Abstract
Since the outbreak of COVID-19 in 2019, the rapid spread of the epidemic has brought huge challenges to medical institutions. If the pathological region in the COVID-19 CT image can be automatically segmented, it will help doctors quickly determine the patient’s infection, thereby speeding up the diagnosis process. To be able to automatically segment the infected area, we proposed a new network structure and named QC-HC U-Net. First, we combine residual connection and dense connection to form a new connection method and apply it to the encoder and the decoder. Second, we choose to add Hypercolumns in the decoder section. Compared with the benchmark 3D U-Net, the improved network can effectively avoid vanishing gradient while extracting more features. To improve the situation of insufficient data, resampling and data enhancement methods are selected in this paper to expand the datasets. We used 63 cases of MSD lung tumor data for training and testing, continuously verified to ensure the training effect of this model, and then selected 20 cases of public COVID-19 data for training and testing. Experimental results showed that in the segmentation of COVID-19, the specificity and sensitivity were 85.3% and 83.6%, respectively, and in the segmentation of MSD lung tumors, the specificity and sensitivity were 81.45% and 80.93%, respectively, without any fitting.
Highlights
Since the outbreak of COVID-19 in 2019, the rapid spread of the epidemic has brought huge challenges to medical institutions
It is convenient for doctors to make a detailed judgment based on the patient’s infection status, which is of positive significance to whether the patient is infected with COVID-19, and to establish the treatment plan
To better deal with the problems caused by COVID-19, we need a tool to quickly and automatically segment the infected region of the lungs of COVID-19 p atients[3,4,5].It reduces the amount of work doctors have to do visually to separate infected areas, speeds up the diagnosis process and saves time on follow-up treatment
Summary
Since the outbreak of COVID-19 in 2019, the rapid spread of the epidemic has brought huge challenges to medical institutions. If the pathological region in the COVID-19 CT image can be automatically segmented, it will help doctors quickly determine the patient’s infection, thereby speeding up the diagnosis process. To be able to automatically segment the infected area, we proposed a new network structure and named QC-HC U-Net. First, we combine residual connection and dense connection to form a new connection method and apply it to the encoder and the decoder. To better deal with the problems caused by COVID-19, we need a tool to quickly and automatically segment the infected region of the lungs of COVID-19 p atients[3,4,5].It reduces the amount of work doctors have to do visually to separate infected areas, speeds up the diagnosis process and saves time on follow-up treatment. Compared with the Residual network and DenseNet, it has higher efficiency
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