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

Childhood exposure to constricted living space: a possible environmental threat for myopia development
Childhood exposure to constricted living space: a possible environmental threat for myopia development
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 (F2,1072 = 6.15, p = 0.002) and those living in a smaller home (F2,1072 = 3.16, p = 0.04). Axial lengths were the same among different types of housing (F3,1071 = 1.24, p = 0.29). Non-cycloplegic autorefraction suggested a more negative refractive error in those living in districts with a higher population density (F2,1072 = 7.88, p < 0.001) and those living in a smaller home (F2,1072 = 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.
childhood refractive error, constricted living space, epidemiology, living environment, myopia, myopia prevalence
0275-5408
568-575
Choi, Kai Yip
f8755f4f-f088-4c5d-bb6d-003cfe35b68a
Yu, Wing Yan
1ffc7f90-7153-49cf-8d53-9b50b2ec4e77
Lam, Christie Hang I.
9379cdf3-c550-43d9-baec-7eb1404409a2
Li, Zhe Chuang
378d2ef6-c004-439d-afce-9ff9f1fcfb15
Chin, Man Pan
a01c4651-2767-4086-bdea-1ffa7e219968
Lakshmanan, Yamunadevi
cfc6c481-b411-4c70-b4db-9452764e7ed3
Wong, Francisca Siu Yin
03bd0a5a-ccda-40d4-8890-4bdcf71e5c6a
Do, Chi Wai
f95a99ca-4db2-40de-a00c-3c9438c9ae8f
Lee, Paul Hong
02620eab-ae7f-4a1c-bad1-8a50e7e48951
Chan, Henry Ho Lung
573d53c4-316f-486a-a304-9389c3e8452f
et al.
Choi, Kai Yip
f8755f4f-f088-4c5d-bb6d-003cfe35b68a
Yu, Wing Yan
1ffc7f90-7153-49cf-8d53-9b50b2ec4e77
Lam, Christie Hang I.
9379cdf3-c550-43d9-baec-7eb1404409a2
Li, Zhe Chuang
378d2ef6-c004-439d-afce-9ff9f1fcfb15
Chin, Man Pan
a01c4651-2767-4086-bdea-1ffa7e219968
Lakshmanan, Yamunadevi
cfc6c481-b411-4c70-b4db-9452764e7ed3
Wong, Francisca Siu Yin
03bd0a5a-ccda-40d4-8890-4bdcf71e5c6a
Do, Chi Wai
f95a99ca-4db2-40de-a00c-3c9438c9ae8f
Lee, Paul Hong
02620eab-ae7f-4a1c-bad1-8a50e7e48951
Chan, Henry Ho Lung
573d53c4-316f-486a-a304-9389c3e8452f

Choi, Kai Yip, Yu, Wing Yan, Lam, Christie Hang I., Li, Zhe Chuang and Lee, Paul Hong , et al. (2017) Childhood exposure to constricted living space: a possible environmental threat for myopia development. Ophthalmic and Physiological Optics, 37 (5), 568-575. (doi:10.1111/opo.12397).

Record type: Article

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 (F2,1072 = 6.15, p = 0.002) and those living in a smaller home (F2,1072 = 3.16, p = 0.04). Axial lengths were the same among different types of housing (F3,1071 = 1.24, p = 0.29). Non-cycloplegic autorefraction suggested a more negative refractive error in those living in districts with a higher population density (F2,1072 = 7.88, p < 0.001) and those living in a smaller home (F2,1072 = 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.

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More information

Published date: 1 September 2017
Additional Information: Funding Information: This study was supported by General Research Fund from the Research Grants Council of the Hong Kong Special Administrative Region, China (PolyU 5605/13M) and Internal Research Grants, The Hong Kong Polytechnic University (G-YBBS, Z0GF). The authors would like to acknowledge Dr. J Neuville for proofreading the manuscript, and Dr. JX Lian for providing statistical advice. Publisher Copyright: © 2017 The Authors Ophthalmic & Physiological Optics © 2017 The College of Optometrists
Keywords: childhood refractive error, constricted living space, epidemiology, living environment, myopia, myopia prevalence

Identifiers

Local EPrints ID: 475263
URI: http://eprints.soton.ac.uk/id/eprint/475263
DOI: doi:10.1111/opo.12397
ISSN: 0275-5408
PURE UUID: 3ffa81fa-f488-4e23-bbca-ee1416957c41
ORCID for Paul Hong Lee: ORCID iD orcid.org/0000-0002-5729-6450

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Date deposited: 14 Mar 2023 17:56
Last modified: 18 Mar 2024 04:09

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Contributors

Author: Kai Yip Choi
Author: Wing Yan Yu
Author: Christie Hang I. Lam
Author: Zhe Chuang Li
Author: Man Pan Chin
Author: Yamunadevi Lakshmanan
Author: Francisca Siu Yin Wong
Author: Chi Wai Do
Author: Paul Hong Lee ORCID iD
Author: Henry Ho Lung Chan
Corporate Author: et al.

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