3D multi-scale vision transformer for lung nodule detection in chest CT images
Article Ecrit par: Zhao, Yaqin ; Wu, Longwen ; Mkindu, Hassan ;
Résumé: Lung cancer becomes the most prominent cause of cancer-related death in society. Normally, radiologists use computed tomography (CT) to diagnose lung nodules in lung cancer patients. A single CT scan for a patient produces hundreds of images that are manually analyzed by radiologists which is a big burden and sometimes leads to inaccuracy. Recently, many computer-aided diagnosis (CAD) systems integrated with deep learning architectures have been proposed to assist radiologists. This study proposes the CAD scheme based on a 3D multi-scale vision transformer (3D-MSViT) to enhance multi-scale feature extraction and improves lung nodule prediction efficiency from 3D CT images. The 3D-MSViT architecture adopted a local–global transformer block structure whereby the local transformer stage individually processes each scale patch and forwards it to the global transformer level for merging multi-scale features. The transformer blocks fully relied on the attention mechanism without the inclusion of the convolutional neural network to reduce the network parameters. The proposed CAD scheme was validated on 888 CT images of the Lung Nodule Analysis 2016 (LUNA16) public dataset. Free-response receiver operating characteristics analysis was adopted to evaluate the proposed method. The 3D-MSViT algorithm obtained the highest sensitivity of 97.81% and competition performance metrics of 0.911. Therefore, the 3D-MSViT scheme obtained comparable results with low network complexity related to the counterpart deep learning approaches in prior studie
Langue:
Anglais
Thème
Informatique
Mots clés:
Computer-aided diagnosis
Computed Tomography
Vision transformer
Lung nodule
3D-MSViT