Size of living space as a moderator for central and peripheral refractions in children

Undesirable living environment may impose risk on myopia development. Furthermore, peripheral refractive error was suggested to contribute to juvenile eye growth modulation. This study aimed to investigate the interaction between peripheral refractive error and living environment in relation to central refractive status in Hong Kong schoolchildren. Central and peripheral refractive errors, axial length (AL), and corneal radius of curvature (CR) were measured in 573 schoolchildren (age 9.5 & PLUSMN; 0.9 years). The AL/CR ratio was used to represent the central refractive status, accounting for non-cycloplegic refraction. The relative peripheral refractive errors (RPRE) up to & PLUSMN; 20 & DEG; eccentricities were converted into power vectors: spherical-equivalent error (SER) and J(0) astigmatic components and fitted with quadratic equations. The second-order coefficients of SER (a(SER)) and J(0) astigmatism (a(J0)) and home size reported by parental questionnaires were analyzed to indicate their relationships with AL/CR. Our results showed that children with higher AL/CR lived in smaller homes (p = 0.01) and had a more hyperopic (p < 0.001) but less astigmatic RPRE (p = 0.01). We further analyzed the relationship between AL/CR with RPRE for children living in small (< 300 ft(2)), moderate (300-600 ft(2)), and large home sizes (> 600 ft(2)). Regardless of the home size, a higher AL/CR remained moderately correlated with a more hyperopic a(SER) (all p < 0.001). However, a higher AL/CR was associated with a more positive a(J0) only in children living in large homes, and the relationships were not significant for small and moderate home sizes. Linear regression models further indicated that home size was a significant moderator contributing to the relationship between AL/CR and a(J0). In conclusion, our results were consistent with previous studies, showing that children with axial myopia usually lived in smaller homes and had more hyperopic defocus and more positive J(0) astigmatism. However, the relationship between peripheral astigmatism and axial refraction was modulated by the home size of Hong Kong schoolchildren. While peripheral astigmatism is hypothesized as a visual cue for axial refractive development in children, extrinsic environmental factors, such as home size, might interfere with the relationship and dominate refractive development.

Automated summary

This study investigated the interaction between peripheral refractive error and living environment in relation to central refractive status in Hong Kong schoolchildren. The results showed that children with higher axial length to corneal radius of curvature ratios lived in smaller homes, had more hyperopic refractive errors, and less astigmatic peripheral refractive errors. Home size was found to be a significant moderator in the relationship between axial length to corneal radius of curvature ratios and astigmatism.