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基于深度学习的脉络膜 OCT 特征诊断质量评估,具有专家评估的可解释性。

Deep learning based diagnostic quality assessment of choroidal OCT features with expert-evaluated explainability.

机构信息

Indian Institute of Technology Hyderabad, Kandi, 502284, India.

University of Alabama-Birmingham School of Medicine, 35233, Birmingham, AL, USA.

出版信息

Sci Rep. 2023 Jan 28;13(1):1570. doi: 10.1038/s41598-023-28512-4.

DOI:10.1038/s41598-023-28512-4
PMID:36709332
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9884235/
Abstract

Various vision-threatening eye diseases including age-related macular degeneration (AMD) and central serous chorioretinopathy (CSCR) are caused due to the dysfunctions manifested in the highly vascular choroid layer of the posterior segment of the eye. In the current clinical practice, screening choroidal structural changes is widely based on optical coherence tomography (OCT) images. Accordingly, to assist clinicians, several automated choroidal biomarker detection methods using OCT images are developed. However, the performance of these algorithms is largely constrained by the quality of the OCT scan. Consequently, determining the quality of choroidal features in OCT scans is significant in building standardized quantification tools and hence constitutes our main objective. This study includes a dataset of 1593 good and 2581 bad quality Spectralis OCT images graded by an expert. Noting the efficacy of deep-learning (DL) in medical image analysis, we propose to train three state-of-the-art DL models: ResNet18, EfficientNet-B0 and EfficientNet-B3 to detect the quality of OCT images. The choice of these models was inspired by their ability to preserve the salient features across all the layers without information loss. To evaluate the attention of DL models on the choroid, we introduced color transparency maps (CTMs) based on GradCAM explanations. Further, we proposed two subjective grading scores: overall choroid coverage (OCC) and choroid coverage in the visible region(CCVR) based on CTMs to objectively correlate visual explanations vis-à-vis DL model attentions. We observed that the average accuracy and F-scores for the three DL models are greater than 96%. Further, the OCC and CCVR scores achieved for the three DL models under consideration substantiate that they mostly focus on the choroid layer in making the decision. In particular, of the three DL models, EfficientNet-B3 is in close agreement with the clinician's inference. The proposed DL-based framework demonstrated high detection accuracy as well as attention on the choroid layer, where EfficientNet-B3 reported superior performance. Our work assumes significance in bench-marking the automated choroid biomarker detection tools and facilitating high-throughput screening. Further, the methods proposed in this work can be adopted for evaluating the attention of DL-based approaches developed for other region-specific quality assessment tasks.

摘要

各种威胁视力的眼病,包括年龄相关性黄斑变性(AMD)和中心性浆液性脉络膜视网膜病变(CSCR),都是由于后节高度血管化的脉络膜层功能障碍引起的。在当前的临床实践中,筛选脉络膜结构变化广泛基于光学相干断层扫描(OCT)图像。因此,为了协助临床医生,开发了几种使用 OCT 图像的自动脉络膜生物标志物检测方法。然而,这些算法的性能在很大程度上受到 OCT 扫描质量的限制。因此,确定 OCT 扫描中脉络膜特征的质量对于构建标准化的定量工具非常重要,这也是我们的主要目标。本研究包括一个由 1593 张优质和 2581 张劣质 Spectralis OCT 图像组成的数据集,这些图像由专家进行了分级。鉴于深度学习(DL)在医学图像分析中的有效性,我们提出训练三个最先进的 DL 模型:ResNet18、EfficientNet-B0 和 EfficientNet-B3 来检测 OCT 图像的质量。选择这些模型的灵感来自于它们在不丢失信息的情况下保持所有层中显著特征的能力。为了评估 DL 模型对脉络膜的注意力,我们引入了基于 GradCAM 解释的彩色透明图(CTM)。此外,我们提出了两个主观分级评分:基于 CTM 的整体脉络膜覆盖(OCC)和可见区域脉络膜覆盖(CCVR),以客观地将视觉解释与 DL 模型注意力相关联。我们观察到,三个 DL 模型的平均准确率和 F 分数都大于 96%。此外,考虑到三个 DL 模型的 OCC 和 CCVR 评分表明,它们在做出决策时主要关注脉络膜层。特别是,在三个 DL 模型中,EfficientNet-B3 与临床医生的推断非常吻合。所提出的基于 DL 的框架表现出了较高的检测准确率和对脉络膜层的关注,其中 EfficientNet-B3 表现出了优异的性能。我们的工作在基准测试自动脉络膜生物标志物检测工具和促进高通量筛选方面具有重要意义。此外,本文提出的方法可以用于评估针对其他特定区域质量评估任务开发的基于 DL 的方法的注意力。

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