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Deprecated: Implicit conversion from float 265.2 to int loses precision in C:\Inetpub\vhosts\kidney.de\httpdocs\pget.php on line 534 IEEE+J+Biomed+Health+Inform 2020 ; 24 (12): 3529-3538 Nephropedia Template TP
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Severity and Consolidation Quantification of COVID-19 From CT Images Using Deep Learning Based on Hybrid Weak Labels #MMPMID33044938
Wu D; Gong K; Arru CD; Homayounieh F; Bizzo B; Buch V; Ren H; Kim K; Neumark N; Xu P; Liu Z; Fang W; Xie N; Tak WY; Park SY; Lee YR; Kang MK; Park JG; Carriero A; Saba L; Masjedi M; Talari H; Babaei R; Mobin HK; Ebrahimian S; Dayan I; Kalra MK; Li Q
IEEE J Biomed Health Inform 2020[Dec]; 24 (12): 3529-3538 PMID33044938show ga
Early and accurate diagnosis of Coronavirus disease (COVID-19) is essential for patient isolation and contact tracing so that the spread of infection can be limited. Computed tomography (CT) can provide important information in COVID-19, especially for patients with moderate to severe disease as well as those with worsening cardiopulmonary status. As an automatic tool, deep learning methods can be utilized to perform semantic segmentation of affected lung regions, which is important to establish disease severity and prognosis prediction. Both the extent and type of pulmonary opacities help assess disease severity. However, manually pixel-level multi-class labelling is time-consuming, subjective, and non-quantitative. In this article, we proposed a hybrid weak label-based deep learning method that utilize both the manually annotated pulmonary opacities from COVID-19 pneumonia and the patient-level disease-type information available from the clinical report. A UNet was firstly trained with semantic labels to segment the total infected region. It was used to initialize another UNet, which was trained to segment the consolidations with patient-level information using the Expectation-Maximization (EM) algorithm. To demonstrate the performance of the proposed method, multi-institutional CT datasets from Iran, Italy, South Korea, and the United States were utilized. Results show that our proposed method can predict the infected regions as well as the consolidation regions with good correlation to human annotation.