基于深度学习从眼表图像中检测眼表鳞状上皮肿瘤
Deep Learning-Based Detection of Ocular Surface Squamous Neoplasia from Ocular Surface Images.
作者信息
Rehman Obaidur, Gujar Ramkailash, Kumawat Ritul, Pandey Ruby, Gupta Chhavi, Tiwari Shweta, Sangwan Virender, Das Sima
机构信息
Department of Oculoplasty and Ocular Oncology, Dr. Shroff's Charity Eye Hospital, New Delhi, India.
Cornea and Eicher-Shroff Centre for Stem Cell Research, Dr. Shroff's Charity Eye Hospital, New Delhi, India.
出版信息
Ocul Oncol Pathol. 2025 Jul;11(2):73-81. doi: 10.1159/000543766. Epub 2025 Jan 24.
INTRODUCTION
Ocular surface squamous neoplasia (OSSN) is a broad entity encompassing a spectrum of squamous neoplasms of conjunctiva and cornea. This study aimed to explore the utility of artificial intelligence (AI) models in detecting OSSN from slit-lamp (SL) images.
METHODS
This is a retrospective observational study. SL images of OSSN disease, non-OSSN ocular surface lesions (OOSD), and normal ocular surfaces () were collected (2013-2023). Images with minimum resolution of 1,024 × 1,024 pixels under diffuse illumination were included. Data were divided into training and testing sets (85:15). Deep learning (DL) algorithms were applied for ternary classification of the SL images (OSSN, OOSD, and normal). Three AI models - MobileNetV2, Xception, and DenseNet121 - were used in the study. A fivefold cross-validation strategy was utilized for robust model evaluation.
RESULTS
A total of 163 images in OSSN group, 202 in OOSD group, and 269 normal ocular surface images were included ( = 634). Data augmentation was performed to increase and balance the data. The average accuracies for OSSN detection for DenseNet121, MobileNetV2, and Xception were 83%, 88.8%, and 84.5%, respectively. MobileNetV2 and Xception had a similar average sensitivity for OSSN detection (74%) while MobileNetV2 was the most specific DL algorithm (96.25%) for OSSN detection.
CONCLUSIONS
AI models showed good performance in image-based OSSN detection. AI models may provide a promising tool for OSSN screening in primary health care centers and for teleconsultation from remote areas in the future.
引言
眼表鳞状上皮肿瘤(OSSN)是一个广义的概念,涵盖了结膜和角膜的一系列鳞状上皮肿瘤。本研究旨在探讨人工智能(AI)模型在从裂隙灯(SL)图像中检测OSSN的实用性。
方法
这是一项回顾性观察研究。收集了2013年至2023年期间OSSN疾病、非OSSN眼表病变(OOSD)和正常眼表的SL图像。纳入了在漫射照明下最小分辨率为1024×1024像素的图像。数据分为训练集和测试集(85:15)。应用深度学习(DL)算法对SL图像进行三元分类(OSSN、OOSD和正常)。本研究使用了三种AI模型——MobileNetV2、Xception和DenseNet121。采用五重交叉验证策略进行稳健的模型评估。
结果
OSSN组共纳入163幅图像,OOSD组纳入202幅,正常眼表图像纳入269幅(n = 634)。进行了数据增强以增加和平衡数据。DenseNet121、MobileNetV2和Xception检测OSSN的平均准确率分别为83%、88.8%和84.5%。MobileNetV2和Xception在检测OSSN方面具有相似的平均灵敏度(74%),而MobileNetV2是检测OSSN最具特异性的DL算法(96.25%)。
结论
AI模型在基于图像的OSSN检测中表现出良好的性能。AI模型可能为未来基层医疗中心的OSSN筛查和偏远地区的远程会诊提供一个有前景的工具。
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