童年时期暴露于狭窄的生活空间：近视发展的一种潜在环境威胁。

Childhood exposure to constricted living space: a possible environmental threat for myopia development.

作者信息

Choi Kai Yip, Yu Wing Yan, Lam Christie Hang I, Li Zhe Chuang, Chin Man Pan, Lakshmanan Yamunadevi, Wong Francisca Siu Yin, Do Chi Wai, Lee Paul Hong, Chan Henry Ho Lung

机构信息

The Centre for Myopia Research, School of Optometry, The Hong Kong Polytechnic University, Kowloon, Hong Kong.

School of Nursing, The Hong Kong Polytechnic University, Kowloon, Hong Kong.

出版信息

Ophthalmic Physiol Opt. 2017 Sep;37(5):568-575. doi: 10.1111/opo.12397. Epub 2017 Jun 22.

DOI:10.1111/opo.12397

PMID:28643407

Abstract

PURPOSE

People in Hong Kong generally live in a densely populated area and their homes are smaller compared with most other cities worldwide. Interestingly, East Asian cities with high population densities seem to have higher myopia prevalence, but the association between them has not been established. This study investigated whether the crowded habitat in Hong Kong is associated with refractive error among children.

METHODS

In total, 1075 subjects [Mean age (S.D.): 9.95 years (0.97), 586 boys] were recruited. Information such as demographics, living environment, parental education and ocular status were collected using parental questionnaires. The ocular axial length and refractive status of all subjects were measured by qualified personnel.

RESULTS

Ocular axial length was found to be significantly longer among those living in districts with a higher population density (F = 6.15, p = 0.002) and those living in a smaller home (F = 3.16, p = 0.04). Axial lengths were the same among different types of housing (F = 1.24, p = 0.29). Non-cycloplegic autorefraction suggested a more negative refractive error in those living in districts with a higher population density (F = 7.88, p < 0.001) and those living in a smaller home (F = 4.25, p = 0.02). After adjustment for other confounding covariates, the population density and home size also significantly predicted axial length and non-cycloplegic refractive error in the multiple linear regression model, while axial length and refractive error had no relationship with types of housing.

CONCLUSIONS

Axial length in children and childhood refractive error were associated with high population density and small home size. A constricted living space may be an environmental threat for myopia development in children.

摘要

目的

香港居民通常生活在人口密集的地区，与世界上大多数其他城市相比，他们的住房面积较小。有趣的是，人口密度高的东亚城市似乎近视患病率较高，但两者之间的关联尚未确立。本研究调查了香港拥挤的居住环境是否与儿童屈光不正有关。

方法

共招募了1075名受试者[平均年龄（标准差）：9.95岁（0.97），586名男孩]。通过家长问卷收集人口统计学、生活环境、父母教育程度和眼部状况等信息。所有受试者的眼轴长度和屈光状态由专业人员测量。

结果

发现居住在人口密度较高地区的人群（F = 6.15，p = 0.002）以及居住在较小住房中的人群（F = 3.16，p = 0.04）的眼轴长度明显更长。不同类型住房的眼轴长度相同（F = 1.24，p = 0.29）。非散瞳自动验光显示，居住在人口密度较高地区的人群（F = 7.88，p < 0.001）以及居住在较小住房中的人群（F = 4.25，p = 0.02）的屈光不正度数更负。在对其他混杂协变量进行调整后，人口密度和住房面积在多元线性回归模型中也显著预测了眼轴长度和非散瞳屈光不正，而眼轴长度和屈光不正与住房类型无关。

结论

儿童的眼轴长度和儿童期屈光不正与高人口密度和小住房面积有关。狭窄的生活空间可能是儿童近视发展的环境威胁。

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童年时期暴露于狭窄的生活空间：近视发展的一种潜在环境威胁。

Childhood exposure to constricted living space: a possible environmental threat for myopia development.

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