Yuqing Weng, Qiuping Hu, Huajia Wang, Yinglan Kuang, Yanling Zhou, Yuyan Tang, Lei Wang, Xin Ye, Xing Lu
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引用次数: 0

摘要

循环基因异常细胞(CAC)是诊断肺癌的重要生物标志物。检测 CACs 对肺癌的早期诊断和筛查具有重要价值。为了帮助识别 CACs,我们在 CACs 检测系统中加入了深度学习算法,特别是开发了细胞分割和信号点检测算法。但值得注意的是,深度学习算法需要大量的数据标记。因此,本研究为 CACs 检测引入了一种半监督学习算法。在细胞分割任务中,半监督训练细胞分割任务采用了自我训练法和平均值教师法相结合的方法。此外,还在平均值教师的基础上开发了自适应平均值教师方法,以提高半监督细胞分割的效果。在信号点检测任务方面,以自适应平均值教师为范式,开发了端到端的半监督信号点检测算法,并开发了领域知识伪标签,以提高伪标签的质量,进一步增强信号点检测的效果。通过在这两个子任务中加入半监督训练,减少了对标记数据的依赖,从而提高了 CAC 检测的性能。我们提出的半监督方法在细胞分割任务、信号点检测任务和最终的 CACs 检测任务中都取得了良好的效果。在最终的 CACs 检测任务中,在 2%、5% 和 10%的标注数据下,我们提出的半监督方法分别达到了 27.225%、23.818% 和 4.513%。实验结果表明,所提出的方法是有效的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
CACs Recognition of FISH Images Based on Adaptive Mean Teacher Semi-supervised Learning with Domain-Knowledge Pseudo Label.

Circulating genetically abnormal cells (CACs) serve as crucial biomarkers for lung cancer diagnosis. Detecting CACs holds great value for early diagnosis and screening of lung cancer. To aid the identification of CACs, we have incorporated deep learning algorithms into our CACs detection system, specifically developing algorithms for cell segmentation and signal point detection. However, it is noteworthy that deep learning algorithms require extensive data labeling. Consequently, this study introduces a semi-supervised learning algorithm for CACs detection. For the cell segmentation task, a combination of self-training and Mean Teacher method was adopted in the semi-supervised training cell segmentation task. Furthermore, an Adaptive Mean Teacher approach was developed based on the Mean Teacher to enhance the effectiveness of semi-supervised cell segmentation. Regarding the signal point detection task, an end-to-end semi-supervised signal point detection algorithm was developed using the Adaptive Mean Teacher as the paradigm, and a Domain-Knowledge Pseudo Label was developed to improve the quality of pseudo-labeling and further enhance signal point detection. By incorporating semi-supervised training in both sub-tasks, the reliance on labeled data is reduced, thereby improving the performance of CACs detection. Our proposed semi-supervised method has achieved good results in cell segmentation tasks, signal point detection tasks, and the final CACs detection task. In the final CACs detection task, with 2%, 5%, and 10% of labeled data, our proposed semi-supervised method achieved 27.225%, 23.818%, and 4.513%, respectively. Experimental results demonstrated that the proposed method is effective.

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