A preliminary investigation on pulmonary subsolid nodule detection using deep learning methods from chest X-rays
10.3760/cma.j.issn.1005-1201.2017.12.006
- VernacularTitle:深度学习技术对胸部X线平片亚实性结节的检测效能初探
- Author:
Kai LIU
1
;
Rongguo ZHANG
;
Wenting TU
;
Li FAN
;
Yufeng DENG
;
Yun WANG
;
Qiong LI
;
Yi XIAO
;
Shiyuan LIU
Author Information
1. 第二军医大学附属长征医院影像科
- Keywords:
Chest radiography;
Subsolid lung nodule;
Deep learning
- From:
Chinese Journal of Radiology
2017;51(12):918-921
- CountryChina
- Language:Chinese
-
Abstract:
Objective To evaluate the effectiveness of deep learning methods to detect subsolid nodules from chest X-ray images.Methods The building,training,and testing of the deep learning model were performed using the research platform developed by Infervision,China.The training dataset consisted of 1 965 chest X-ray images, which contained 85 labeled subsolid nodules and 1 880 solid nodules. Eighty-five subsolid nodules were confirmed by corresponding CT exams. We labeled each X-ray image using the corresponding reconstructed coronal slice from the CT exam as the gold standard,and trained the deep learning model using alternate training.After the training,the model was tested on a different dataset containing 56 subsolid nodules,which were also confirmed by corresponding coronal slices from CT exams. The model results were compared with an experienced radiologist in terms of sensitivity,specificity,and test time. Results Out of the testing dataset that contained 56 subsolid nodules, the deep learning model marked 72 nodules,which consisted of 39 true positives(TP)and 33 false positives(FP).The model took 17 seconds.The human radiologist marked 39 nodules,with 31 TP and 8 FP.The radiologist took 50 minutes and 24 seconds. Conclusions Subsolid nodules are prone to mis-diagnosis by human radiologists. The proposed deep learning model was able to effectively identify subsolid nodules from X-ray images.