改良三维区域提案网络在 CT 扫描中肺结节检测中的应用:肺结节数据集的二次分析。
Development of a modified 3D region proposal network for lung nodule detection in computed tomography scans: a secondary analysis of lung nodule datasets.
机构信息
Department of Medical Imaging, College of Medicine, National Cheng Kung University Hospital, National Cheng Kung University, No.1, University Road, 701, Tainan City, Taiwan.
Department of Computer Science and Information Engineering, National Cheng Kung University, Tainan, Taiwan.
出版信息
Cancer Imaging. 2024 Mar 20;24(1):40. doi: 10.1186/s40644-024-00683-x.
BACKGROUND
Low-dose computed tomography (LDCT) has been shown useful in early lung cancer detection. This study aimed to develop a novel deep learning model for detecting pulmonary nodules on chest LDCT images.
METHODS
In this secondary analysis, three lung nodule datasets, including Lung Nodule Analysis 2016 (LUNA16), Lung Nodule Received Operation (LNOP), and Lung Nodule in Health Examination (LNHE), were used to train and test deep learning models. The 3D region proposal network (RPN) was modified via a series of pruning experiments for better predictive performance. The performance of each modified deep leaning model was evaluated based on sensitivity and competition performance metric (CPM). Furthermore, the performance of the modified 3D RPN trained on three datasets was evaluated by 10-fold cross validation. Temporal validation was conducted to assess the reliability of the modified 3D RPN for detecting lung nodules.
RESULTS
The results of pruning experiments indicated that the modified 3D RPN composed of the Cross Stage Partial Network (CSPNet) approach to Residual Network (ResNet) Xt (CSP-ResNeXt) module, feature pyramid network (FPN), nearest anchor method, and post-processing masking, had the optimal predictive performance with a CPM of 92.2%. The modified 3D RPN trained on the LUNA16 dataset had the highest CPM (90.1%), followed by the LNOP dataset (CPM: 74.1%) and the LNHE dataset (CPM: 70.2%). When the modified 3D RPN trained and tested on the same datasets, the sensitivities were 94.6%, 84.8%, and 79.7% for LUNA16, LNOP, and LNHE, respectively. The temporal validation analysis revealed that the modified 3D RPN tested on LNOP test set achieved a CPM of 71.6% and a sensitivity of 85.7%, and the modified 3D RPN tested on LNHE test set had a CPM of 71.7% and a sensitivity of 83.5%.
CONCLUSION
A modified 3D RPN for detecting lung nodules on LDCT scans was designed and validated, which may serve as a computer-aided diagnosis system to facilitate lung nodule detection and lung cancer diagnosis.
背景
低剂量计算机断层扫描(LDCT)已被证明可用于早期肺癌检测。本研究旨在开发一种用于检测胸部 LDCT 图像中肺结节的新型深度学习模型。
方法
在这项二次分析中,我们使用了三个肺结节数据集,包括 Lung Nodule Analysis 2016(LUNA16)、Lung Nodule Received Operation(LNOP)和 Lung Nodule in Health Examination(LNHE),来训练和测试深度学习模型。通过一系列修剪实验对 3D 区域提议网络(RPN)进行了修改,以提高预测性能。基于敏感性和竞争性能指标(CPM)评估每个修改后的深度学习模型的性能。此外,还通过 10 折交叉验证评估了在三个数据集上训练的修改后的 3D RPN 的性能。进行时间验证以评估修改后的 3D RPN 用于检测肺结节的可靠性。
结果
修剪实验的结果表明,由 Cross Stage Partial Network(CSPNet)方法与 Residual Network(ResNet)Xt(CSP-ResNeXt)模块、特征金字塔网络(FPN)、最近锚方法和后处理掩模组成的修改后的 3D RPN 具有最佳的预测性能,CPM 为 92.2%。在 LUNA16 数据集上训练的修改后的 3D RPN 的 CPM 最高(90.1%),其次是 LNOP 数据集(CPM:74.1%)和 LNHE 数据集(CPM:70.2%)。当在相同的数据集上训练和测试修改后的 3D RPN 时,LUNA16、LNOP 和 LNHE 的敏感性分别为 94.6%、84.8%和 79.7%。时间验证分析表明,在 LNOP 测试集上测试的修改后的 3D RPN 的 CPM 为 71.6%,敏感性为 85.7%,在 LNHE 测试集上测试的修改后的 3D RPN 的 CPM 为 71.7%,敏感性为 83.5%。
结论
设计并验证了一种用于检测 LDCT 扫描中肺结节的修改后的 3D RPN,它可以作为一种计算机辅助诊断系统,有助于肺结节的检测和肺癌的诊断。
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