PURPOSE. We studied biometry changes before and after myopia onset in a cohort of Singaporean children. METHODS. All data were taken from the Singapore Cohort Study of the Risk Factors for Myopia (SCORM). Participants underwent refraction and biometry measurements with a follow-up of 3 to 6 years. The longitudinal ocular biometry (spherical equivalent refraction, axial length, and lens power) changes were compared between children who suffered myopia during the study (N ¼ 303), emmetropic children (N ¼ 490), and children myopic at baseline (N ¼ 509). RESULTS. At myopia onset, the myopic shift increased to 0.50 diopters (D)/y or more in new myopes compared to the minor changes in emmetropes of the same age. New myopes had higher axial growth rates than emmetropes, even years before myopia onset (0.37 and 0.14 mm/y, respectively; ANOVA with Bonferroni post hoc test, P < 0.001). After onset, the change in both parameters slowed down gradually, but significantly (P < 0.05). In new myopes, lens power loss (À0.71 D/y) was significantly higher up to 1 year before myopia onset compared to emmetropes (À0.46 D/y), after which lens power loss slows down rapidly. At age 7 years, (future) new myopes had lens power values close to those of emmetropes (25.12 and 25.23 D, respectively), while later these values approached those of children who were myopic at baseline (23.06 and 22.79 D, respectively, compared to 23.71 D for emmetropes; P < 0.001). CONCLUSIONS. New myopes have higher axial growth rates and lens power loss before myopia onset than persistent emmetropes.
Purpose To determine the differences in mean ocular dimensions between urban and rural children and identify possible influencing factors. Methods This work uses previously published data from the Shandong Children Eye Study, which was based on a random cluster sampling applied to a cross‐sectional school‐based study design in the rural Guanxian County and Weihai city. All children underwent auto‐refractometry and biometry under cycloplegia. Results The study included 3290 children (aged 9.35 ± 2.93 years), consisting of 888 pairs of boys and 757 pairs of girls matched by sex, age and refractive error (each pair matching one child from urban cohort with one from the rural cohort). Overall urban children were significantly taller and heavier than rural children (t‐test; p < 0.001), which was confirmed for all age groups for weight. Urban ocular axial lengths were significantly longer by 0.23 mm compared to the rural population (t‐test; p < 0.001), mostly in younger children and boys. Meanwhile, corneal curvatures were flatter in the urban cohort by 0.08 mm (p < 0.001). This association of axial length with urban vs rural region was reduced in magnitude by 69.7% after accounting for height. Conclusions For the same, matched refractive error, children from urban regions had significantly longer eyes and flatter corneal curvature than rural children. Since corneal curvature is defined during the first 2 years of life, early environmental factors may be the source of these differences in ocular dimensions.
The focus of the management of DED has been taken away from just reducing symptoms and redirected towards specific targets of its physiopathology, being inflammation the most addressed topic.
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