Chest computed tomography for the diagnosis of patients with coronavirus disease 2019 (COVID-19): a rapid review and meta-analysis
Introduction
In early January 2020, a disease caused by a novel coronavirus rapidly spread and across the whole world. The disease was later named as coronavirus disease 2019 (COVID-19). On 11 March 2020, COVID-19 was declared by the World Health Organization (WHO) a pandemic (1). As of 12 April 2020, the WHO has reported 1,614,951 confirmed cases across more than 200 countries (2).
COVID-19 is a respiratory illness that can spread from human to human. Patients with the disease have mild to severe respiratory illness with symptoms such as fever, cough, dyspnea, as well as other non-specific symptoms including, fatigue, myalgia, and headache (3-5). Based on current knowledge, the median basic reproductive number (R0) value of COVID-19 is 5.7 [95% confidence interval (CI), 3.8–8.9] (6), which means that COVID-19 is highly contagious.
COVID-19 is mainly diagnosed by viral nucleic acid test, immunological detection, and radiological examination. However, the sensitivity of the nucleic acid test may be as low as 50% (7), and some diagnoses may be missed. As a respiratory disease, imaging detection plays an important role in the diagnosis of COVID-19. On one hand, when COVID-19 cannot be diagnosed by nucleic acid, computed tomography (CT) can be used as an auxiliary diagnostic method; on the other hand, CT can show lesions and also plays an important role in patient follow-up. Since February 2020, several case-control studies (8,9), case series (10,11), and case-report (12,13) of CT diagnosis of COVID-19 have been published. However, there is no systematic review and meta-analysis to find out the performance of chest CT in the diagnosis of COVID-19. We therefore conducted this study to estimate the sensitivity of chest CT and the probability of imaging findings in cases with COVID-19 to guide the diagnosis of COVID-19. We present the following article in accordance with the PRISMA reporting checklist (available at http://dx.doi.org/10.21037/atm-20-3311).
Methods
Search strategy
We searched Medline (via PubMed), Embase, Cochrane library, Web of Science, China Biology Medicine disc (CBM), China National Knowledge Infrastructure (CNKI) and Wanfang Data between 1 January 2020 and 31 March 2020, using terms with (“2019-novel coronavirus” OR “Novel CoV” OR “2019-nCoV” OR “2019-CoV” OR COVID-19 OR SARS-CoV-2 OR “novel coronavirus pneumonia”) AND (“computed tomography” OR “radiograph*” OR imagin*). The details of the search strategy can be found in the Supplementary material 1. We also searched Google Scholar and the preprint servers, including SSRN (https://www.ssrn.com/index.cfm/en/), medRxiv (https://www.medrxiv.org/) and bioRxiv (https://www.biorxiv.org/), as well as reference lists of the identified articles, to find additional studies. This systematic review and meta-analysis followed the PRISMA statements checklist (14).
Inclusion and exclusion criteria
In this study, we included records that focused on chest CT imaging for patients with COVID-19 published or posted in English or Chinese. We included original studies fulfilling the following criteria: (I) the study topic is related to chest CT manifestations during COVID-19 diagnosis, (II) the participants are children or adults who had an eventual confirmed diagnosis of COVID-19 by reverse transcription polymerase chain reaction (RT-PCR) testing, and (III) study design is case series and case report. We excluded studies with insufficient data and no response from the author, and studies for which we could not access the full text.
Selection of studies
Two trained researchers (M Lv and M Wang) screened titles, abstracts, and the full texts of the identified studies independently using Endnote X9 software. Discrepancies were resolved through consultation with a third researcher. We first conducted a pretest with a small sample before the full screening, followed by discussion, to improve the consistency between the reviewers. All reasons for excluding ineligible studies were documented, and the study selection process was documented using a PRISMA flow chart.
Data extraction
Eight researchers (N Yang, X Luo, W Li, X Chen, Y Liu, M Ren, X Zhang and L Wang) were divided into four groups to extract the data and collect the following information for each study: basic information (title, first author, country or region of participants, date of publication/posting and study type), patient information (sample size, female/male ratio, adult/children ratio, age range, mean age), outcome information (primary outcome: sensitivity of chest CT imaging using RT-PCR results as reference; other outcomes, including probability of bilateral or unilateral pneumonia, ground-glass opacities (GGO) and consolidation, number of lobes affected, location of lobe involvement, rounded morphology, linear opacities, crazy-paving pattern, air bronchogram, interlobular septum thickening, pleural thickening, halo sign, reverse halo sign, pleural effusion and lymphadenopathy).
Risk of bias assessment
Two researchers assessed the methodological quality of case series and case reports using the revised checklist form of Murad et al. (15). The Murad et al. checklist contains a total of eight items, grouped into four domains (selection, ascertainment, causality and reporting). A pretest was performed before the formal assessment to ensure that the reviewers understood the criteria and process of evaluation consistently. Disagreements were solved by discussion or consultation with a third researcher.
Data synthesis
We performed a meta-analysis using STATA 15.1. We present data from eligible studies in an evidence table and using descriptive statistics. The percentages of the sensitivity of CT examination and the probability of imaging manifestations in patients with COVID-19 were computed using the metaprop command (Stata) for the meta-analysis of proportions. metaprop allows the inclusion of studies with proportions equal to 0 or 100% and avoids CIs surpassing the 0 to 1 range, where normal approximation procedures often break down. It achieves this by using the binomial distribution to model within-study variability or by allowing Freeman-Tukey double arcsine transformation to stabilize the variances.
We generated forest plots to show the individual and pooled probabilities of positive initial CT examination, their 95% CI and study weights. We conducted subgroup analyses based on case series, and children (≤18 years).
Quality of the evidence assessment
The quality of evidence for each outcome was assessed using the Grading of Recommendations Assessment, Development and Evaluation (GRADE) approach (16,17). The criteria mainly considered included study methodological quality, directness of the evidence, heterogeneity of data, precision of effect estimates, and risk of publication bias (18-22). The quality of evidence for each outcome was graded as high, moderate, low, or very low.
As COVID-19 is a public health emergency of international concern and the situation is evolving rapidly, our study was not registered in order to speed up the process.
Results
Study selection and characteristics
The literature search retrieved 545 records. After the removal of 442 studies not meeting the inclusion criteria, 103 studies with a total of 5,673 participants were eligible for inclusion (Figure 1) (list of included studies see Supplementary material 2). The studies were published between 4 February 2020 and 31 March 2020.
Study characteristics and risk of bias
Of the 103 included studies, 82 were case series and 21 were case reports. Ninety-five studies included cases from China, and one each from Germany, Korea, Italy and the cruise ship “Diamond Princess”. The characteristics of included studies were summarized in Table S1. In 53 of the 103 case series and case reports the overall score was below 50%, indicating a high risk of bias (see Table S2).
Full table
Full table
Performance of chest CT in diagnosing COVID-19
The result of meta-analysis showed that using RT-PCR results as reference, the pooled sensitivity of chest CT imaging of 64 studies with 3,243 COVID-19 patients was 99% (95% CI, 0.97–1.00, I2=85.00%) (Figure 2). The quality of evidence was low.
Subgroup analyses
In a subgroup analysis of 47 case series (excluding the case reports) the sensitivity of chest CT imaging was 96% (95% CI, 0.93–0.99, I2=88.70%) (Figure 3A). The subgroup analysis of sensitivity of chest CT imaging in children based on seven studies was 66% (95% CI, 0.15–1.00, I2=96.74%) (Figure 3B). The quality of evidence was low.
Probability of unilateral/bilateral involvement
Fifty-six studies reported the probability of unilateral involvement. Our meta-analysis showed that the pooled probability of unilateral involvement was 18% (95% CI, 0.13–0.22, I2=77.88%) (Figure 4A). Sixty-seven studies reported the probability of bilateral involvement, and the pooled probability was 84% (95% CI, 0.81–0.88, I2=72.35%) (Figure 4B). The quality of evidence for both outcomes was low.
Probability of lesion density
Seventy-five studies reported the proportion of the patients with GGO. The meta-analysis showed that the probability of GGO was 75% (95% CI, 0.68–0.82, I2=94.32%) (Figure 5A). The pooled probability of consolidation, based on a meta-analysis of 42 studies, was 34% (95% CI, 0.23–0.45, I2=95.80%) (Figure 5B). Fifty studies reported the probability of GGO with consolidation, which was estimated 48% (95% CI, 0.40–0.56, I2=88.98%) in the meta-analysis (Figure 5C). The quality of evidence for all three outcomes was low.
Secondary outcomes
We conducted meta-analyses on the numbers of lobes affected, locations of lobes involved, and a total of 10 other secondary outcomes (Table 1). The quality of evidence for all secondary outcomes was low.
Full table
Discussion
The sensitivity of chest CT imaging in patients with COVID-19 was 99% using RT-PCR results as reference. Therefore, CT scan can be useful in the diagnosis for people with COVID-19. However, the sensitivity of CT in children was 66%, which is much lower than it in general population. The most common imaging manifestation of patients infected with SARS-CoV-2 was GGO with bilateral peripheral distribution. The quality of evidence for almost all findings in our study was low.
Viral nucleic acid detection using RT-PCR is the gold standard in the diagnosis of COVID-19. However, some studies (23,24) reported that some patients had negative RT-PCR results, while their CT imaging features were abnormal. Several studies (25,26) have compared the diagnostic accuracy of chest CT scan and RT-PCR and found that the sensitivity of CT was higher than that of RT-PCR. A case series (25) with 1,014 patients indicated that the sensitivity of chest CT scan for COVID-19 was 97%. Our study results also showed that the sensitivity of chest CT was 99%, which indicates that chest CT scan can effectively capture lung lesions in the early stage, especially in the epidemic areas. However, it is noteworthy that a small part of patients had normal CT imaging. Another systematic review (27) with 356 patients with COVID-19 also showed that 11.5% patients were diagnosed, while their CT imaging were normal, which revealed that CT examination cannot alone reliably fully exclude the diagnosis of COVID-19, notably in the early stage of infection.
Our meta-analysis showed that the most common type of imaging manifestation of patients with COVID-19 was GGO with bilateral peripheral distribution. This is consistent with a review (27), which also showed that the main imaging features in COVID-19 is GGO. The most commonly involved lobe was the right lower lobe, followed by the left lower lobe. Among the other signs, interlobular septum thickening was the most common, followed by rounded morphology and air bronchogram. Reverse halo sign, pleural effusion and lymphadenopathy were also rare. Although the sensitivity of CT scan is high, the specificity of CT in COVID-19 is limited, which need for differential diagnosis with other types of viral pneumonia (28).
Among the included studies, nine described the CT imaging features of children. The result indicated that COVID-19 tends to be mild in most children and the sensitivity of chest CT in children was only 66%. The role of CT in the diagnosis of COVID-19 in children is therefore limited. Some other studies (29,30) also indicated that most child patients had mild symptoms with atypical imaging findings. There is also so far no evidence to explicitly support the role of CT scan for the diagnosis of children with COVID-19. Considering that most children present only mild disease and the other risks in the process of using CT, such as radiation (31,32) and hospital-based transmission (5), it is necessary to balance the advantages and disadvantages of CT use in the process of diagnosis in children with COVID-19.
Our review has several strengths. We performed a comprehensive search including databases and preprint servers and conducted meta-analyses on all main outcomes. The results of our study can thus help to better understand the role of CT imaging and the main CT manifestations in patients with COVID-19. However, this review also has some limitations: (I) though we conducted a systematic search, we only included articles published or posted in English and Chinese, which may introduce publication bias; (II) we only included case series and case reports, cases selection of included studies may introduce bias; (III) due to most of studies conducted in China, some cases may be overlapping between studies; and (IV) there was large heterogeneity between included studies.
Conclusions
In conclusion, this rapid review and meta-analysis indicates that using RT-PCR as reference, the sensitivity of chest CT scan in COVID-19 is 99%, suggesting that CT has the potential to be used as an assisting diagnostic tool. The most common imaging manifestation of patients with COVID-19 is GGO, and the probability of bilateral involvement was 84%. However, the quality of evidence was low across all outcomes. Studies with large sample size and clear reporting are needed in the future to guide the use of CT in the diagnosis and monitoring of patients with COVID-19.
Supplementary
Supplementary material 1 Search strategy
PubMed (n=138)
#1 "COVID-19"[Supplementary Concept]
#2 "Severe Acute Respiratory Syndrome Coronavirus 2"[Supplementary Concept]
#3 "COVID-19"[Title/Abstract]
#4 "SARS-COV-2"[Title/Abstract]
#5 "Novel coronavirus"[Title/Abstract]
#6 "2019-novel coronavirus"[Title/Abstract]
#7 "coronavirus disease-19"[Title/Abstract]
#8 "coronavirus disease 2019"[Title/Abstract]
#9 "COVID19"[Title/Abstract]
#10 "Novel CoV"[Title/Abstract]
#11 "2019-nCoV"[Title/Abstract]
#12 "2019-CoV"[Title/Abstract]
#13 #1-#12/ OR
#14 "Radiography, Thoracic"[Mesh]
#15 "computed tomography"[Title/Abstract]
#16 radiograph*[Title/Abstract]
#17 imagin*[Title/Abstract]
#18 #14-#17/OR
#19 #13 AND #18
EMBASE (n=72)
#1 'COVID-19':ab,ti
#2 'SARS-COV-2':ab,ti
#3 'novel coronavirus':ab,ti
#4 '2019-novel coronavirus':ab,ti
#5 'coronavirus disease-19':ab,ti
#6 'coronavirus disease 2019':ab,ti
#7 'COVID19':ab,ti
#8 'novel cov':ab,ti
#9 '2019-ncov':ab,ti
#10 '2019-cov':ab,ti
#11 #1-#10/ OR
#12 thorax radiography'/exp
#13 'computed tomography':ab,ti
#14 radiograph*:ab,ti
#15 Imagin*:ab,ti
#16 #12-#15/ OR
#17 #11 AND #16
Cochrane Library (n=5)
#1 "COVID-19":ti,ab,kw
#2 "SARS-COV-2":ti,ab,kw
#3 "Novel coronavirus":ti,ab,kw
#4 "2019-novel coronavirus":ti,ab,kw
#5 "Novel CoV":ti,ab,kw
#6 "2019-nCoV":ti,ab,kw
#7 "2019-CoV":ti,ab,kw
#8 "coronavirus disease-19":ti,ab,kw
#9 "coronavirus disease 2019":ti,ab,kw
#10 "COVID19":ti,ab,kw
#11 #1-#10/ OR
#12 MeSH descriptor: [Radiography, Thoracic] explode all trees
#13 "computed tomography":ti,ab,kw
#14 radiograph*:ti,ab,kw
#15 imagin*:ti,ab,kw
#16 #12-#15/ OR
#17 #11 AND #16
Web of Science (n=27)
#1 TOPIC: "COVID-19"
#2 TOPIC: "SARS-COV-2"
#3 TOPIC: "Novel coronavirus"
#4 TOPIC: "2019-novel coronavirus"
#5 TOPIC: "coronavirus disease-19" [Title/Abstract]
#6 TOPIC: "coronavirus disease 2019" [Title/Abstract]
#7 TOPIC: "COVID19" [Title/Abstract]
#8 TOPIC: "Novel CoV"
#9 TOPIC: "2019-nCoV"
#10 TOPIC: "2019-CoV"
#11 #1-#10/ OR
#12 TOPIC: "computed tomography"
#13 TOPIC: "radiograph*"
#14 TOPIC: "imagin*"
#15 "computed tomography"[Title/Abstract]
#16 radiograph*[Title/Abstract]
#17 imagin*[Title/Abstract]
#18 #12-#17/ OR
#19 #11 AND #18
CNKI (n=52)
#1 “新型冠状病毒”[主题]
#2 “2019-nCoV”[主题]
#3 “2019-CoV”[主题]
#4 “COVID-19”[主题]
#5 “COVID 19”[主题]
#6 “SARS-CoV-2”[主题]
#7 #1-#6/ OR
#8 “CT扫描”[主题]
#9 “CAT扫描”[主题]
#10 “电子束计算机断层摄影术”[主题]
#11 “断层摄影术”[主题]
#12 “计算机断层摄影术”[主题]
#13 #8-#12/ OR
#14 #7 AND #13
CBM (n=163)
#1 “新型冠状病毒” [常用字段:智能]
#2 “2019-nCoV”[常用字段:智能]
#3 “2019-CoV”[常用字段:智能]
#4 “COVID-19”[常用字段:智能]
#5 “COVID 19”[常用字段:智能]
#6 “SARS-CoV-2”[常用字段:智能]
#7 #1-#6/ OR
#8 “CT扫描”[常用字段:智能]
#9 “CAT扫描”[常用字段:智能]
#10 “电子束计算机断层摄影术”[常用字段:智能]
#11 “断层摄影术”[常用字段:智能]
#12 “计算机断层摄影术”[常用字段:智能]
#13 #8-#12/ OR
#14 #7 AND #13
WangFang (n=36)
#1 “新型冠状病毒”[主题]
#2 “2019-nCoV”[主题]
#3 “2019-CoV”[主题]
#4 “COVID-19”[主题]
#5 “COVID 19”[主题]
#6 “SARS-CoV-2”[主题]
#7 #1-#6/ OR
#8 “CT扫描”[主题]
#9 “CAT扫描”[主题]
#10 “电子束计算机断层摄影术”[主题]
#11 “断层摄影术”[主题]
#12 “计算机断层摄影术”[主题]
#13 #8-#12/ OR
#14 #7 AND #13
Supplementary material 2 List of included studies
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2. Wang Y, Kong Y, Yu W, et al. Laboratory examination and CT features of family aggregative corona virus disease 2019 patients at first visit. Shaanxi Medical Journal 2020;49:392-6.
3. Li L, Wang K, Ren M, et al. Early chest CT manifestations of COVID-19. Journal of Capital Medical University 2020;41:1-4.
4. Nie W, Feng Z, Mao X, et al. First CT characteristic appearance of patients with coronavirus disease 2019. Journal of Central South University (Medical Science) 2020;45:262-8.
5. Lin Y, Chen L, Li Y, et al. CT appearances and dynamic changes in coronavirus disease 2019. Journal of Wenzhou Medical University 2020:1-10. doi: 10.3969/j.issn.2095-9400.2020.04.002
6. Cheng Z, Li Y, Duan Y, et al. A preliminary study on the dynamic image evolution of chest high resolution CT in patients with mild COVID-19. Chin J Radiol 2020;54. [Epub ahead of print].
7. Zhang S, Li H, Huang S, et al. High-resolution computed tomography features of 17 cases of coronavirus disease 2019 in Sichuan province, China. Eur Respir J 2020;55:2000334.
8. Li K, Fang Y, Li W, et al. CT image visual quantitative evaluation and clinical classification of coronavirus disease (COVID-19). Eur Radiol 2020;1-10. [Epub ahead of print].
9. Tang G, Li C, Liu X, et al. Clinical and CT findings of coronavirus disease 2019. Chinese Journal of Respiratory and Critical Care Medicine 2020;19:161-5.
10. Diao K, Han P, Pang T, et al. The features and longitudinal changes on high-resolution computed tomography for patients with coronavirus disease 2019. Chinese Journal of Respiratory and Critical Care Medicine 2020;166-71.
11. Liu M, Song Z, Xiao K. High-Resolution Computed Tomography Manifestations of 5 Pediatric Patients With 2019 Novel Coronavirus. J Comput Assist Tomogr 2020. [Epub ahead of print].
12. Chen Z, Fan H, Cai J, et al. High-resolution computed tomography manifestations of COVID-19 infections in patients of different ages. Eur J Radiol 2020;126:108972.
13. Zhou Z, Guo D, Li C, et al. Coronavirus disease 2019: initial chest CT findings. Eur Radiol 2020;1-9. [Epub ahead of print].
14. Zhong Z, Hu Y, Yu Q, et al. Multistage CT features of coronavirus disease 2019. Journal of Central South University (Medical Science) 2020;45:250-6.
15. Wang K, Kang S, Tian R, et al. Imaging manifestations and diagnostic value of chest CT of coronavirus disease 2019 (COVID-19) in the Xiaogan area. Clin Radiol 2020;75:341-7.
16. Fu H, Xu H, Zhang N, et al. Association between Clinical Laboratory and CT Characteristics and RT-PCR Results in the Follow-up of COVID-19 patients. medRxiv 2020. doi: https://doi.org/10.1101/2020.03.19.20038315.
17. Zhong Z, Xie X, Huang W, et al. Chest CT findings and clinical features of coronavirus disease 2019 in children. Journal of Central South University (Medical Science) 2020;45:236-42.
18. Guan CS, Lv ZB, Yan S, et al. Imaging Features of Coronavirus disease 2019 (COVID-19): Evaluation on Thin-Section CT. Acad Radiol 2020;27:609-13.
19. Gross A, Thiemig D, Koch FW, et al. CT appearance of severe, laboratory-proven coronavirus disease 2019 (COVID-19) in a Caucasian patient in Berlin, Germany. Rofo 2020;192:476-7.
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27. Hou K, Zhang N, Lee T, et al. CT features of corona virus disease 2019 (COVID-19) in different stages and its correlation with neutrophil-lymphocyte ratio (NLR) and T lymphocyte subsets. Radiologic Practice 2020;35:272-6.
28. Li Q, Peng X, Sun Z, et al. Clinical and imaging characteristics of children with corona virus disease 2019 (COVID-19). Radiologic Practice 2020;35:277-80.
29. Inui S, Fujikawa A, Jitsu M, et al. Chest CT findings in cases from the cruise ship “Diamond Princess” with coronavirus disease 2019 (COVID-19). Radiology: Cardiothoracic Imaging 2020;2:e200110.
30. Ding Y, Huang Z, Zhao S, et al. Clinical and imaging characteristics of corona virus disease 2019 (COVID-19). Radiologic Practice 2020;35:281-5.
31. Chen Z, Li Z, Zhang X, et al. Clinical manifestations and CT characteristics of corona virus disease 2019 (COVID-19). Radiologic Practice 2020;35:286-90.
32. Lu T, Pu H. Computed Tomography Manifestations of 5 Cases of the Novel Coronavirus Disease 2019 (COVID-19) Pneumonia From Patients Outside Wuhan. J Thorac Imaging 2020;35:W90-W93.
33. Zhao W, Zhong Z, Xie X, et al. CT Scans of Patients with 2019 Novel Coronavirus (COVID-19) Pneumonia. Theranostics 2020;10:4606-13.
34. Cheng Z, Lu Y, Cao Q, et al. Clinical Features and Chest CT Manifestations of Coronavirus Disease 2019 (COVID-19) in a Single-Center Study in Shanghai, China. AJR Am J Roentgenol 2020:1-6. [Epub ahead of print].
35. Shi F, Yu Q, Huang W, et al. 2019 Novel Coronavirus (COVID-19) Pneumonia with Hemoptysis as the Initial Symptom: CT and Clinical Features. Korean J Radiol 2020;21:537-40.
36. Yang W, Weng Q, Xiao Y, et al. CT findings and clinical features of COVID-19 in 8 patients with foreign - imported cluster disease. Chinese Journal of Radiology 2020. doi: 10.3760/cma.j.cn112149-20200306-00333.
37. Liu KC, Xu P, Lv WF, et al. CT manifestations of coronavirus disease-2019: A retrospective analysis of 73 cases by disease severity. Eur J Radiol 2020;126:108941.
38. Liu H, Liu F, Li J, et al. Clinical and CT imaging features of the COVID-19 pneumonia: Focus on pregnant women and children. J Infect 2020;80:e7-e13.
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41. An P, Song P, Lian K, et al. CT Manifestations of Novel Coronavirus Pneumonia: A Case Report. Balkan Med J 2020;37:163-5.
42. Xia W, Shao J, Guo Y, et al. Clinical and CT features in pediatric patients with COVID-19 infection: Different points from adults. Pediatr Pulmonol 2020;55:1169-74.
43. Zhou S, Wang Y, Zhu T, et al. CT Features of Coronavirus Disease 2019 (COVID-19) Pneumonia in 62 Patients in Wuhan, China. AJR Am J Roentgenol 2020:1-8. [Epub ahead of print].
44. Zhang Y, Li W, Gao W, et al. Thin-Section CT features in adult patients with novel coronavirus pneumonia. Shandong Medical Journal 2020;60:86-9.
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48. Zhao W, Zhong Z, Xie X, et al. Relation Between Chest CT Findings and Clinical Conditions of Coronavirus Disease (COVID-19) Pneumonia: A Multicenter Study. AJR Am J Roentgenol 2020;214:1072-7.
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53. Cao J, Zhou J, Liao X, et al. Clinical features and CT findings of elderly patients with novel coronavirus pneumonia. Medical Journal of Wuhan University 2020. doi: 10.14188/j.1671-8852.2020.0087
54. Feng Y, Yuan L, Zheng C, et al. Practical application of CT and nucleic acid detection in the diagnosis of COVID-19. Guangdong Medical Journal 2020;41:440-3.
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58. Li X, Wang H, Zhu J, et al. Imaging dynamic observation of COVID-19 patients cured by imported coronavirus pneumonia. Chinese Journal of Radiology 2020;54. [Epub ahead of print].
59. Yu X, Ye H, Yang S, et al. Chest CT features of COVID-19. The Journal of Practical Medicine 2020. [Epub ahead of print]. Available online: http://kns.cnki.net/kcms/detail/44.1193.R.20200225.1621.002.html
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Acknowledgments
We thank Janne Estill, Institute of Global Health of University of Geneva for providing guidance and comments for our review. We thank all the authors for their wonderful collaboration.
Funding: This work was supported by grants from National Clinical Research Center for Child Health and Disorders (Children’s Hospital of Chongqing Medical University, Chongqing, China) (grant number NCRCCHD-2020-EP-01) to EL; Special Fund for Key Research and Development Projects in Gansu Province in 2020 to YC; The fourth batch of “Special Project of Science and Technology for Emergency Response to COVID-19” of Chongqing Science and Technology Bureau to EL; Special funding for prevention and control of emergency of COVID-19 from Key Laboratory of Evidence Based Medicine and Knowledge Translation of Gansu Province (grant number No. GSEBMKT-2020YJ01) to YC. The Fundamental Research Funds for the Central Universities (lzujbky-2020-sp14) to YC.
Footnote
Reporting Checklist: The authors have completed the PRISMA reporting checklist. Available at http://dx.doi.org/10.21037/atm-20-3311
Conflicts of Interest: All authors have completed the ICMJE uniform disclosure form (available at http://dx.doi.org/10.21037/atm-20-3311). MSL serves as the unpaid editorial board member of Annals of Translational Medicine from Nov 2019 to Oct 2021. The other authors have no conflicts of interest to declare.
Ethical Statement: The authors are accountable for all aspects of the work in ensuring that questions related to the accuracy or integrity of any part of the work are appropriately investigated and resolved.
Open Access Statement: This is an Open Access article distributed in accordance with the Creative Commons Attribution-NonCommercial-NoDerivs 4.0 International License (CC BY-NC-ND 4.0), which permits the non-commercial replication and distribution of the article with the strict proviso that no changes or edits are made and the original work is properly cited (including links to both the formal publication through the relevant DOI and the license). See: https://creativecommons.org/licenses/by-nc-nd/4.0/.
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