A refractive error prediction model for children and adolescents based on ocular biometric parameters
Wei-Jie Zhang, Shu-Li Xie, Yu-Chang Kan, Xin Yu, Xin-Xin Zhang, Xue-Liang Feng, Guang-Hua Zhang

TL;DR
This study creates a deep learning model to predict refractive errors in children and adolescents using ocular biometric data.
Contribution
A novel deep learning model using LSTM and T-LSTM for predicting refractive error progression in children.
Findings
The model achieved low prediction errors, especially in older children with fewer measurements.
Temporal deterioration of refractive errors was observed over 12 quarters.
Prediction accuracy improved with additional biometric measurements.
Abstract
To develop a predictive model based on ocular biometric parameters and deep learning for studying the progression of refractive errors in children and adolescents. This longitudinal observational cohort study included 559 children and adolescents (1,118eyes; 252males, 307females) aged 5–18 years, enrolled at Shanxi provincial Eye Hospital (Taiyuan, China) between 2019 and 2023. Refractive error and ocular biometric parameters were prospectively assessed through serial non-cycloplegic automated refraction and LENSAR 900 biometry, with participants undergoing 2–5 follow-up evaluations at irregular intervals. After data cleaning, preprocessing, and augmentation through truncation techniques, Long Short-Term Memory (LSTM) and Time-aware LSTM (T-LSTM) models were used to predict refractive changes over the next three years. Mean Absolute Error (MAE) and Standard Deviation (SD) were used to…
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Taxonomy
TopicsOphthalmology and Visual Impairment Studies · Corneal surgery and disorders · Glaucoma and retinal disorders
