利用卷积神经网络和虚拟临床试验抑制数字乳腺断层合成中的噪声相关性

R. B. Vimieiro, L. Borges, Renato F Caron, B. Barufaldi, Andrew D. A. Maidment, Ge Wang, M. Vieira
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引用次数: 1

摘要

众所周知,具有间接探测器的x射线系统受到噪声空间相关性的影响。在数字乳房断层合成(DBT)的情况下,这种现象可能会影响图像中小细节的感知,如微钙化。在这项工作中,我们建议使用深度卷积神经网络(CNN)来恢复使用循环生成对抗网络(cycle- gan)框架的相关噪声退化的DBT投影。为了生成训练过程的图像对,我们使用了虚拟临床试验(VCT)系统。评估了两种方法:在第一种方法中,通过改变输入图像中噪声的频率依赖性来训练网络进行噪声去相关,但保持其他特征。在第二种方法中,训练网络执行去噪和去相关,目的是生成具有频率无关(白)噪声的图像,其特征相当于辐射暴露比输入图像大四倍的采集。我们用虚拟图像和临床图像测试了网络,我们发现在两种训练方法中,模型都成功地校正了输入图像的功率谱。
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Suppressing noise correlation in digital breast tomosynthesis using convolutional neural network and virtual clinical trials
It is well-known that x-ray systems featuring indirect detectors are affected by noise spatial correlation. In the case of digital breast tomosynthesis (DBT), this phenomenon might affect the perception of small details in the image, such as microcalcifications. In this work, we propose the use of a deep convolutional neural network (CNN) to restore DBT projections degraded with correlated noise using the framework of a cycle generative adversarial network (cycle-GAN). To generate pairs of images for the training procedure, we used a virtual clinical trial (VCT) system. Two approaches were evaluated: in the first one, the network was trained to perform noise decorrelation by changing the frequency-dependency of the noise in the input image, but keeping the other characteristics. In the second approach, the network was trained to perform denoising and decorrelation, with the objective of generating an image with frequency-independent (white) noise and with characteristics equivalent to an acquisition with a radiation exposure four times greater than the input image. We tested the network with virtual and clinical images and we found that in both training approaches the model successfully corrected the power spectrum of the input images.
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