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Abnormal lung quantification in chest CT images of COVID-19 patients with deep learning and its application to severity prediction

Authors
Shan, FeiGao, YaozongWang, JunShi, WeiyaShi, NannanHan, MiaofeiXue, ZhongShen, DinggangShi, Yuxin
Issue Date
4월-2021
Publisher
WILEY
Keywords
COVID-19; computed tomography (CT); deep learning; human-involved-model-iterations; infection region segmentation
Citation
MEDICAL PHYSICS, v.48, no.4, pp.1633 - 1645
Indexed
SCIE
SCOPUS
Journal Title
MEDICAL PHYSICS
Volume
48
Number
4
Start Page
1633
End Page
1645
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/137693
DOI
10.1002/mp.14609
ISSN
0094-2405
Abstract
Objective Computed tomography (CT) provides rich diagnosis and severity information of COVID-19 in clinical practice. However, there is no computerized tool to automatically delineate COVID-19 infection regions in chest CT scans for quantitative assessment in advanced applications such as severity prediction. The aim of this study was to develop a deep learning (DL)-based method for automatic segmentation and quantification of infection regions as well as the entire lungs from chest CT scans. Methods The DL-based segmentation method employs the "VB-Net" neural network to segment COVID-19 infection regions in CT scans. The developed DL-based segmentation system is trained by CT scans from 249 COVID-19 patients, and further validated by CT scans from other 300 COVID-19 patients. To accelerate the manual delineation of CT scans for training, a human-involved-model-iterations (HIMI) strategy is also adopted to assist radiologists to refine automatic annotation of each training case. To evaluate the performance of the DL-based segmentation system, three metrics, that is, Dice similarity coefficient, the differences of volume, and percentage of infection (POI), are calculated between automatic and manual segmentations on the validation set. Then, a clinical study on severity prediction is reported based on the quantitative infection assessment. Results The proposed DL-based segmentation system yielded Dice similarity coefficients of 91.6% +/- 10.0% between automatic and manual segmentations, and a mean POI estimation error of 0.3% for the whole lung on the validation dataset. Moreover, compared with the cases with fully manual delineation that often takes hours, the proposed HIMI training strategy can dramatically reduce the delineation time to 4 min after three iterations of model updating. Besides, the best accuracy of severity prediction was 73.4% +/- 1.3% when the mass of infection (MOI) of multiple lung lobes and bronchopulmonary segments were used as features for severity prediction, indicating the potential clinical application of our quantification technique on severity prediction. Conclusions A DL-based segmentation system has been developed to automatically segment and quantify infection regions in CT scans of COVID-19 patients. Quantitative evaluation indicated high accuracy in automatic infection delineation and severity prediction.
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