摘要
Aortic dissection(AD)is one of the most serious diseases with high mortality,and its diagnosis mainly depends on computed tomography(CT)results.Most existing automatic diagnosis methods of AD are only suitable for AD recognition,which usually require preselection of CT images and cannot be further classified to different types.In this work,we constructed a dataset of 105 cases with a total of 49021 slices,including 31043 slices expertlevel annotation and proposed a two-stage AD diagnosis structure based on sequence information and deep learning.The proposed region of interest(RoI)extraction algorithm based on sequence information(RESI)can realize high-precision for RoI identification in the first stage.Then DenseNet-121 is applied for further diagnosis.Specially,the proposed method can judge the type of AD without preselection of CT images.The experimental results show that the accuracy of Stanford typing classification of AD is 89.19%,and the accuracy at the slice-level reaches 97.41%,which outperform the state-ofart methods.It can provide important decision-making information for the determination of further surgical treatment plan for patients.
基金
This work was supported in part by the National Natural Science Foundation of China(No.62002392)
in part by the Key Research and Development Plan of Hunan Province(No.2019SK2022)
in part by the Natural Science Foundation of Hunan Province(No.2020JJ4140 and 2020JJ4141)
in part by the Science Research Projects of Hunan Provincial Education Department(No.19B584)
in part by the Postgraduate Excellent teaching team Project of Hunan Province[Grant[2019]370-133].
