Refractive Error and Biometrics of Anterior Segment of Eyes of Myopic Teenagers
Abstract Background: To investigate the impact of refractive error and corneal parameters on myopic teenagers by using Pentacam and IOL Master 700. Methods: Retrospective observational case series of 505 eyes from 268 children from 7 to 19 years old presenting with myopia. Clinical course, slit lamp photographs and pentacam and IOL Master 700 findings were the main outcomes. Results: Assessment of the tomographic, topographic of corneal parameters of myopic children without any interventions revealed no statistically significant changes in terms of age based on sex. The mean Rf, Rs, K1 and K2 values of anterior and posterior corneal surface were 7.98±0.24mm, 7.73±0.30mm, 42.38±1.86 degrees, 43.55±1.91 degrees, 6.60±0.25mm, 6.21±0.26mm, -6.07±0.23 degrees, -6.42±0.65 degrees. Boys had higher Rf and Rs, but smaller in K1 and K2 than girls (P<0.05) of both anterior and posterior corneal surface. The Anterior chamber volume (ACV) had significant differences between sex (P<0.05). The Rf, K1 of anterior corneal surface did not show significantly different between ages, however, teenagers only in 7 to 9 age group increased significantly than 13 to 15-year-old group (P=0.031). Meanwhile, the Anterior chamber depth (ACD), Anterior chamber volume (ACV), Pupil diameter (PD), Spherical equivalent (SE) and Axial length (AL) had increasingly differenced in different age groups (P=0.002, 0.002, 0.036, 0.044, 0.002, <0.001). Model performance using p< 0.05 parameters as the predictive factors. SE=3.391+0.08×Age+2.307×Rs-0.094×ACD-0.001×ACV-0.951×AL. Conclusions: Our findings may suggest a physiological nature for ocular changes during the development that may elucidate the special points during the process of myopia of adolescents. We also imitate a formula based on our data which may help to evaluate the myopia of children and the prognosis in clinic.Our research conducted retrospectively registered.