用于自动识别外周血中反应性淋巴细胞的对抗训练协作混合卷积-变换器网络。

IF 2.9 2区医学 Q2 BIOCHEMICAL RESEARCH METHODS

Biomedical optics express Pub Date : 2024-08-09 DOI:10.1364/boe.525119

Liye Mei,Haoran Peng,Ping Luo,Shuangtong Jin,Hui Shen,Jing He,Wei Yang,Zhiwei Ye,Haigang Sui,Mengqing Mei,Cheng Lei,Bei Xiong

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引用次数: 0

摘要

反应性淋巴细胞可能预示着病毒感染等疾病。识别这些异常淋巴细胞对疾病诊断至关重要。目前，反应性淋巴细胞主要由病理专家利用显微镜和形态学知识进行人工识别，费时费力。一些研究使用卷积神经网络（CNN）来识别外周血白细胞，但该模型的感受野较小，存在局限性。我们的模型引入了基于 CNN 的转换器，扩大了模型的感受野，使其能够更有效地提取全局特征。我们还在不改变模型参数的情况下，通过虚拟对抗训练（VAT）增强了模型的泛化能力。最后，我们的模型在测试集上的总体准确率达到了 93.66%，反应性淋巴细胞的准确率也达到了 88.03%。这项工作向高效识别反应性淋巴细胞又迈进了一步。

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Adversarial training collaborating hybrid convolution-transformer network for automatic identification of reactive lymphocytes in peripheral blood.

Reactive lymphocytes may indicate diseases such as viral infections. Identifying these abnormal lymphocytes is crucial for disease diagnosis. Currently, reactive lymphocytes are mainly manually identified by pathological experts with microscopes and morphological knowledge, which is time-consuming and laborious. Some studies have used convolutional neural networks (CNNs) to identify peripheral blood leukocytes, but there are limitations in the small receptive field of the model. Our model introduces a transformer based on CNN, expands the receptive field of the model, and enables it to extract global features more efficiently. We also enhance the generalization ability of the model through virtual adversarial training (VAT) without changing the parameters of the model. Finally, our model achieves an overall accuracy of 93.66% on the test set, and the accuracy of reactive lymphocytes also reaches 88.03%. This work takes another step toward the efficient identification of reactive lymphocytes.

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来源期刊

Biomedical optics express BIOCHEMICAL RESEARCH METHODS-OPTICS

CiteScore

6.80

自引率

11.80%

发文量

633

审稿时长

1 months

期刊介绍： The journal''s scope encompasses fundamental research, technology development, biomedical studies and clinical applications. BOEx focuses on the leading edge topics in the field, including: Tissue optics and spectroscopy Novel microscopies Optical coherence tomography Diffuse and fluorescence tomography Photoacoustic and multimodal imaging Molecular imaging and therapies Nanophotonic biosensing Optical biophysics/photobiology Microfluidic optical devices Vision research.