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探索卷积神经网络在传统和双能数字化乳腺断层摄影中鉴别良性和恶性钙化的潜力:模拟与实验观察

Exploring CNN potential in discriminating benign and malignant calcifications in conventional and dual-energy FFDM: simulations and experimental observations.

作者信息

Makeev Andrey, Rodal Gabriela, Ghammraoui Bahaa, Badal Andreu, Glick Stephen J

机构信息

Food and Drug Administration, Silver Spring, Maryland, United States.

出版信息

J Med Imaging (Bellingham). 2021 May;8(3):033501. doi: 10.1117/1.JMI.8.3.033501. Epub 2021 May 13.

Abstract

: Deep convolutional neural networks (CNN) have demonstrated impressive success in various image classification tasks. We investigated the use of CNNs to distinguish between benign and malignant microcalcifications, using either conventional or dual-energy mammography x-ray images. The two kinds of calcifications, known as type-I (calcium oxalate crystals) and type-II (calcium phosphate aggregations), have different attenuation properties in the mammographic energy range. However, variations in microcalcification shape, size, and density as well as compressed breast thickness and breast tissue background make this a challenging discrimination task for the human visual system. : Simulations (conventional and dual-energy mammography) and phantom experiments (conventional mammography only) were conducted using the range of breast thicknesses and randomly shaped microcalcifications. The off-the-shelf Resnet-18 CNN was trained on the regions of interest with calcification clusters of the two kinds. : Both Monte Carlo simulations and experimental phantom data suggest that deep neural networks can be trained to separate the two classes of calcifications with high accuracy, using dual-energy mammograms. : Our work shows the encouraging results of using the CNNs for non-invasive testing for type-I and type-II microcalcifications and may stimulate further research in this area with expanding presence of the novel breast imaging modalities like dual-energy mammography or systems using photon-counting detectors.

摘要

深度卷积神经网络(CNN)在各种图像分类任务中已展现出令人瞩目的成效。我们研究了使用CNN,通过传统或双能乳腺钼靶X线图像来区分良性和恶性微钙化。这两种钙化,即I型(草酸钙晶体)和II型(磷酸钙聚集体),在乳腺钼靶能量范围内具有不同的衰减特性。然而,微钙化的形状、大小和密度的变化,以及乳腺压缩厚度和乳腺组织背景,使得这对人类视觉系统而言是一项具有挑战性的辨别任务。

使用一系列乳腺厚度和随机形状的微钙化进行了模拟(传统和双能乳腺钼靶)和体模实验(仅传统乳腺钼靶)。现成的Resnet-18 CNN在包含两种钙化簇的感兴趣区域上进行训练。

蒙特卡罗模拟和实验体模数据均表明,利用双能乳腺钼靶,可以训练深度神经网络以高精度区分这两类钙化。

我们的工作展示了使用CNN对I型和II型微钙化进行非侵入性检测的令人鼓舞的结果,并可能随着双能乳腺钼靶或使用光子计数探测器的系统等新型乳腺成像模式的不断涌现,激发该领域的进一步研究。

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本文引用的文献

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Classification of breast microcalcifications using dual-energy mammography.
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