• Respiration · Jan 2020

    Observational Study

    Characteristics of Pulmonary Auscultation in Patients with 2019 Novel Coronavirus in China.

    • Bo Wang, Yanbin Liu, Ye Wang, Wanhong Yin, Tao Liu, Dan Liu, Diandian Li, Mei Feng, Yanlin Zhang, Zong'an Liang, Ziqiao Fu, Siyun Fu, Weimin Li, Nian Xiong, Gang Wang, and Fengming Luo.
    • Department of Respiratory and Critical Care Medicine, West China Hospital of Sichuan University, Chengdu, China.
    • Respiration. 2020 Jan 1; 99 (9): 755-763.

    BackgroundEffective auscultations are often hard to implement in isolation wards. To date, little is known about the characteristics of pulmonary auscultation in novel coronavirus (COVID-19) pneumonia.ObjectivesThe aim of this study was to explore the features and clinical significance of pulmonary auscultation in COVID-19 pneumonia using an electronic stethoscope in isolation wards.MethodsThis cross-sectional, observational study was conducted among patients with laboratory-confirmed COVID-19 at Wuhan Red-Cross Hospital during the period from January 27, 2020, to February 12, 2020. Standard auscultation with an electronic stethoscope was performed and electronic recordings of breath sounds were analyzed.ResultsFifty-seven patients with average age of 60.6 years were enrolled. The most common symptoms were cough (73.7%) during auscultation. Most cases had bilateral lesions (96.4%) such as multiple ground-glass opacities (69.1%) and fibrous stripes (21.8%). High-quality auscultation recordings (98.8%) were obtained, and coarse breath sounds, wheezes, coarse crackles, fine crackles, and Velcro crackles were identified. Most cases had normal breath sounds in upper lungs, but the proportions of abnormal breath sounds increased in the basal fields where Velcro crackles were more commonly identified at the posterior chest. The presence of fine and coarse crackles detected 33/39 patients with ground-glass opacities (sensitivity 84.6% and specificity 12.5%) and 8/9 patients with consolidation (sensitivity 88.9% and specificity 15.2%), while the presence of Velcro crackles identified 16/39 patients with ground-glass opacities (sensitivity 41% and specificity 81.3%).ConclusionsThe abnormal breath sounds in COVID-19 pneumonia had some consistent distributive characteristics and to some extent correlated with the radiologic features. Such evidence suggests that electronic auscultation is useful to aid diagnosis and timely management of the disease. Further studies are indicated to validate the accuracy and potential clinical benefit of auscultation in detecting pulmonary abnormalities in COVID-19 infection.© 2020 S. Karger AG, Basel.

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