3D Structural Phenotype of the Optic Nerve Head in Glaucoma and Myopia - A Key to Improving Glaucoma Diagnosis in Myopic Populations.

IF 4.2 1区医学 Q1 OPHTHALMOLOGY

American Journal of Ophthalmology Pub Date : 2025-09-06 DOI:10.1016/j.ajo.2025.09.004

Swati Sharma, Fabian A Braeu, Thanadet Chuangsuwanich, Tin A Tun, Quan V Hoang, Rachel Chong, Shamira A Perera, Ching-Lin Ho, Rahat Husain, Martin L Buist, Tin Aung, Michaël J A Girard

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引用次数: 0

Abstract

Purpose: To characterize the 3D structural phenotypes of the optic nerve head (ONH) in patients with glaucoma, high myopia, and concurrent high myopia and glaucoma, and to evaluate their variations across these conditions.

Design: Retrospective cross-sectional study.

Participants: A total of 685 optical coherence tomography (OCT) scans from 754 subjects of Singapore-Chinese ethnicity, including 256 healthy (H), 94 highly myopic (HM), 227 glaucomatous (G), and 108 highly myopic with glaucoma (HMG) cases METHODS: We segmented the retinal and connective tissue layers from OCT volumes and their boundary edges were converted into 3D point clouds. To classify the 3D point clouds into four ONH conditions, i.e., H, HM, G, and HMG, a specialized ensemble network was developed, consisting of an encoder to transform high-dimensional input data into a compressed latent vector, a decoder to reconstruct point clouds from the latent vector, and a classifier to categorize the point clouds into the four ONH conditions. Additionally, the network included an extension to reduce the latent vector to two dimensions for enhanced visualization.

Main outcome measures: Structural variation in the ONH in H, HM, G, and HMG conditions RESULTS: The classification network achieved high accuracy, distinguishing H, HM, G, and HMG classes with a micro-average AUC of 0.92 ± 0.03 on an independent test set. The decoder effectively reconstructed point clouds, achieving a Chamfer loss of 0.013 ± 0.002. Dimensionality reduction clustered ONHs into four distinct groups, revealing structural variations such as changes in retinal and connective tissue thickness, tilting and stretching of the disc and scleral canal opening, and alterations in optic cup morphology, including shallow or deep excavation, across the four conditions.

Conclusions: This study demonstrated that ONHs exhibit distinct structural signatures across H, HM, G, and HMG conditions. The findings further indicate that ONH morphology provides sufficient information for classification into distinct clusters, with principal components capturing unique structural patterns within each group. Future studies should seek to establish a connection between these structural patterns with the functional changes to enhance glaucoma diagnosis in myopic eyes.

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青光眼和近视视神经头的三维结构表型——提高近视人群青光眼诊断的关键。

目的：研究青光眼、高度近视和高度近视合并青光眼患者视神经头（ONH）的三维结构表型，并评估其在这些情况下的变化。设计：回顾性横断面研究。参与者：754名新加坡华裔受试者共685张OCT扫描，包括256例健康(H)， 94例高度近视（HM）， 227例青光眼(G)和108例高度近视合并青光眼（HMG）。方法：我们从OCT体积中分割视网膜和结缔组织层，并将其边界转换为三维点云。为了将三维点云划分为H、HM、G和HMG四种ONH条件，开发了一个专门的集成网络，该网络由编码器将高维输入数据转换为压缩的潜在向量，解码器从潜在向量重构点云，分类器将点云划分为四种ONH条件。此外，该网络还包括一个扩展，将潜在向量减少到二维，以增强可视化。结果：该分类网络在H、HM、G和HMG条件下ONH的结构变化具有较高的准确率，在独立测试集上区分H、HM、G和HMG类别的微平均AUC为0.92±0.03。解码器有效地重构了点云，倒角损失达到0.013±0.002。维数降低将ONHs分成四组，揭示了四种情况下的结构变化，如视网膜和结缔组织厚度的变化，椎间盘和巩膜管开口的倾斜和拉伸，以及视杯形态的变化，包括浅挖或深挖。结论：本研究表明，在H、HM、G和HMG条件下，ONHs具有不同的结构特征。研究结果进一步表明，ONH形态学提供了足够的信息来分类成不同的簇，主成分捕获了每组中独特的结构模式。未来的研究应寻求建立这些结构模式与功能变化之间的联系，以提高近视眼青光眼的诊断。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

American Journal of Ophthalmology 医学-眼科学

CiteScore

9.20

自引率

7.10%

发文量

406

审稿时长

36 days

期刊介绍： The American Journal of Ophthalmology is a peer-reviewed, scientific publication that welcomes the submission of original, previously unpublished manuscripts directed to ophthalmologists and visual science specialists describing clinical investigations, clinical observations, and clinically relevant laboratory investigations. Published monthly since 1884, the full text of the American Journal of Ophthalmology and supplementary material are also presented online at www.AJO.com and on ScienceDirect. The American Journal of Ophthalmology publishes Full-Length Articles, Perspectives, Editorials, Correspondences, Books Reports and Announcements. Brief Reports and Case Reports are no longer published. We recommend submitting Brief Reports and Case Reports to our companion publication, the American Journal of Ophthalmology Case Reports. Manuscripts are accepted with the understanding that they have not been and will not be published elsewhere substantially in any format, and that there are no ethical problems with the content or data collection. Authors may be requested to produce the data upon which the manuscript is based and to answer expeditiously any questions about the manuscript or its authors.