Research Scholar, School of Electronics Engineering, Vellore Institute of Technology, Vellore, Tamil Nadu, India.
School of Electronics Engineering, Vellore Institute of Technology, Vellore, Tamil Nadu, India.
Artif Intell Med. 2021 Mar;113:102017. doi: 10.1016/j.artmed.2021.102017. Epub 2021 Jan 12.
Pulmonary lung nodules are often benign at the early stage but they could easily become malignant and metastasize to other locations in later stages. Morphological characteristics of these nodule instances vary largely in terms of their size, shape, and texture. There are also other co-existing lung anatomical structures such as lung walls and blood vessels surrounding these nodules resulting in complex contextual information. As a result, their early diagnosis to enable decisive intervention using Computer-Aided Diagnosis (CAD) systems face serious challenges, especially at low false positive rates. In this paper, we propose a new Convolutional Neural Network (CNN) architecture called Multiscale CNN with Compound Fusions (MCNN-CF) for this purpose which uses multiscale 3D patches as inputs and performs a fusion of intermediate features at two different depths of the network in two diverse fashions. The network is trained by a new iterative training procedure adapted to circumvent the class imbalance problem and obtained a Competitive Performance Metric (CPM) score of 0.948 when tested on the LUNA16 dataset. Experimental results illustrate the robustness of the proposed system which has increased the confidence of the prediction probabilities in the detection of the most variety of nodules.
肺部肺结节在早期通常是良性的,但在后期很容易恶变并转移到其他部位。这些结节实例的形态特征在大小、形状和纹理方面差异很大。这些结节周围还有其他共存的肺部解剖结构,如肺壁和血管,这导致了复杂的上下文信息。因此,使用计算机辅助诊断 (CAD) 系统对其进行早期诊断以进行果断干预面临着严峻的挑战,尤其是在低假阳性率的情况下。在本文中,我们提出了一种新的卷积神经网络 (CNN) 架构,称为多尺度卷积神经网络与复合融合 (MCNN-CF),用于此目的,该架构使用多尺度 3D 补丁作为输入,并以两种不同的方式在网络的两个不同深度对中间特征进行融合。该网络通过一种新的迭代训练过程进行训练,以规避类别不平衡问题,并在 LUNA16 数据集上测试时获得了 0.948 的性能度量 (CPM) 得分。实验结果说明了所提出的系统的稳健性,它提高了预测概率在检测各种结节时的可信度。
