key: cord-0909482-umbg9xnj
authors: Şan, İshak; Bekgöz, Burak; Usul, Eren; Yıldırım, Çağdaş; Gemcioğlu, Emin; Kahraman, Ahmet Fatih; Ay, Ahmet Emre
title: Role of lung ultrasonography in the diagnosis of COVID-19 patients admitted to the emergency department
date: 2020-12-02
journal: Notf Rett Med
DOI: 10.1007/s10049-020-00807-3
sha: 23274e767e3f7a8548811029f4865428245ef105
doc_id: 909482
cord_uid: umbg9xnj

INTRODUCTION: In this study, the use of lung ultrasonography (LUS) to diagnosis lung findings was evaluated in patients with suspected COVID-19 who were admitted to the emergency department (ED). METHODS: This observational clinical study was conducted in the ED of the Ankara City Hospital during the period April 1–30, 2020. Patients who were admitted to the ED were triaged as COVID-19 infected and who agreed to undergo LUS/LCT (lung computed tomography) were included in the study. RESULTS: Included in the study were 40 patients who had been prediagnosed with COVID-19. Pneumonia was detected with LCT in 32 (80%) patients, while the LUS examination identified pneumonia in 23 patients. The most common finding in LCT was ground-glass opacity (n = 29, 90.6%). Of the 23 patients with pneumonia findings in LUS, 15 (65.2%) had direct consolidation. Among the 32 patients who were found to have pneumonia as a result of LCT, 20 (62.5%) had signs of pneumonia on LUS examination, and 12 had no signs of pneumonia. In addition, 3 patients showed no signs of pneumonia with LCT, but they were misdiagnosed with pneumonia by LUS. The sensitivity of LUS in the diagnosis of pneumonia in the COVID-19 patients was 62.5%, while its specificity was 62.5%. In addition, its positive predictive value was 87.0%, and its negative predictive value was 29.4%. CONCLUSION: LUS may also be used in the diagnosis of pneumonia in COVID-19 patients because it is a valuable and accessible bedside diagnostic tool. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (10.1007/s10049-020-00807-3) shows RT-PCR results of patients with a definitive diagnosis of COVID-19 by lung computed tomography and patients with pneumonia detected by lung ultrasonography. The article and additional material are available at www.springermedizin.de. Please enter the title of the article in the search field. You will find the additional material under “Ergänzende Inhalte” in the article.

Coronavirus Disease (COVID-19), which first presented as viral pneumonia cases of unknown etiology in Wuhan, China, at the end of 2019, has become a pandemic that has affected the whole world over a short period of time [1, 2] . The World Health Organization (WHO) agreed that the outbreak met the criteria for a Public Health Emergency of International Concern on January 30, 2020 [3]. On February 11, 2020, the WHO named the disease COVID-19, which is short for "coronavirus disease 2019" [4] .

Patients may have no-specific symptoms such as fever, fatigue, cough (with or without sputum production), sore throat, and nasal congestion. Rarely, patients may also present with diarrhea, nausea, and vomiting [5] . Although most patients experience mild disease, 14% of patients have lung involvement [6] . Lung imaging is therefore recommended for COVID-19 patients. The diagnostic value of chest radiography in the early stages is low in some lung disease [7] . However, lung computed tomography (LCT) can show lung involvement even before symptoms begin [8] . Although LCT represents the gold standard for the examination of most pulmonary diseases, it presents some important challenges, such as the high dose of radiation administered to the patient, its nonadministration to some groups of patients (e.g., pregnant women), the need to transport the patient to the radiology department, and the lack of CT scanning in some emergency departments (EDs) [7] . The American College of Radiology (ACR) recommends that CT not be used to screen for, or as a first-line test to diagnose, COVID-19. The ACR also recommends that CT be used sparingly and be reserved for hospitalized, symptomatic patients with specific clinical indications for CT [9] . Ultrasonography (US), which is a practical and nonhazardous diagnostic tool, has recently been recognized as offering an efficient way of accurately diagnosing thoracic pathologies that cause dyspnea. In addition, lung ultrasound (LUS) is a diagnostic method that can be applied quickly at the bedside and provide rapid results, without the patient needing to be transported to another location such as a CT room [10] . Lung ultrasound has been reported to provide more accurate results compared to methods such as physical examination and chest radiography, while for some diagnostic questions, it provides results nearly equivalent to CT [11] . Furthermore, LUS is more advantageous because it can be applied at the bedside. There is also no risk of ionizing radiation, and it can be applied easily by emergency physicians who can interpret the findings with the physical examination of the patients [12] .

Although there have been suggestions that LUS can be used to detect the lung findings of COVID-19 patients, this information has been obtained from a small number of studies and case reports.

In this study, the capacity of LUS for the diagnosis of lung findings was evaluated in patients with suspected COVID-19 who were admitted to the ED.

This observational clinical study was conducted in the ED of the Ankara City Hospital, which was a pandemic hospital during the period April 1-30, 2020. The study was approved by the Ethics Com- Patients admitted to the ED, were triaged as COVID-19 infected, and then opted for tomography were included in the study. Those who were not triaged as COVID-19 infected, decided not to have LCT, or were vitally unstable on arrival were excluded from the study. The inclusion criterion was not to select patients consecutively admitted to the ED.

Patients with cough, shortness of breath, and a temperature exceeding 38°C were transferred from the triage area to the negative pressure area reserved for COVID-19 patients and provided with a mask. After evaluating their vital signs and conducting a physical examination, patients with suspected pneumonia were recommended for LCT but underwent LUS before LCT. Lung ultrasound was performed by 2 emergency physicians who had previously received basic and advanced US training and had at least 3 years' ED experience. All the physicians entering the COVID-19 area for LUS took protective measures by wearing personal protective clothing, N95 mask, glasses, and gloves.

During LUS, longitudinal examinations were performed using a microconvex probe set at a frequency of 2-6 MHz (Mindray M7, Guangdong, China). While applying LUS, the patients were placed in the supine or semirecumbent position, and each hemithorax was examined based on a total of 6 points: 4 anterior and 2 lateral (. Fig. 1a, b) . Evaluation of the pleura was performed with high frequency because it was very difficult with low and medium fre-quency. After each LUS examination, the ultrasound probe was cleaned with hydrogen peroxide, and the new patient was examined with a clean probe.

During the LUS examination, the pleura between the two ribs was identified first. After detecting the pleura, the lung sliding sign, which is a normal finding that occurs as a result of the movement of the visceral and parietal pleura against each other, was evaluated. In the patients with lung sliding, A and B lines were checked. A lines, which are reverberation artifacts of the pleura, were accepted as normal lung findings (. Fig. 1c) . On the other hand, B lines, which originate from the pleura, appear as hyperechoic lines in the form of a beam that continues to the end of the screen, erasing A lines and shifting with the movement of the pleura. One or two B lines can be seen in each quadrant of each normal lung, but it is always pathological if there are ≥3 in 1 quadrant. If there are more than 3 B lines in a section, this is called a B+ finding (. Fig. 1d ). Direct visualization of consolidation (. Fig. 1e) , pleural thickening >3 mm (. Fig. 1f) , and a B+ finding are required for a diagnosis of pneumonia.

Lung computed tomography was accepted as the gold standard in the diagnosis of patients. Lung computed tomography was subsequently applied to the patients due to suspected pneumonia. Lung computed tomography results were interpreted bythe radiologists working at the hospital. Lung ultrasound and lung computed tomography findings of the patients were then compared. Lung ultrasound results did not affect the diagnosis and treatment process of the patients. We evaluated the LUS results observationally.

Every patient diagnosed with viral pneumonia by CT was hospitalized. According to the guidelines of the Ministry of Health of the Republic of Turkey, patients who had respiratory rate >30, SPO2 <90 and PaO2 <70 despite O2 therapy, and had hypotension, acute kidney damage, high troponin, and lactate >2 mmol were followed up in the intensive care unit (ICU). Patients diagnosed with viral pneumonia based on CT results received treatment in the pandemic period even if their Reverse transcription polymerase chain reaction (RT-PCR) tests were negative.

All the data were analyzed using IBM SPSS for Windows version 25.0 (IBM Corp., Armonk, NY, USA) and Med-Calc Statistical Software version 15.8 (MedCalc Software bv, Ostend, Belgium). In addition to the descriptive statistics (frequency, percentage, mean, standard deviation, median, min-max), the chi-square (X 2 ) test (Yates correction, Fisher's exact test) was used to compare the qualitative data. The consistency of the data to normal distribution was evaluated using the Kolmogorov-Smirnov and Shapiro-Wilk tests. An independent samples t-test was used to compare the normal distribution data. The sensitivity, specificity, and positive and negative predictive values were calculated using the

Notfall Rettungsmed https://doi.org/10.1007/s10049-020-00807-3 © Springer Medizin Verlag GmbH, ein Teil von Springer Nature 2020

Introduction. In this study, the use of lung ultrasonography (LUS) to diagnosis lung findings was evaluated in patients with suspected COVID-19 who were admitted to the emergency department (ED).

Methods. This observational clinical study was conducted in the ED of the Ankara City Hospital during the period April 1-30, 2020. Patients who were admitted to the ED were triaged as COVID-19 infected and who agreed to undergo LUS/LCT (lung computed tomography) were included in the study. Results. Included in the study were 40 patients who had been prediagnosed with COVID-19. Pneumonia was detected with LCT in 32 (80%) patients, while the LUS examination identified pneumonia in 23 patients. The most common finding in LCT was ground-glass opacity (n = 29, 90.6%). Of the 23 patients with pneumonia findings in LUS, 15 (65.2%) had direct consolidation. Among the 32 patients who were found to have pneumonia as a result of LCT, 20 (62.5%) had signs of pneumonia on LUS examination, and 12 had no signs of pneumonia. In addition, 3 patients showed no signs of pneumonia with LCT, but they were misdiagnosed with pneumonia by LUS. The sensitivity of LUS in the diagnosis of pneumonia in the COVID-19 patients was 62.5%, while its specificity was 62.5%. In addition, its positive predictive value was 87.0%, and its negative predictive value was 29.4%. Conclusion. LUS may also be used in the diagnosis of pneumonia in COVID-19 patients because it is a valuable and accessible bedside diagnostic tool.

Keywords SARS-CoV-2 · Diagnostic ultrasound · Pneumonia · Emergency service, hospital · Consolidation CT computed tomography, US ultrasonography 

Among the patients who were admitted to the Ankara City Hospital Emergency Department, 40 patients who had been prediagnosed with COVID-19 were included in the study. There were 20 (50%) men and 20 (50%) women. The mean age of the patients was 43.8 ± 16.6 years. While 37 (92.5%) of the patients had COVID-19-related symptoms, the most common complaint was cough (n = 23, 57.5%). Reverse transcription polymerase chain reaction results of 29 (72.5%) of the patients were positive for COVID-19. Pneumonia was detected with LCT in 32 (80%) of the 40 patients, while the LUS examination identified pneumonia in 23 patients (. Table 1 ). The most common finding among the 32 patients with pneumonia findings in LCT was ground-glass opacity (n = 29, 90.6%). Of the 23 patients with pneumonia findings in LUS, 15 (65.2%) had direct consolidation. All the LCT and LUS findings are presented in . Table 2 .

Among the 32 patients who were found to have pneumonia as a result of LCT, 20 (62.5%) had signs of pneumonia on LUS examination, and 12 had no signs of pneumonia. In addition, 3 pa-tients showed no signs of pneumonia with LCT, but they were misdiagnosed with pneumonia by LUS (. Table 3 ). The sensitivity of LUS in the diagnosis of pneumonia in the COVID-19 patients was 62.5% (95% confidence interval [CI] 43.7-78.9), while its specificity was 62.5% (95% CI 24.5-91.5). In addition, its positive predictive value was 87.0% (95% CI 66.4-97.2), and its negative predictive value was 29.4% (95% CI 10.3-56.0). The accuracy rate of LUS in detecting the pneumonia was 62.5%.

Of the patients who were found to have COVID-19 pneumonia with LCT 65.6% were also COVID-19 positive according to the RT-PCR test results. Reverse transcription polymerase chain reaction results of 11 patients whose LCT results were compatible with COVID-19 were negative. LCTs Lung computed tomographies of 8 patients with COVID-19 positive RT-PCR results did not have an appearance compatible with COVID-19 (Supplementary digital content).

Pneumonia in both lungs was detected in 22 patients by LCT, while LUS revealed that 12 (54.5%) of these 22 patients had bilateral pneumonia findings. While consolidation in the right lung was detected in 6 patients in LCT, 4 (66.6%) of these patients had the same finding with LUS. In addition, 1 (25.0%) of the 4 patients found to have consolidation in the left lung with LCT had the same finding with LUS.

Lung ultrasound is recognized as a fast, noninvasive, easily accessible tool for diagnosing lung pathologies. In this study, we evaluated the utility of LUS in diagnos-ingCOVID-19inpatientswhovisitedour ED. In our study, the sensitivity and specificity of LUS in the diagnosis of pneumonia in COVID-19 patients was 62.5%. Its positive predictive value was 87.0%, and the negative predictive value was 29.4%. In contrast, one study found that the sensitivity of LUS in the diagnosis of pneumonia was 82%, and its specificity was 92% [13] , while another study conducted on COVID-19 patients determined the sensitivity of LUS in the diagnosis of mild pneumonia to be 68.8% and its specificity 85.7% [14] . The reason LUS performed on COVID-19 patients has lower sensitivity and specificity values compared to the patients with bacterial pneumonia may be that in COVID-19, lung involvement and LUS images differ from other pneumonia agents such as bacterial pneumonia. For example, the insufficient experience of emergency physicians with chronic inflammation findings such as pleural thickening and irregularities may be an important factor in low sensitivity and specificity. In addition, reasons such as the more central distribution of lesions without contacting the lung surface in COVID19, the need to scan the entire chest in order not to miss small findings, and anatomical factors may have caused the sensitivity and specificity of LUS to be low in the diagnosis of COVID-19.

In our study, the most common finding among the patients diagnosed with pneumonia in LUS was direct visualization of lung consolidation (47.9%). In the LUS applied to COVID-19 patients in another study, B lines were detected in different patterns in all the patients [15] . Similarly, in a study by Yasukawa et al., the most common pneumonia finding was B lines [16] . As stated in "The 2019-2020 Novel Coronavirus (Severe Acute Respiratory Syndrome Coronavirus 2) Pandemic: A Joint American College of Academic International Medicine-World Academic Council of Emergency Medicine Multidisciplinary COVID-19 Working Group Consensus Paper", consolidation is likely to be a sign of severe disease [17] .

Detection of localized B+ lines indicates a diagnosis of bacterial pneumonia, while bilateral detection of these lines signifies a diagnosis of heart failure. In addition, bilateral B+ findings are common in COVID 19 patients. Patchy B+ lines rather than diffuse B+ lines in the LUS should suggest the diagnosis of COVID-19 rather than lung congestion [18] . Interpretation of LUS findings supported by clinical findings will increase the rate of accurate diagnosis. In studies where LUS was applied to COVID-19 patients, the patients were diagnosed with pneumonia despite bilateral B+ findings [14] [15] [16] . Although 15% of our patients had bilateral B+ findings, these patients were diag-nosed with pneumonia by the physicians who performed the LUS. We think that it is important for the LUS practitioner to know the anamnesis and physical examinations of the patients. To our thinking, the patients' prediagnoses with COVID-19 may have led the physicians to decide on this diagnosis. We believe that it is more appropriate to diagnose pneumonia if bilateral B+ findings are detected in patients who have been prediagnosed with COVID-19.

The accuracy rate of LUS in detecting the pneumonia was 62.5%. According to a study [12] , the diagnostic accuracy rate of LUS applied to patients with shortness of breath is 90.5%. This study was conducted both with non-COVID-19 patients and in the intensive care unit. We think that the reason for the lower diagnostic accuracy rate in our study may be due to the fact that the evaluation of patients with suspected COVID-19 was performed in ED, under difficult conditions, and under personal protective clothing which altogether may have hampered accessibility of relevant regions of the chest, especially dorsobasal.

In our study, 10 of 23 patients diagnosed with pneumonia were treated in ICU. Seven of these 11 patients had consolidation in their LUS [17, 18] . In the literature, it has been mentioned that COVID-19 may have a more severe progression if the finding of consolidation is detected. We think that the high number of consolidation findings in our study is related to the high number of patients and the severity of the patients. We think that the detection of consolidation in patients admitted to ED may warn emergency physicians that the disease may progress severely.

The most important limitation of our study was the low number of patients. Studies with a larger number of patients will be better able to evaluate the benefit of using LUS in the diagnosis of pneumonia in COVID-19 patients. Another limitationwas thatLUS was notapplied toall the COVID-19-suspected patients admitted to the ED; only those who were scheduled to have LCT received LUS. This may have led physicians to find consolidation in LUS. We did not ask the patients about the onset of symptoms. Lung ultrasound may not have detected the disease, since lung involvement has not yet begun in patients whose symptoms have just started. In our study, the fact that we were not able to perform dorsal examinations on patients may have caused us to miss LUS findings in some patients. In addition, the fact that the physicians were aware of the patients' clinical findings and that the prediagnosis was COVID-19 may have affected the decisions of the physicians who applied LUS.

Lung ultraosund may also be used in the diagnosis of pneumonia in COVID-19 patients because it is a valuable and accessible bedside diagnostic tool. It is also radiation-free and therefore safe for use with pregnant women. However, studies involving a large number of patients need to be performed, and LUS findings in COVID-19 patients need to be standardized.

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This observational clinical study was conducted in the ED of the Ankara City Hospital, which was a pandemic hospital during the period April 1-30, 2020. The study was approved by the Ethics Committee No. 1 of the Ankara City Hospital (approval number E1-20-616).