跨越式自监督低剂量CT去噪在肺结节分类中的应用。

IF 3.7 Q2 GENETICS & HEREDITY Phenomics (Cham, Switzerland) Pub Date : 2021-12-01 DOI:10.1007/s43657-021-00025-y
Yiming Lei, Junping Zhang, Hongming Shan
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引用次数: 12

摘要

基于低剂量计算机断层扫描(LDCT)图像的肺结节分类由于其降低的辐射剂量和基于LDCT的肺癌筛查的早期诊断潜力而受到广泛关注。然而,LDCT图像存在严重的噪声,很大程度上影响了肺结节的分类效果。目前将去噪与分类任务相结合的方法通常需要相应的正常剂量CT (NDCT)图像作为去噪任务的监督,这在使用LDCT进行临床诊断的背景下是不切实际的。为了在没有NDCT图像的情况下,在统一的框架下联合训练这两个任务,本文引入了一种新的自监督方法,称为strided Noise2Neighbors或SN2N,用于医学图像的盲去噪和肺结节分类,该方法的监督由噪声输入图像生成。更具体地说,提出的SN2N可以从其邻居中构建监督信息进行LDCT去噪,不再需要NDCT图像。提出的SN2N方法通过使用自监督损失进行去噪和交叉熵损失进行分类,实现LDCT去噪和肺结节分类任务的联合训练。在Mayo LDCT数据集上的大量实验结果表明,与将NDCT图像配对作为监督的监督学习方法相比,我们的SN2N取得了具有竞争力的性能。此外,我们在LIDC-IDRI数据集上的结果表明,LDCT去噪和肺结节分类的联合训练显著提高了基于LDCT的肺结节分类的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Strided Self-Supervised Low-Dose CT Denoising for Lung Nodule Classification.

Lung nodule classification based on low-dose computed tomography (LDCT) images has attracted major attention thanks to the reduced radiation dose and its potential for early diagnosis of lung cancer from LDCT-based lung cancer screening. However, LDCT images suffer from severe noise, largely influencing the performance of lung nodule classification. Current methods combining denoising and classification tasks typically require the corresponding normal-dose CT (NDCT) images as the supervision for the denoising task, which is impractical in the context of clinical diagnosis using LDCT. To jointly train these two tasks in a unified framework without the NDCT images, this paper introduces a novel self-supervised method, termed strided Noise2Neighbors or SN2N, for blind medical image denoising and lung nodule classification, where the supervision is generated from noisy input images. More specifically, the proposed SN2N can construct the supervision information from its neighbors for LDCT denoising, which does not need NDCT images anymore. The proposed SN2N method enables joint training of LDCT denoising and lung nodule classification tasks by using self-supervised loss for denoising and cross-entropy loss for classification. Extensively experimental results on the Mayo LDCT dataset demonstrate that our SN2N achieves competitive performance compared with the supervised learning methods that have paired NDCT images as supervision. Moreover, our results on the LIDC-IDRI dataset show that the joint training of LDCT denoising and lung nodule classification significantly improves the performance of LDCT-based lung nodule classification.

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