新基准:利用多关系图学习识别临床不确定性和严重程度标记胸部 X 光图像

Mengliang Zhang, Xinyue Hu, Lin Gu, Liangchen Liu, Kazuma Kobayashi, Tatsuya Harada, Yan Yan, Ronald M Summers, Yingying Zhu
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引用次数: 0

摘要

胸部放射线检查(俗称 CXR)在临床上经常用于检测心肺疾病。然而,即使是经验丰富的放射科医生也会对观察到的异常情况的严重性和不确定性做出不同的评价。以前的研究曾尝试利用临床笔记提取异常标签,用于训练 CXR 图像诊断中的深度学习模型。然而,这些方法往往忽略了与不同标签相关的不同严重程度和不确定性。在我们的研究中,我们基于临床文本数据,结合放射科医生对不确定性和严重程度的评估,初步建立了一个全面的 CXR 图像新数据集。利用该数据集,我们引入了多关系图学习框架,该框架利用空间和语义关系,同时通过专用损失函数解决专家的不确定性问题。我们的研究展示了 CXR 图像诊断和诊断模型可解释性的显著提升,超越了现有的最先进方法。我们提取的疾病严重性和不确定性数据集地址为:https://physionet.org/content/cad-chest/1.0/。
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A New Benchmark: Clinical Uncertainty and Severity Aware Labeled Chest X-Ray Images with Multi-Relationship Graph Learning.

Chest radiography, commonly known as CXR, is frequently utilized in clinical settings to detect cardiopulmonary conditions. However, even seasoned radiologists might offer different evaluations regarding the seriousness and uncertainty associated with observed abnormalities. Previous research has attempted to utilize clinical notes to extract abnormal labels for training deep-learning models in CXR image diagnosis. However, these methods often neglected the varying degrees of severity and uncertainty linked to different labels. In our study, we initially assembled a comprehensive new dataset of CXR images based on clinical textual data, which incorporated radiologists' assessments of uncertainty and severity. Using this dataset, we introduced a multi-relationship graph learning framework that leverages spatial and semantic relationships while addressing expert uncertainty through a dedicated loss function. Our research showcases a notable enhancement in CXR image diagnosis and the interpretability of the diagnostic model, surpassing existing state-of-the-art methodologies. The dataset address of disease severity and uncertainty we extracted is: https://physionet.org/content/cad-chest/1.0/.

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