References
- Seet B, Wong TY, Tan DTH, et al. Myopia in Singapore: taking a public health approach. Br J Ophthalmol 2001;85:521–526.
- Twelker JD, Mitchell GL, Messer DH, et al. Children’s ocular components and age, gender, and ethnicity. Optom Vis Sci 2009;86:918–935.
- Ojaimi E, Rose KA, Morgan IG, et al. Distribution of ocular biometric parameters and refraction in a population-based study of Australian children. IOVS 2005;46:2748–2754.
- Zadnik K, Mutti DO, Mitchell GL, et al. Normal eye growth in emmetropic schoolchildren. Optom Vis Sci 2004;81:819–828.
- Zadnik K, Manny RE, Yu JA, et al. Ocular component data in schoolchildren as a function of age and gender. Optom Vis Sci 2003;80:226–236.
- Ip JM, Huynh SC, Kifley A, et al. Variation of the contribution from axial length and other oculometric parameters to refraction by age and ethnicity. IOVS 2007;48:4846–4853.
- Sorsby A, Benjamin B, Sheridan M, et al. Refraction and its components during growth of the eye from the age of three. Medical Research Council Special Report Series No. 301. [Internet]. London: HMSO, 1961. Retrieved from: http://trove.nla.gov.au/work/18037971?selectedversion=NBD2703672
- Şahin A, Gürsoy H, Başmak H, et al. Reproducibility of ocular biometry with a new noncontact optical low-coherence reflectometer in children. Eur J Ophthalmol 2010;21:194–198.
- Sharma A, Congdon N, Patel M, et al. School-based approaches to the correction of refractive error in children. Surv Ophthalmol 2012;57:272–283.
- Morgan IG, Rose KA, Ellwein LB, The Refractive Error Study in Children Survey Group. Is emmetropia the natural endpoint for human refractive development? An analysis of population-based data from the refractive error study in children (RESC). Acta Ophthalmol 2010;88:877–884.
- IBGE |Cidades |São Paulo |Campinas |Censo Demográfico 2010: Resultados da Amostra - Educação [Internet]. [cited 31 May 2014]. Retrieved from: http://cidades.ibge.gov.br/xtras/temas.php?lang=&codmun=350950&idtema=105&search=sao-paulo%7Ccampinas%7Ccenso-demografico-2010:-resultados-da-amostra-educacao–
- Bennett AG. A method of determining the equivalent powers of the eye and its crystalline lens without resort to phakometry. Ophthalmic Physiolog Optics 1988;8:53–59.
- Gordon RA, Donzis PB. Refractive development of the human eye. Arch Ophthalmol 1985;103:785–789.
- Iribarren R, Morgan IG, Chan YH, et al. Changes in lens power in Singapore Chinese children during refractive development. IOVS 2012;53:5124–5130.
- He M, Zeng J, Liu Y, et al. Refractive error and visual impairment in urban children in Southern China. IOVS 2004;45:793–799.
- Database - PISA 2012 [Internet]. [cited 20 September 2015]. Retrieved from: http://pisa2012.acer.edu.au/downloads.php
- Morgan I, Rose K. How genetic is school myopia? Progr Retinal Eye Res 2005;24:1–38.
- Zadnik K, Mutti DO, Friedman NE, et al. Initial cross-sectional results from the Orinda longitudinal study of myopia. Optom Vis Sci 1993;70:750–758.
- Wong H-B, Machin D, Tan S-B, et al. Ocular component growth curves among Singaporean children with different refractive error status. IOVS 2010;51:1341–1347.
- Breslin KMM, O’Donoghue L, Saunders KJ. A prospective study of spherical refractive error and ocular components among Northern Irish Schoolchildren (The NICER Study). IOVS 2013;54:4843–4850.
- Saw SM, Chua WH, Gazzard G, et al. Eye growth changes in myopic children in Singapore. Br J Ophthalmol 2005;89:1489–1494.
- Warrier S, Wu HM, Newland HS, et al. Ocular biometry and determinants of refractive error in rural Myanmar: the Meiktila Eye Study. Br J Ophthalmol 2008;92:1591–1594.
- He M, Huang W, Zheng Y, et al. Refractive error and visual impairment in school children in rural Southern China. Ophthalmology 2007;114:374–382.e1.
- Brown NP, Koretz JF, Bron AJ. The development and maintenance of emmetropia. Eye 1999;13:83–92.
- Kasthurirangan S, Markwell EL, Atchison DA, et al. In vivo study of changes in refractive index distribution in the human crystalline lens with age and accommodation. IOVS 2008;49:2531–2540.
- Augusteyn RC. On the growth and internal structure of the human lens. Exp Eye Res 2010;90:643–654.