GENERATIVE DEEP LEARNING APPROACH TO PREDICT POSTTREATMENT OPTICAL COHERENCE TOMOGRAPHY IMAGES OF AGE-RELATED MACULAR DEGENERATION AFTER 12 MONTHS.

IF 2.1 2区医学 Q2 OPHTHALMOLOGY Retina-The Journal of Retinal and Vitreous Diseases Pub Date : 2025-06-01 DOI:10.1097/IAE.0000000000004409

Hyungwoo Lee, Najung Kim, Na Hee Kim, Hyewon Chung, Hyung Chan Kim

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Abstract

Purpose: Predicting long-term anatomical responses in neovascular age-related macular degeneration patients is critical for patient-specific management. This study validates a generative deep learning model to predict 12-month posttreatment optical coherence tomography (OCT) images and evaluates the impact of incorporating clinical data on predictive performance.

Methods: A total of 533 eyes from 513 treatment-naïve neovascular age-related macular degeneration patients were analyzed. A conditional generative adversarial network served as the baseline model, generating 12-month OCT images using pretreatment OCT, fluorescein angiography, and indocyanine green angiography. We then sequentially added OCT after three loading doses, baseline visual acuity, treatment regimen (pro re nata or treat-and-extend), drug type, and switching events. The generated and patient OCT images were compared for intraretinal fluid, subretinal fluid, pigment epithelial detachment, and subretinal hyperreflective material, both qualitatively and quantitatively.

Results: The baseline model achieved acceptable accuracy for 4 macular fluid compartments (range 0.74-0.96). Incorporating OCT after loading doses and other clinical parameters improved accuracy (range 0.91-0.98). With all the clinical inputs, the model achieved 92% accuracy in distinguishing wet macular status from dry macular status. The segmented fluid compartments in the generated images correlated positively with those in the patient images.

Conclusion: Integrating clinical and treatment data, particularly OCT data after loading doses, significantly enhanced the 12-month predictive performance of conditional generative adversarial networks. This approach can help clinicians anticipate anatomical outcomes and guide personalized, long-term neovascular age-related macular degeneration treatment strategies.

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生成深度学习方法预测12个月后年龄相关性黄斑变性治疗后光学相干断层成像。

目的：预测新生血管性年龄相关性黄斑变性（nAMD）患者的长期解剖学反应对患者特异性治疗至关重要。本研究验证了生成式深度学习（DL）模型来预测治疗后12个月的光学相干断层扫描（OCT）图像，并评估了纳入临床数据对预测性能的影响。方法：对513例treatment-naïve nAMD患者533只眼进行分析。条件生成对抗网络（cGAN）作为基线模型，使用预处理OCT、荧光素血管造影（FA）和吲胺绿血管造影（ICGA）生成12个月的OCT图像。然后，我们在三次加载剂量、基线视力（VA）、治疗方案（恢复原状或治疗后延长）、药物类型和切换事件后依次添加OCT。对生成的OCT图像和患者的视网膜内液、视网膜下液、色素上皮脱离和视网膜下高反射物质进行定性和定量比较。结果：基线模型对4个黄斑液体室（范围0.74-0.96）达到了可接受的精度。在加载剂量和其他临床参数后结合OCT可提高准确性（范围0.91-0.98）。在所有临床输入的情况下，该模型在区分湿性黄斑状态和干性黄斑状态方面的准确率达到92%。生成的图像中分割的流体室与患者图像中分割的流体室正相关。结论：整合临床和治疗数据，特别是加载剂量后的OCT数据，显著提高了cgan的12个月预测性能。这种方法可以帮助临床医生预测解剖结果，并指导个性化的长期nAMD治疗策略。

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

Retina-The Journal of Retinal and Vitreous Diseases 医学-眼科学

CiteScore

5.70

自引率

9.10%

发文量

554

审稿时长

3-6 weeks

期刊介绍： RETINA® focuses exclusively on the growing specialty of vitreoretinal disorders. The Journal provides current information on diagnostic and therapeutic techniques. Its highly specialized and informative, peer-reviewed articles are easily applicable to clinical practice. In addition to regular reports from clinical and basic science investigators, RETINA® publishes special features including periodic review articles on pertinent topics, special articles dealing with surgical and other therapeutic techniques, and abstract cards. Issues are abundantly illustrated in vivid full color. Published 12 times per year, RETINA® is truly a “must have” publication for anyone connected to this field.

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