 277(19.18)	1 887(28.35)	2 507.68	＜0.01
电子屏幕频率	很少	1 567	823(52.52)	851(54.31)	287.79	0.20	719(45.88)	815(52.01)	568.87	＜0.01	527(33.63)	623(39.76)	617.71	＜0.01
家长对孩子使用电子	完全没有	251	126(50.20)	116(46.22)	56.82	0.27	101(40.24)	109(43.43)	98.09	0.30	64(25.50)	80(31.87)	90.45	0.02
屏幕时间的规定	规定执行不严格	4 993	2 778(55.64)	3 185(63.79)	997.74	＜0.01	2 404(48.15)	2 841(56.90)	1 753.41	＜0.01	1 437(28.78)	1 953(39.11)	1 819.43	＜0.01
	规定严格执行	2 980	1 003(33.66)	1 372(46.04)	802.45	＜0.01	933(31.31)	1 277(42.85)	1 234.58	＜0.01	303(10.17)	477(16.01)	1 055.12	＜0.01
卧室安装电子屏幕	否	6 076	2 650(43.61)	3 280(53.98)	1 489.08	＜0.01	2 548(41.94)	3 136(51.61)	2 280.32	＜0.01	1 183(19.47)	1 708(28.11)	2 293.24	＜0.01
	是	2 148	1 257(58.52)	1 393(64.85)	444.40	＜0.01	890(41.43)	1 091(50.79)	871.52	＜0.01	621(28.91)	802(37.34)	843.33	＜0.01
注： ()内数字为检出率/%；*项有缺失值。

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表 2 学龄前儿童疫情前上学日各类电子屏幕使用时长分布

Table 2. The distribution of various types of electronic screen time among preschool children during school days before COVID-19

年级	电子屏幕	不看	＜0.5 h	0.5~ < 1 h	1~ < 2 h	2~ < 3 h	≥3 h
小班 (n=2 358)	手机	9(0.38)	892(37.83)	1 006(42.66)	325(13.78)	108(4.58)	18(0.76)
	电脑/平板	18(0.76)	745(31.59)	803(34.05)	588(24.94)	186(7.89)	18(0.76)
	电视/投影	18(0.76)	401(17.01)	804(34.10)	767(32.53)	320(13.57)	48(2.04)
中班 (n=2 899)	手机	15(0.52)	1 076(37.12)	1 146(39.53)	471(16.25)	150(5.17)	41(1.41)
	电脑/平板	26(0.90)	686(23.66)	951(32.80)	827(28.53)	347(11.97)	62(2.14)
	电视/投影	33(1.14)	552(19.04)	926(31.94)	943(32.53)	388(13.38)	57(1.97)
大班 (n=2 967)	手机	15(0.51)	1 037(34.95)	1 224(41.25)	481(16.21)	187(6.30)	23(0.78)
	电脑/平板	32(1.08)	576(19.41)	949(31.99)	916(30.87)	418(14.09)	76(2.56)
	电视/投影	24(0.81)	618(20.83)	941(31.72)	915(30.84)	409(13.78)	60(2.02)
注： ()内数字为构成比/%。

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表 3 学龄前儿童疫情前周末及节假日各类电子屏幕使用时长分布

Table 3. The distribution of various types of electronic screen time among preschool children during weekends and holidays before COVID-19

年级	电子屏幕	不看	＜0.5 h	0.5~ < 1 h	1~ < 2 h	2~ < 3 h	≥3 h
小班 (n=2 358)	手机	21(0.89)	801(33.97)	941(39.91)	383(16.24)	177(7.51)	35(1.48)
	电脑/平板	29(1.23)	662(28.07)	732(31.04)	598(25.36)	285(12.09)	52(2.21)
	电视/投影	56(2.37)	346(14.67)	613(26.00)	738(31.30)	491(20.82)	114(4.83)
中班 (n=2 899)	手机	26(0.90)	955(32.94)	1 064(36.70)	521(17.97)	267(9.21)	66(2.28)
	电脑/平板	59(2.04)	593(20.46)	796(27.46)	805(27.77)	521(17.97)	125(4.31)
	电视/投影	76(2.62)	417(14.38)	744(25.66)	885(30.53)	638(22.01)	139(4.79)
大班 (n=2 967)	手机	39(1.31)	912(30.74)	1 114(37.55)	575(19.38)	275(9.27)	52(1.75)
	电脑/平板	72(2.43)	508(17.12)	744(25.08)	892(30.06)	604(20.36)	147(4.95)
	电视/投影	71(2.39)	467(15.74)	709(23.90)	885(29.83)	668(22.51)	167(5.63)
注： ()内数字为构成比/%。

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表 4 学龄前儿童新冠肺炎疫情期间各类电子屏幕使用时长分布

Table 4. The distribtion of various types of electronic screen time among preschool children during COVID-19

年级	电子屏幕	不看	＜0.5 h	0.5~ < 1 h	1~ < 2 h	2~ < 3 h	≥3 h
小班 (n=2 358)	手机	25(1.06)	733(31.09)	954(40.46)	397(16.84)	198(8.40)	51(2.16)
	电脑/平板	43(1.82)	636(26.97)	676(28.67)	590(25.02)	333(14.12)	80(3.39)
	电视/投影	79(3.35)	327(13.87)	594(25.19)	662(28.07)	524(22.22)	172(7.29)
中班 (n=2 899)	手机	30(1.03)	897(30.94)	1073(37.01)	521(17.97)	289(9.97)	89(3.07)
	电脑/平板	93(3.21)	581(20.04)	703(24.25)	812(28.01)	553(19.08)	157(5.42)
	电视/投影	114(3.93)	410(14.14)	743(25.63)	807(27.84)	655(22.59)	170(5.86)
大班 (n=2 967)	手机	47(1.58)	880(29.66)	1 075(36.23)	573(19.31)	314(10.58)	78(2.63)
	电脑/平板	104(3.51)	456(15.37)	705(23.76)	818(27.57)	678(22.85)	206(6.94)
	电视/投影	122(4.11)	459(15.47)	703(23.69)	792(26.69)	673(22.68)	218(7.35)
注： ()内数字为构成比/%。

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表 5 不同特征学龄前儿童疫情前及期间加权屏幕屈光时间及变化的Logistic回归分析[OR值(OR值95%CI)，n=8 146]

Table 5. Logistic regression analysis of weighting screen time between groups in different characteristic among preschoolers [OR(OR 95%CI), n=8 146]

自变量	分类	疫情前	疫情期间	Δ疫情暴发前后
性别	男	1.00	1.00	1.00
	女	1.00(0.91~1.09)	1.00(0.91~1.09)	1.07(0.98~1.17)
年龄/岁	≤4	1.00	1.00	1.00
	5	1.29(1.16~1.44)^*	1.44(1.29~1.61)^*	1.14(1.03~1.26)^*
	≥6	1.60(1.42~1.80)^*	1.63(1.45~1.83)^*	1.20(1.07~1.35)^*
幼儿眼病病史	否	1.00	1.00	1.00
	是	0.89(0.77~1.02)	0.80(0.70~0.92)	0.89(0.78~1.02)
父母高度近视^a	均不近视	1.00	1.00	1.00
	至少一方高度近视	0.90(0.80~1.01)	0.84(0.74~0.95)^*	1.00(0.89~1.12)
父亲文化程度	本科以下	1.00	1.00	1.00
	本科及以上	0.81(0.72~0.91)^*	0.88(0.78~0.98)^*	1.06(0.95~1.18)
母亲文化程度	本科以下	1.00	1.00	1.00
	本科及以上	0.85(0.76~0.96)^*	0.83(0.74~0.93)^*	1.03(0.92~1.15)
家长陪伴孩子时使用电子屏幕	不会或很少	1.00	1.00	1.00
频率	偶尔	1.53(1.34~1.75)^*	1.43(1.25~1.65)^*	1.22(1.07~1.38)^*
	经常	1.67(1.45~1.92)^*	1.67(1.44~1.93)^*	1.30(1.13~1.48)^*
家长控制孩子使用电子屏幕	很少	1.00	1.00	1.00
频率	经常	0.77(0.68~0.87)^*	0.99(0.88~1.12)	1.18(1.05~1.32)^*
家长对孩子使用电子屏幕时间	完全没有	1.00	1.00	1.00
的规定	有规定，但实行不严格	1.80(1.38~2.34)^*	1.90(1.45~2.48)^*	1.69(1.30~2.21)^*
	有规定，并且严格实行	0.60(0.46~0.78)^*	0.64(0.48~0.84)^*	1.15(0.88~1.52)
卧室安装电子屏幕	否	1.00	1.00	1.00
	是	1.31(1.18~1.46)^*	1.33(1.20~1.48)^*	0.96(0.86~1.06)
注：采用Enter法将所有变量纳入分析，Δ的分析调整了疫情前加权屏幕屈光时间；a表示该项有缺失值；*P＜0.05。

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参考文献(23)

[1]	LONG E, WU X, DING X, et al. Real-world big data demonstrates prevalence trends and developmental patterns of myopia in China: a retrospective, multicenter study[J]. Ann Translat Med, 2021, 9(7): 554. doi: 10.21037/atm-20-6663
[2]	HOLDEN B A, FRICKE T R, WILSON D A, et al. Global prevalence of myopia and high myopia and temporal trends from 2000 through 2050[J]. Ophthalmology, 2016, 123(5): 1036-1042. doi: 10.1016/j.ophtha.2016.01.006
[3]	DO C W, CHAN L Y L, TSE A C Y, et al. Association between time spent on smart devices and change in refractive error: a 1-year prospective observational study among Hong Kong children and adolescents[J]. Int J Environ Res Public Health, 2020, 17(23): 8923. doi: 10.3390/ijerph17238923
[4]	MCCRANN S, LOUGHMAN J, BUTLER J S, et al. Smartphone use as a possible risk factor for myopia[J]. Clin Exp Optom, 2021, 104(1): 35-41. doi: 10.1111/cxo.13092
[5]	LANCA C, SAW S M. The association between digital screen time and myopia: a systematic review[J]. Ophthalm Physiol Opt J Br Coll Ophthalm Opt(Optometrists), 2020, 40(2): 216-229. doi: 10.1111/opo.12657
[6]	YANG G Y, HUANG L H, SCHMID K L, et al. Associations between screen exposure in early life and myopia amongst Chinese preschoolers[J]. Int J Environ Res Public Health, 2020, 17(3): 1056. doi: 10.3390/ijerph17031056
[7]	FAN D S, LAM D S, WONG T Y, et al. The effect of parental history of myopia on eye size of pre-school children: a pilot study[J]. Acta Ophthalmol Scand, 2005, 83(4): 492-496. doi: 10.1111/j.1600-0420.2005.00481.x
[8]	柴晶鑫, 曹远, 于彤, 等. 新型冠状病毒肺炎疫情期间北京市3~6岁儿童视屏时间调查[J]. 首都公共卫生, 2020, 14(6): 294-297. https://www.cnki.com.cn/Article/CJFDTOTAL-SDGW202006005.htm CHAI J X, CAO Y, YU T, et al. Survey of video time in children aged 3-6 years in Beijing during COVID-19 outbreak[J]. Capital Public Health, 2020, 14(6): 294-297. https://www.cnki.com.cn/Article/CJFDTOTAL-SDGW202006005.htm
[9]	董慧茜, 杨放如, 郝伟. 2019冠状病毒病疫情期间湖南省学龄儿童及青少年网络成瘾现状及相关风险因素的研究[J]. 中国药物依赖性杂志, 2020, 29(5): 357-363. https://www.cnki.com.cn/Article/CJFDTOTAL-YWYB202005008.htm DONG H Q, YANG F R, HAO W. Status and related risk factors of Internet addiction among school-age children and adolescents in Hunan Province during COVID-19 outbreak[J]. Chin J Drug Depend, 2020, 29(5): 357-363. https://www.cnki.com.cn/Article/CJFDTOTAL-YWYB202005008.htm
[10]	PONTI M, BELANGER S, GRIMES R, et al. Screen time and young children: promoting health and development in a digital world[J]. Paediatr Child Health, 2017, 22(8): 461-477. doi: 10.1093/pch/pxx123
[11]	高国朋, 谭晖, 张秀军, 等. 中小学生视力保健行为评定问卷编制及其信效度评价[J]. 中国学校卫生, 2013, 34(12): 1456-1459. http://www.cjsh.org.cn/article/id/zgxxws201312017 GAO G P, TAN H, ZHANG X J, et al. Development and reliability and validity evaluation of visual health behavior evaluation questionnaire for primary and middle school students[J]. Chin J Sch Health, 2013, 34(12): 1456-1459. http://www.cjsh.org.cn/article/id/zgxxws201312017
[12]	国家卫生健康委办公厅. 印发《儿童青少年近视防控适宜技术指南》[J]. 中国眼镜科技杂志, 2019(11): 12-15. doi: 10.3969/j.issn.1004-6615.2019.11.005 General Office of the NHC. Issued the appropriate technical guidelines for the prevention and control of myopia in children and adolescents[J]. Chin J Opt Sci Technol, 2019(11): 12-15. doi: 10.3969/j.issn.1004-6615.2019.11.005
[13]	World Health Organization. To grow up healthy, children need to sit less and play more[R]. Geneva: WHO, 2019.
[14]	亓德云, 谭晖, 江艳微, 等. 虹口区不同年级小学生视力保健行为单因素结果分析[J]. 教育生物学杂志, 2019, 7(3): 166-170. doi: 10.3969/j.issn.2095-4301.2019.03.008 QI D Y, TAN H, JIANG Y W, et al. Single factors analysis of vision care behavior of different grade pupils in Hongkou District, Shanghai[J]. J Bio-Educ, 2019, 7(3): 166-170. doi: 10.3969/j.issn.2095-4301.2019.03.008
[15]	谭永春, 马丽, 王茹楠. 蚌埠市学龄前儿童使用智能电子产品情况调查研究[J]. 蚌埠学院学报, 2016, 5(4): 139-144. https://www.cnki.com.cn/Article/CJFDTOTAL-BBXY201604032.htm TAN Y C, MA L, WANG R N. Investigation on the use of intelligent electronic products by preschool children in Bengbu City[J]. J Bengbu Coll, 2016, 5(4): 139-144. https://www.cnki.com.cn/Article/CJFDTOTAL-BBXY201604032.htm
[16]	陆俊杰, 李芳芳. 学前儿童眼部不适与其家庭电子产品使用之间的关系及干预[J]. 学前教育研究, 2016(3): 50-56. https://www.cnki.com.cn/Article/CJFDTOTAL-XQJY201603008.htm LU J J, LI F F. The relationship between ocular discomfort and home electronic products use in preschool children and its intervention[J]. Res Presch Educ, 2016(3): 50-56. https://www.cnki.com.cn/Article/CJFDTOTAL-XQJY201603008.htm
[17]	KOVACS V A, STARC G, BRANDES M, et al. Physical activity, screen time and the COVID-19 school closures in Europe: an observational study in 10 countries[J]. Eur J Sport Sci, 2021(3): 1-10.
[18]	李纯纯, 唐媛, 肖海哨, 等. 温州市小学生新型冠状病毒肺炎疫情期间用眼卫生现况[J]. 中国学校卫生, 2020, 41(10): 1495-1498, 1501. doi: 10.16835/j.cnki.1000-9817.2020.10.014 LI C C, TANG Y, XIAO H S, et al. Eye hygiene of primary school students in wenzhou during COVID-19 outbreak[J]. Chin J Sch Health, 2020, 41(10): 1495-1498, 1501. doi: 10.16835/j.cnki.1000-9817.2020.10.014
[19]	孙丽丽, 齐丽丽, 季拓. 电子产品对学龄前及学龄初期儿童近视的相关性分析[J]. 国际眼科杂志, 2016, 16(2): 382-385. https://www.cnki.com.cn/Article/CJFDTOTAL-GJYK201602056.htm SUN L L, QI L L, JI T. Correlation analysis of electronic products on myopia of preschool and early school-age children[J]. Int J Ophthalmol, 2016, 16(2): 382-385. https://www.cnki.com.cn/Article/CJFDTOTAL-GJYK201602056.htm
[20]	徐慧雯, 王班伟, 吴志斌. 广东省珠海市462名小学生使用智能手机行为与视力不良相关性分析[J]. 河南预防医学杂志, 2020, 31(11): 835-839. https://www.cnki.com.cn/Article/CJFDTOTAL-HNYF202011011.htm XU H W, WANG B W, WU Z B. The relationship between smartphone use behavior and poor vision in 462 primary school students in Zhuhai City, Guangdong Province[J]. Henan J Prev Med, 2020, 31(11): 835-839. https://www.cnki.com.cn/Article/CJFDTOTAL-HNYF202011011.htm
[21]	HUANG L, SCHMID K L, ZHANG J, et al. Association between greater residential greenness and decreased risk of preschool myopia and astigmatism[J]. Environ Res, 2021, 196: 110976. doi: 10.1016/j.envres.2021.110976
[22]	CHANG F C, CHIU C H, CHEN P H, et al. Computer/mobile device screen time of children and their eye care behavior: the roles of risk perception and parenting[J]. Cyberpsychol Behav Soc Network, 2018, 21(3): 179-186. doi: 10.1089/cyber.2017.0324
[23]	纪颖, 孙磊, 张炎, 等. 北京市小学生慢性病相关健康行为的社会影响因素分析[J]. 卫生研究, 2015, 44(5): 703-710. https://www.cnki.com.cn/Article/CJFDTOTAL-WSYJ201505001.htm JI Y, SUN L, ZHANG Y, et al. Social influencing factors of health behaviors related to chronic diseases among primary school students in Beijing[J]. J Hyg Res, 2015, 44(5): 703-710. https://www.cnki.com.cn/Article/CJFDTOTAL-WSYJ201505001.htm