2 research outputs found
Study of myopia progression and risk factors in Hubei children aged 7β10 years using machine learning: a longitudinal cohort
Abstract Background To investigate the trend of refractive error among elementary school students in grades 1 to 3 in Hubei Province, analyze the relevant factors affecting myopia progression, and develop a model to predict myopia progression and the risk of developing high myopia in children. Methods Longitudinal study. Using a cluster-stratified sampling method, elementary school students in grades 1 to 3 (15,512 in total) from 17 cities in Hubei Province were included as study subjects. Visual acuity, cycloplegic autorefraction, and height and weight measurements were performed for three consecutive years from 2019 to 2021. Basic information about the students, parental myopia and education level, and the studentsβ behavioral habits of using the eyes were collected through questionnaires. Results The baseline refractive errors of children in grades 1β~β3 in Hubei Province in 2019 were 0.20 (0.11, 0.27)D, β0.14 (β0.21, 0.06)D, and ββ0.29 (β0.37, β0.22)D, respectively, and the annual myopia progression was ββ0.65 (β0.74, β0.63)D, β0.61 (β0.73, β0.59)D and ββ0.59 (β0.64, β0.51)D, with the prevalence of myopia increasing from 17.56%, 20.9%, and 34.08% in 2019 to 24.16%, 32.24%, and 40.37% in 2021 (Ξ§2β=β63.29, Pβ<β0.001). With growth, childrenβs refractive error moved toward myopia, and the quantity of myopic progression gradually diminished. (Fβ=β291.04, Pβ=β0.027). The myopia progression in boys was less than that in girls in the same grade (Pβ<β0.001). The change in spherical equivalent refraction in myopic children was smaller than that in hyperopic and emmetropic children (Fβ=β59.28, Pβ<β0.001), in which the refractive change in mild myopia, moderate myopia, and high myopia children gradually increased (Fβ=β73.12, Pβ<β0.001). Large baseline refractive error, large body mass index, and high frequency of eating sweets were risk factors for myopia progression, while parental intervention and strong eye-care awareness were protective factors for delaying myopia progression. The nomogram graph predicted the probability of developing high myopia in children and found that baseline refraction had the greatest predictive value. Conclusion Myopia progression varies by age, sex, and myopia severity. Baseline refraction is the most important factor in predicting high myopia in childhood. we should focus on children with large baseline refraction or young age of onset of myopia in clinical myopia prevention and control