Since December 2019, the outbreak of pneumonia caused by a new coronavirus [1], which was later identified as coronavirus disease 2019 (COVID19), has infected more than 410,000 patients globally according to the situation report of World Health Organization. Lung ultrasound is an important tool for the diagnosis and follow-up of pneumonia in neonates, children, and adults [2‐4]. Recent CT reports demonstrated that most of the lesions were distributed peripherally in the lung, which facilitates detection by lung ultrasound [5, 6]. In this study, we characterize the lung ultrasound findings COVID-19 pneumonia, and study the relationship between the ultrasound findings and clinical severity and the time-course of disease progress. Bedside lung ultrasound was performed to detect B-lines, lung consolidation, and pleural line abnormalities at 5 areas in each lung. Vascular ultrasound was also performed to detect potential deep vein thrombosis.
A total of 20 patients of COVID-19 pneumonia (12 males and 8 females) were categorized as 4 moderate, 5 severe, and 11 critical cases according to the current diagnosis and treatment program. All patients showed abnormal lung ultrasound findings, including 100% (20) pleural line abnormalities, 100% (20) B-lines, and 50% (10) consolidation. Most of the moderate and severe cases could show both separated B-lines and confluent B-lines during admission. All critical patients showed confluent B-lines, and 18% (2) of them had compact B-lines. Bilateral involvement was observed in all patients. The predominate involved areas in moderate patients were on the back, i.e., the interscapular and infrascapular areas. For severe and critical patients, all 5 areas could be involved. Consolidations were not detected in moderate cases, and distributed mainly on the posterior areas in severe and critical cases. Pleural effusion (18%, 2 cases), pericardial effusion (9%, 1 case), and deep vein thrombosis (64%, 5 cases) were only found in critical patients. (Table 1).
Table 1
Lung ultrasound findings in different clinical severity
Moderate (n = 4) | Severe (n = 5) | Critical (n = 11) | |
|---|---|---|---|
Pleural line abnormalities | 100% (4) | 100% (5) | 100% (11) |
B-lines | 100% (4) | 100% (5) | 100% (11) |
Separated B-lines | 75% (3) | 80% (4) | 36% (4) |
Confluent B-lines | 75% (3) | 80% (4) | 100% (11) |
Compact B-lines | 0 | 0 | 18% (2) |
Bilateral involvement | 100% (4) | 100% (5) | 100% (11) |
Anterior upper area | 25% (1) | 100% (5) | 100% (11) |
Anterior lower area | 50% (2) | 100% (5) | 100% (11) |
Lateral area | 75% (3) | 100% (5) | 100% (11) |
Interscapular area | 100% (4) | 100% (5) | 100% (11) |
Infrascapular area | 100% (4) | 100% (5) | 100% (11) |
Consolidation | 0 | 60% (3) | 64% (7) |
Bilateral involvement | 0 | 40% (2) | 54% (6) |
Anterior upper area | 0 | 0 | 18% (2) |
Anterior lower area | 0 | 0 | 18% (2) |
Lateral area | 0 | 20% (1) | 18% (2) |
Interscapular area | 0 | 20% (1) | 64% (7) |
Infrascapular area | 0 | 60% (3) | 64% (7) |
Pleural effusion | 0 | 0 | 18% (2) |
Pericardial effusion | 0 | 0 | 9% (1) |
Deep vein thrombosis | 0 | 0 | 64% (7) |
Anzeige
A total of 36 ultrasound examinations were categorized to four groups based on the time interval between onset of symptoms and ultrasound examinations (1st to 4th week). All of the examinations showed abnormal lung ultrasound findings, including 100% (36) pleural line abnormalities, 100% (36) B-lines, and 64% (23) consolidation. The separate B-lines were found more than half of the examinations after the 2nd week. The majority of examinations during the 2nd and 3rd weeks showed confluent B-lines. The involvement of anterior areas with B-lines decreased along with the infected time course. The lateral and back areas were always involved in all stages for B-lines. Consolidations were found in more than half examinations after the 1st week. Most of consolidation lesions confined within unilateral lung except at the 2nd week. The anterior and lateral areas were not involved of consolidations during 1st and 4th week. Consolidations were always found in the interscapular and infrascapular areas. Pleural effusion was observed across all stages, but only in a few examinations. The deep vein thrombosis can be found since the 1st week and most prevalent at the 4th week (62.5%, 5 cases). (Table 2).
Table 2
Lung ultrasound findings in different infection stage
1st week (n = 4) | 2nd week (n = 11) | 3rd week (n = 13) | 4th week (n = 8) | |
|---|---|---|---|---|
Clinical severity (%) | ||||
Moderate | 0 | 18% (2) | 15% (2) | 12.5% (1) |
Severe | 25% (1) | 18% (2) | 23% (3) | 25% (2) |
Critical | 75% (3) | 64% (7) | 62% (8) | 62.5% (5) |
Pleural line abnormalities | 100% (4) | 100% (11) | 100% (13) | 100% (8) |
B-lines | 100% (4) | 100% (11) | 100% (13) | 100% (8) |
Separated B-lines | 50% (2) | 46% (5) | 69% (9) | 75% (6) |
Confluent B-lines | 75% (3) | 91% (10) | 85% (11) | 75% (6) |
Compact B-lines | 25% (1) | 18% (2) | 15% (2) | 0 |
Bilateral involvement | 100% (4) | 100% (11) | 100% (13) | 87.5% (7) |
Anterior upper area | 100% (4) | 91% (10) | 85% (11) | 87.5% (7) |
Anterior lower area | 100% (4) | 91% (10) | 77% (10) | 75% (6) |
Lateral area | 100% (4) | 100% (11) | 100% (13) | 100% (8) |
Interscapular area | 100% (4) | 100% (11) | 100% (13) | 87.5% (7) |
Infrascapular area | 100% (4) | 100% (11) | 100% (13) | 100% (8) |
Consolidation | 50% (2) | 55% (6) | 77% (10) | 62.5% (5) |
Bilateral involvement | 25% (1) | 55% (6) | 36% (4) | 25% (2) |
Anterior upper area | 0 | 9% (1) | 0 | 0 |
Anterior lower area | 0 | 9% (1) | 8% (1) | 0 |
Lateral area | 0 | 18% (2) | 8% (1) | 0 |
Interscapular area | 50% (2) | 55% (6) | 54% (7) | 62.5% (5) |
Infrascapular area | 25% (1) | 55% (6) | 77% (10) | 62.5% (5) |
Pleural effusion | 25% (1) | 9% (1) | 15% (2) | 12.5% (1) |
Pericardial effusion | 0 | 9% (1) | 8% (1) | 12.5% (1) |
Deep vein thrombosis | 50% (2) | 46% (5) | 46% (6) | 62.5% (5) |
In summary, abnormal lung ultrasound findings, mainly B-lines, consolidation and pleural line abnormalities, were found in patients infected with COVID-19 pneumonia. Bilateral involvement was always observed with predominant distribution in the posterior part of the lungs. The composition of different density of B-lines and areas of consolidation showed parallel changes with the clinical severity. The extent of disease demonstrated by ultrasound findings seemed reaching the peak at the 2nd week and recovering gradually thereafter. Collectively, lung ultrasound could serve as a valuable tool for the detection and follow-up of lung lesions in COVID-19 pneumonia and also provide supplemental imaging information for current recommended radiological examination, with the advantages of radiation-free, flexibility, and cost effective.
Acknowledgements
Not applicable.
Funding
This study was supported by the Key Program of Digital Diagnosis and Therapy by Missions of the Ministry of Science and Technology (2017YFC0113800), National Science and Technology Major Project (2017ZX10204401-002-005), and Key Research and Development Program of Shaanxi Province (2020ZDXM-SF-003). Changyang Xing was supported by the grants from National Postdoctoral Program for Innovative Talents (BX20180377) and the Eyas Program of the Fourth Military Medical University.
Anzeige
Availability of data and materials
All data generated or analyzed during this study are included in this published article.
Ethics approval and consent to participate
This study was approved by the ethics committee of Tangdu Hospital, Fourth Military Medical University. The requirement for informed patient consent was waived in light of the urgent need to collect clinical and imaging data.
Consent for publication
Consent for publication was obtained from every patient.
Competing interests
The authors declare that they have no competing interests.
Publisher’s Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Open AccessThis article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article's Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article's Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated in a credit line to the data.