University of Science and Technology of China, Hefei, Anhui, 230026, China.
Department of Medical Imaging, Suzhou Institute of Biomedical Engineering and Technology, Chinese Academy of Sciences, Suzhou, Jiangsu, 215163, China.
Med Phys. 2019 Jun;46(6):2659-2668. doi: 10.1002/mp.13541. Epub 2019 Apr 29.
Accurate segmentation of rectal tumors is a basic and crucial task for diagnosis and treatment of rectal cancer. To avoid tedious manual delineation, an automatic rectal tumor segmentation model is proposed.
A pretrained Resnet50 model was introduced for feature extraction. To reduce the complexity of the model, all layers after the 13th residual block of ResNet50 were removed, and three side-output modules were added to the hidden layer of ResNet50 to guide multiscale feature learning. The final boundaries of tumors were determined by fusion of the predictions from side-output modules. The proposed model was compared with two other models, and the effects of different region of interest (ROI) sizes, loss functions, and side-output fusion strategy were also evaluated.
The models were trained and evaluated on data from four clinical centers; T2-weighted magnetic resonance images (T2W-MRIs) from 461 patients in the first clinical center were used for training, while T2W-MRIs from 51 patients in the same clinical center and 56 patients in three other clinical centers were used for performance evaluation. The proposed model was superior to the two other models and achieved an average Dice similarity coefficient of 82.39%, sensitivity of 86.32%, specificity of 92.25%, and Hausdorff distance of 12.10 px. In addition, when the ROI contained rectal tumors, the smaller the ROI size, the higher the segmentation accuracy. For a certain ROI size, there were no considerable differences in segmentation results among the loss functions. Compared to the models with single side-output module, the proposed model performed better.
The results show that the proposed model has potential clinical applications in rectal cancer treatment, particularly with regard to therapeutic response evaluation and preoperative planning.
准确分割直肠肿瘤是诊断和治疗直肠癌的基本和关键任务。为避免繁琐的手动勾画,提出了一种自动直肠肿瘤分割模型。
引入预训练的 Resnet50 模型进行特征提取。为了降低模型的复杂性,去除了 ResNet50 第 13 个残差块之后的所有层,并在 ResNet50 的隐藏层中添加了三个侧输出模块,以指导多尺度特征学习。通过融合侧输出模块的预测来确定肿瘤的最终边界。将所提出的模型与另外两个模型进行了比较,并评估了不同感兴趣区域(ROI)大小、损失函数和侧输出融合策略的效果。
模型在来自四个临床中心的数据上进行了训练和评估;来自第一个临床中心的 461 名患者的 T2 加权磁共振图像(T2W-MRI)用于训练,而来自同一临床中心的 51 名患者和来自三个其他临床中心的 56 名患者的 T2W-MRI 用于性能评估。所提出的模型优于另外两个模型,平均 Dice 相似系数为 82.39%,灵敏度为 86.32%,特异性为 92.25%,Hausdorff 距离为 12.10px。此外,当 ROI 包含直肠肿瘤时,ROI 越小,分割精度越高。对于特定的 ROI 大小,损失函数之间的分割结果没有明显差异。与具有单个侧输出模块的模型相比,所提出的模型表现更好。
结果表明,所提出的模型在直肠癌治疗中具有潜在的临床应用价值,特别是在治疗反应评估和术前规划方面。
