Transfer learning classification of suspicious lesions on breast ultrasound: is there room to avoid biopsies of benign lesions?

IF 3.7 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING
Paolo De Marco, Valerio Ricciardi, Marta Montesano, Enrico Cassano, Daniela Origgi
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Abstract

Background: Breast cancer (BC) is the most common malignancy in women and the second cause of cancer death. In recent years, there has been a strong development in artificial intelligence (AI) applications in medical imaging for several tasks. Our aim was to evaluate the potential of transfer learning with convolutional neural networks (CNNs) in discriminating suspicious breast lesions on ultrasound images.

Methods: Transfer learning performances of five different CNNs (Inception V3, Xception, Densenet121, VGG 16, and ResNet50) were evaluated on a public and on an institutional dataset (526 and 392 images, respectively), customizing the top layers for the specific task. Institutional images were contoured by an expert radiologist and processed to feed the CNNs for training and testing. Postimaging biopsies were used as a reference standard for classification. The area under the receiver operating curve (AUROC) was used to assess diagnostic performance.

Results: Networks performed very well on the public dataset (AUROC 0.938-0.996). The direct generalization to the institutional dataset resulted in lower performances (max AUROC 0.676); however, when tested on BI-RADS 3 and BI-RADS 5 only, results were improved (max AUROC 0.792). Good results were achieved on the institutional dataset (AUROC 0.759-0.818) and, when selecting a threshold of 2% for classification, a sensitivity of 0.983 was obtained for three of five CNNs, with the potential to spare biopsy in 15.3%-18.6% of patients.

Conclusion: In conclusion, transfer learning with CNNs may achieve high sensitivity and might be used as a support tool in managing suspicious breast lesions on ultrasound images.

Relevance statement: Transfer learning is a powerful technique to exploit the performances of well-trained CNNs for image classification. In a clinical scenario, it might be useful for the management of suspicious breast lesions on breast ultrasound, potentially sparing biopsy in a non-negligible number of patients.

Key points: Properly trained CNNs with transfer learning are highly effective in differentiating benign and malignant lesions on breast ultrasound. Setting clinical thresholds increased sensitivity. CNNs might be useful as support tools in managing suspicious lesions on breast ultrasound.

乳腺超声可疑病变的迁移学习分类:是否有避免良性病变活检的余地?
背景:乳腺癌(BC)是女性最常见的恶性肿瘤,也是第二大癌症死因。近年来,人工智能(AI)在医学影像领域的应用得到了蓬勃发展。我们的目的是评估卷积神经网络(CNN)的迁移学习在辨别超声图像上可疑乳腺病变方面的潜力:我们在公共数据集和机构数据集(分别为 526 张和 392 张图像)上评估了五种不同 CNN(Inception V3、Xception、Densenet 121、VGG 16 和 ResNet50)的迁移学习性能,并针对特定任务定制了顶层。机构图像由放射科专家绘制轮廓,并经过处理,为 CNN 的训练和测试提供素材。成像后的活组织切片被用作分类的参考标准。接受者操作曲线下面积(AUROC)用于评估诊断性能:网络在公共数据集上的表现非常好(AUROC 0.938-0.996)。直接推广到机构数据集的结果是性能较低(最大 AUROC 0.676);然而,仅在 BI-RADS 3 和 BI-RADS 5 上测试时,结果有所改善(最大 AUROC 0.792)。在机构数据集上取得了良好的结果(AUROC 0.759-0.818),当选择 2% 的分类阈值时,五个 CNN 中的三个灵敏度达到了 0.983,有可能使 15.3%-18.6% 的患者免于活检:总之,利用 CNN 进行迁移学习可获得较高的灵敏度,可作为一种辅助工具用于管理超声图像上的可疑乳腺病变:迁移学习是一种强大的技术,可利用训练有素的 CNN 的性能进行图像分类。在临床应用中,它可能有助于处理乳腺超声图像上的可疑乳腺病变,从而使相当数量的患者免于活检:要点:经过适当训练的具有迁移学习能力的 CNN 在区分乳腺超声良性和恶性病变方面非常有效。设置临床阈值可提高灵敏度。在管理乳腺超声可疑病变时,CNN 可能是有用的辅助工具。
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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来源期刊
European Radiology Experimental
European Radiology Experimental Medicine-Radiology, Nuclear Medicine and Imaging
CiteScore
6.70
自引率
2.60%
发文量
56
审稿时长
18 weeks
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