Development and validation of a meta-learning-based multi-modal deep learning algorithm for detection of peritoneal metastasis

• Published in: International journal for computer assisted radiology and surgery Vol. 17; no. 10; pp. 1845 - 1853
• Main Authors: Zhang, Hangyu, Zhu, Xudong, Li, Bin, Dai, Xiaomeng, Bao, Xuanwen, Fu, Qihan, Tong, Zhou, Liu, Lulu, Zheng, Yi, Zhao, Peng, Ye, Luan, Chen, Zhihong, Fang, Weijia, Ruan, Lingxiang, Jin, Xinyu
• Format: Journal Article
• Language: English
• Published: Cham Springer International Publishing 01.10.2022; Springer Nature B.V
• Subjects: Accuracy; Algorithms; Artificial neural networks; Classification; Classifiers; Computer Imaging; Computer Science; Datasets; Deep learning; Feature extraction; Health Informatics; Imaging; Machine learning; Medical imaging; Medicine; Medicine & Public Health; Metastasis; Neural networks; Original Article; Pattern Recognition and Graphics; Performance evaluation; Predictions; Radiology; Surgery; Training; Vision; Deep learning; Multi-modal; Artificial intelligence; Synchronous peritoneal metastasis; Meta-learning
• ISSN: 1861-6429; 1861-6410; 1861-6429
• DOI: 10.1007/s11548-022-02698-w

Purpose The existing medical imaging tools have a detection accuracy of 97% for peritoneal metastasis(PM) bigger than 0.5 cm, but only 29% for that smaller than 0.5 cm, the early detection of PM is still a difficult problem. This study is aiming at constructing a deep convolution neural network classifier based on meta-learning to predict PM. Method Peritoneal metastases are delineated on enhanced CT. The model is trained based on meta-learning, and features are extracted using multi-modal deep Convolutional Neural Network(CNN) with enhanced CT to classify PM. Besides, we evaluate the performance on the test dataset, and compare it with other PM prediction algorithm. Results The training datasets are consisted of 9574 images from 43 patients with PM and 67 patients without PM. The testing datasets are consisted of 1834 images from 21 testing patients. To increase the accuracy of the prediction, we combine the multi-modal inputs of plain scan phase, portal venous phase and arterial phase to build a meta-learning-based multi-modal PM predictor. The classifier shows an accuracy of 87.5% with Area Under Curve(AUC) of 0.877, sensitivity of 73.4%, specificity of 95.2% on the testing datasets. The performance is superior to routine PM classify based on logistic regression (AUC: 0.795), a deep learning method named ResNet3D (AUC: 0.827), and a domain generalization (DG) method named MADDG (AUC: 0.834). Conclusions we proposed a novel training strategy based on meta-learning to improve the model’s robustness to “unseen” samples. The experiments shows that our meta-learning-based multi-modal PM predicting classifier obtain more competitive results in synchronous PM prediction compared to existing algorithms and the model’s improvements of generalization ability even with limited data.