Retinal fundus imaging as biomarker for ADHD using machine learning for screening and visual attention stratification

IF 12.4 1区医学 Q1 HEALTH CARE SCIENCES & SERVICES

NPJ Digital Medicine Pub Date : 2025-03-17 DOI:10.1038/s41746-025-01547-9

Hangnyoung Choi, JaeSeong Hong, Hyun Goo Kang, Min-Hyeon Park, Sungji Ha, Junghan Lee, Sangchul Yoon, Daeseong Kim, Yu Rang Park, Keun-Ah Cheon

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Abstract

Attention-deficit/hyperactivity disorder (ADHD), characterized by diagnostic complexity and symptom heterogeneity, is a prevalent neurodevelopmental disorder. Here, we explored the machine learning (ML) analysis of retinal fundus photographs as a noninvasive biomarker for ADHD screening and stratification of executive function (EF) deficits. From April to October 2022, 323 children and adolescents with ADHD were recruited from two tertiary South Korean hospitals, and the age- and sex-matched individuals with typical development were retrospectively collected. We used the AutoMorph pipeline to extract retinal features and used four types of ML models for ADHD screening and EF subdomain prediction, and we adopted the Shapely additive explanation method. ADHD screening models achieved 95.5%-96.9% AUROC. For EF function stratification, the visual and auditory subdomains showed strong (AUROC > 85%) and poor performances, respectively. Our analysis of retinal fundus photographs demonstrated potential as a noninvasive biomarker for ADHD screening and EF deficit stratification in the visual attention domain.

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将视网膜眼底成像作为多动症的生物标记，利用机器学习进行筛查和视觉注意力分层

注意力缺陷/多动障碍（ADHD）具有诊断复杂性和症状异质性的特点，是一种普遍存在的神经发育障碍。在此，我们探讨了将视网膜眼底照片的机器学习（ML）分析作为一种非侵入性生物标志物，用于多动症筛查和执行功能（EF）缺陷的分层。2022年4月至10月，我们从韩国两家三甲医院招募了323名患有多动症的儿童和青少年，并回顾性地收集了与之年龄和性别匹配的典型发育个体。我们使用AutoMorph管道提取视网膜特征，使用四种类型的ML模型进行ADHD筛查和EF子域预测，并采用Shapely加法解释法。ADHD筛查模型的AUROC达到了95.5%-96.9%。在 EF 功能分层方面，视觉和听觉子域的表现分别较好（AUROC > 85%）和较差。我们对视网膜眼底照片的分析表明，视网膜眼底照片可作为一种无创生物标记物，用于多动症筛查和视觉注意力领域的EF缺陷分层。

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来源期刊

NPJ Digital Medicine Multiple-

CiteScore

25.10

自引率

3.30%

发文量

170

审稿时长

15 weeks

期刊介绍： npj Digital Medicine is an online open-access journal that focuses on publishing peer-reviewed research in the field of digital medicine. The journal covers various aspects of digital medicine, including the application and implementation of digital and mobile technologies in clinical settings, virtual healthcare, and the use of artificial intelligence and informatics. The primary goal of the journal is to support innovation and the advancement of healthcare through the integration of new digital and mobile technologies. When determining if a manuscript is suitable for publication, the journal considers four important criteria: novelty, clinical relevance, scientific rigor, and digital innovation.