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基于机器学习的光谱域光学相干断层扫描技术对地图样萎缩和高透射缺陷的自动检测与定量分析

Machine Learning-Based Automated Detection and Quantification of Geographic Atrophy and Hypertransmission Defects Using Spectral Domain Optical Coherence Tomography.

作者信息

Kalra Gagan, Cetin Hasan, Whitney Jon, Yordi Sari, Cakir Yavuz, McConville Conor, Whitmore Victoria, Bonnay Michelle, Lunasco Leina, Sassine Antoine, Borisiak Kevin, Cohen Daniel, Reese Jamie, Srivastava Sunil K, Ehlers Justis P

机构信息

Tony and Leona Campane Center for Excellence in Image-Guided Surgery and Advanced Imaging Research, Cole Eye Institute, Cleveland Clinic, Cleveland, OH 44195, USA.

出版信息

J Pers Med. 2022 Dec 24;13(1):37. doi: 10.3390/jpm13010037.

DOI:10.3390/jpm13010037
PMID:36675697
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9861976/
Abstract

The current study describes the development and assessment of innovative, machine learning (ML)-based approaches for automated detection and pixel-accurate measurements of regions with geographic atrophy (GA) in late-stage age-related macular degeneration (AMD) using optical coherence tomography systems. 900 OCT volumes, 100266 B-scans, and OCT images from 341 non-exudative AMD patients with or without GA were included in this study from both Cirrus (Zeiss) and Spectralis (Heidelberg) OCT systems. B-scan and level ground truth GA masks were created on OCT B-scan where the segmented ellipsoid zone (EZ) line, retinal pigment epithelium (RPE) line, and bruchs membrane (BM) line overlapped. Two deep learning-based approaches, B-scan level and level, were trained. The OCT B-scan model had detection accuracy of 91% and GA area measurement accuracy of 94%. The OCT model had detection accuracy of 82% and GA area measurement accuracy of 96% with primary target of hypertransmission on OCT. Accuracy was good for both devices tested (92-97%). Automated lesion size stratification for CAM cRORA definition of 250um minimum lesion size was feasible. High-performance models for automatic detection and segmentation of GA area were achieved using OCT systems and deep learning. The automatic measurements showed high correlation with the ground truth. The model excelled at identification of hypertransmission defects. The models performance generalized well across device types tested. Future development will include integration of both models to enhance feature detection across GA lesions as well as isolating hypertransmission defects without GA for pre-GA biomarker extraction.

摘要

本研究描述了基于机器学习(ML)的创新方法的开发与评估,该方法利用光学相干断层扫描系统对晚期年龄相关性黄斑变性(AMD)中的地理萎缩(GA)区域进行自动检测和像素精确测量。本研究纳入了来自Cirrus(蔡司)和Spectralis(海德堡)OCT系统的341例有或无GA的非渗出性AMD患者的900个OCT容积、100266次B扫描和OCT图像。在OCT B扫描上创建B扫描和水平地面真值GA掩码,其中分割的椭圆体区(EZ)线、视网膜色素上皮(RPE)线和布鲁赫膜(BM)线重叠。训练了两种基于深度学习的方法,即B扫描水平和水平。OCT B扫描模型的检测准确率为91%,GA面积测量准确率为94%。OCT模型的检测准确率为82%,GA面积测量准确率为96%,主要目标是OCT上的高透射率。两种测试设备的准确率都很高(92 - 97%)。对于CAM cRORA定义的最小病变大小为250um的自动病变大小分层是可行的。使用OCT系统和深度学习实现了用于自动检测和分割GA区域的高性能模型。自动测量结果与地面真值显示出高度相关性。模型在识别高透射率缺陷方面表现出色。模型性能在测试的不同设备类型之间具有良好的通用性。未来的发展将包括整合这两种模型,以增强对GA病变的特征检测,以及分离无GA的高透射率缺陷以提取GA前生物标志物。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0dbd/9861976/c10d7acf1874/jpm-13-00037-g007.jpg
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