Author: Huang, Jiaofeng; Cheng, Aiguo; Lin, Su; Zhu, Yueyong; Chen, Gongping
Title: Individualized prediction nomograms for disease progression in mild COVIDâ€19 Cord-id: qdkx10nh Document date: 2020_5_17
ID: qdkx10nh
Snippet: The coronavirus disease 2019 (COVIDâ€19) has evolved into a pandemic rapidly. The majority of COVIDâ€19 patients are with mild syndromes. This study aimed to develop models for predicting disease progression in mild cases. The risk factors for the requirement of oxygen support in mild COVIDâ€19 were explored using multivariate logistic regression. Nomogram as visualization of the models was developed using R software. A total of 344 patients with mild COVIDâ€19 were included in the final ana
Document: The coronavirus disease 2019 (COVIDâ€19) has evolved into a pandemic rapidly. The majority of COVIDâ€19 patients are with mild syndromes. This study aimed to develop models for predicting disease progression in mild cases. The risk factors for the requirement of oxygen support in mild COVIDâ€19 were explored using multivariate logistic regression. Nomogram as visualization of the models was developed using R software. A total of 344 patients with mild COVIDâ€19 were included in the final analysis, 45 of whom progressed and needed highâ€flow oxygen therapy or mechanical ventilation after admission. There were 188 (54.7%) males, and the average age of the cohort was 52.9 ± 16.8 years. When the laboratory data were not included in multivariate analysis, diabetes, coronary heart disease, T ≥ 38.5℃ and sputum were independent risk factors of progressive COVIDâ€19 (Model 1). When the blood routine test was included the CHD, T ≥ 38.5℃ and neutrophilâ€toâ€lymphocyte ratio were found to be independent predictors (Model 2). The area under the receiver operator characteristic curve of model 2 was larger than model 1 (0.872 vs 0.849, P = .023). The negative predictive value of both models was greater than 96%, indicating they could serve as simple tools for ruling out the possibility of disease progression. In conclusion, two models comprised common symptoms (fever and sputum), underlying diseases (diabetes and coronary heart disease) and blood routine test are developed for predicting the future requirement of oxygen support in mild COVIDâ€19 cases.
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