High myopia can lead to cataract, glaucoma, retinal detachment, choroidal neovascularisation, and macular degeneration, causing irreversible vision loss. Imaging detects these complications, but population screening is limited by equipment, and specialist availability. Here we show that a machine learning model using routine blood test results identifies people at increased risk of complications related to high myopia during standard health examinations. We develop the model in a multicentre study of 10,661 participants and validate it in two independent cohorts. The model shows high accuracy across centres (area under the receiver operating characteristic curve=0.9010-0.9649) and flags individuals who receive a clinical diagnosis in a hospital-based prospective follow-up study of 5,067 participants. In a community screening study of 311,254 adults, the model increases the yield of detected complications among those referred for ophthalmic assessment (positive predictive value = 74%). This scalable blood-based approach supports opportunistic screening and earlier referral in primary care and community settings.
Li et al. (Sat,) studied this question.