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Low-dose corticosteroid therapy does not delay viral clearance in patients with COVID-19

2020; Elsevier BV; Volume: 81; Issue: 1 Linguagem: Inglês

10.1016/j.jinf.2020.03.039

1532-2742

Xiaowei Fang, Qing Mei, Tianjun Yang, Lei Li, Yinzhong Wang, Fei Tong, Shike Geng, Aijun Pan,

Inflammasome and immune disorders

Since December 2019, Corona Virus Disease 2019 (COVID-19) cases have occurred in Wuhan, Hubei.1Chen J. Qi T.K. Liu L. Ling Y. Qian Z.P. Li T. et al.Clinical progression of patients with COVID-19 in Shanghai, China.J Infect. 2020; (PMID: 32171869)Abstract Full Text Full Text PDF Scopus (539) Google Scholar The epidemic spread rapidly to other regions outside of China and had a great impact on public health and the economy. To the best of our knowledge, no specific antiviral treatment for COVID-19 has been confirmed so far. A recent study demonstrated that cytokine storm syndrome is associated with the severity of COVID-19.2Huang C. Wang Y. Li X. Ren L. Zhao J. Hu Y. et al.Clinical features of patients infected with 2019 novel coronavirus in Wuhan, China.Lancet. 2020; 395 (PMID: 31986264): 497-506Abstract Full Text Full Text PDF PubMed Scopus (32455) Google Scholar Due to their anti-inflammatory and immunoregulatory properties, corticosteroids have been widely used in China for the treatment of patients with COVID-19, especially in cases with secondary acute respiratory distress syndrome (ARDS). Furthermore, China's National Health Commission has released a Diagnosis and Treatment Scheme for Pneumonitis with COVID-19 Infection.3National Health Commission of the People's Republic of China. The 5th trial version of Diagnosis and Treatment Scheme for Pneumonitis with 2019-nCoV Infection (In Chinese). [cited 2020 Mar 20]. Available from: http://www.nhc.gov.cn/yzygj/s7653p/202002/d4b895337e19445f8d728fcaf1e3e13a.shtml (2020).Google Scholar According to this, systemic corticosteroid therapy (methylprednisolone, 0.99Days from onset of symptoms to hospitalization, median (Q1, Q3)7 (4, 7.5)5 (3, 7)0.3056.39±3.98.3±3.60.429SOFA score, median (Q1, Q3)///2.0 (0, 2.8)2.0 (1.0, 3.0)0.702ARDS, n (%)00/8 (50)1 (14.3)0.176Comorbidities Hypertension, n (%)1 (11.1)4 (8.7)>0.998 (50)2 (28.6)0.405 Diabetes, n (%)1 (11.1)3 (6.5)0.5224 (25)00.273 Coronary heart disease, n (%)01 (2.2)>0.992 (12.5)0>0.99 Cerebrovascular disease, n (%)00/2 (12.5)1 (14.3)>0.99 Chronic kidney disease, n (%)02 (4.3)>0.991 (6.3)0>0.99 Chronic liver disease, n (%)2 (22.2)1 (2.2)0.06600/ Malignant tumor, n (%)01 (2.2)>0.9900/ Immunosuppressive, n (%)01 (2.2)>0.9900/WBC count (x109/L), median (Q1, Q3)4.6 (4.0, 5.5)4.9 (3.9, 6.0)6.5 (5.5, 10.6)5.4 (4.8, 11.9)0.789Lymphocyte count (x109/L), median (Q1, Q3)0.89 (0.84, 1.38)1.33 (1.16, 1.79)0.0620.62 (0.37, 0.98)1.14 (0.73, 1.36)0.082CRP (mg•/L), median (Q1, Q3)22.1 (8.9, 36.4)4.2 (0.7, 16.6)0.09147.8 (30.0, 102.3)23.5 (8.5, 72.0)0.124PCT 0.99PT (s), median (Q1, Q3)14 (13.6, 15.3)14.4 (13.4, 16.2)0.79314.3 (13.0, 15.0)14.1 (13.7, 14.6)0.894APTT (s), median (Q1, Q3)38.7 (35.3, 42.0)37.1 (34.6, 42.9)0.64935 (30.2, 39.5)36.7 (27.4, 38.8)0.462D-Dimer (µg/ml), median (Q1, Q3)0.25 (0.2, 0.29)0.18 (0.08, 0.25)0.090.45 (0.25, 0.62)0.22 (0.19, 0.63)0.452Troponin I (µg/L), median (Q1, Q3)0.08 (0.07, 0.11)0.08 (0.06, 0.19)0.900.31 (0.09, 0.56)0.12 (0.1, 0.44)0.72Total bilirubin (µmol/L), median (Q1, Q3)14.5 (12.6, 23.3)14.9 (11.3, 19.3)0.83817.1 (15.3, 21.4)17.1 (11.1, 19.4)0.452Albumin (g/L), median (Q1, Q3)44.2 (41.0, 45.0)44.9 (41.3, 47.7)0.84735.2 (32.9, 37.4)39.3 (36.8, 42.2)0.022Creatinine (µmol/L), median (Q1, Q3)66 (58, 71)71 (60, 81)0.05274.0 (54.0, 82.0)68 (59, 76)0.82Antiviral therapy Lopinavir/Ritonavir only, n (%)7 (77.8)37 (80.4)0.7854 (25.0)3 (42.9)0.626 Lopinavir/Ritonavir+IFN-α inhalation, n (%)2 (22.2)9 (19.6)12 (75.0)4 (57.1) TCM, n (%)3 (33.3)19 (41.3)0.94116 (100)6 (85.7)0.304Methylprednisolone Oral, n (%)9 (100)//0// Intravenous, n (%)0//16 (100)//Duration of corticosteroid treatment (days), median (Q1, Q3)7 (5.5, 8.0)//4.5 (3.0, 5.8)//Total dose of methylprednisolone (mg), median (Q1, Q3)280 (220, 360)//160 (120, 240)//Dose of methylprednisolone per day (mg), median (Q1, Q3)38 (33, 48)//40 (40, 40)//Time to SARS-CoV-2 RNA clearance (days), mean ± SD17.6±4.918.7±7.70.66718.8±5.318.3±4.20.84WBC white blood cell, CRP C-reaction protein, PCT Procalcitonin, TCM Traditional Chinese Medicine, PT prothrombin time, APTT Activated partial thromboplastin time Open table in a new tab WBC white blood cell, CRP C-reaction protein, PCT Procalcitonin, TCM Traditional Chinese Medicine, PT prothrombin time, APTT Activated partial thromboplastin time There has been controversy regarding whether corticosteroid use may delay viral clearance in patients with viral pneumonia for a long time. Initially, this phenomenon was observed in studies investigating severe acute respiratory syndrome and Middle East respiratory syndrome coronavirus (MERS).4Lee N. Allen Chan K.C. Hui D.S. Ng E.K. Wu A. Chiu R.W. et al.Effects of early corticosteroid treatment on plasma SARS-associated Coronavirus RNA concentrations in adult patients.J Clin Virol. 2004; 31 (PMID: 15494274): 304-309Crossref PubMed Scopus (485) Google Scholar,5Arabi Y.M. Mandourah Y. Al-Hameed F. Sindi A.A. Al Mekhlafi G.A. Hussein M.A. et al.Corticosteroid Therapy for Critically Ill Patients with the Middle East Respiratory Syndrome.Am J Respir Crit Care Med. 2018; 197 (PMID: 29161116): 757-767Crossref PubMed Scopus (829) Google Scholar However, the dose of corticosteroids may have a significant impact on the results. An observational study by Cao on influenza A (H7N9) viral pneumonia has demonstrated that high doses of corticosteroids (>150 mg/d methylprednisolone) are associated with increased risks of mortality and delayed viral clearance, while there was no difference between patients in the low-dose group (25–150 mg/d methylprednisolone) and controls.6Cao B. Gao H. Zhou B. Deng X. Hu C. Deng C. et al.Adjuvant corticosteroid treatment in adults with influenza A (H7N9) viral pneumonia.Crit Care Med. 2016; 44 (PMID: 26934144): e318-e328Crossref PubMed Scopus (127) Google Scholar In the present study, all 25 patients were treated with low-dose corticosteroids, and the conclusions were similar to those of Cao. In another retrospective observational study reporting on patients with MERS who were critically-ill, nearly half of the enrolled patients received low-dose corticosteroids [median hydrocortisone-equivalent dose, 300.0 mg/day (IQR, 200.0-400.0 mg/day)].5Arabi Y.M. Mandourah Y. Al-Hameed F. Sindi A.A. Al Mekhlafi G.A. Hussein M.A. et al.Corticosteroid Therapy for Critically Ill Patients with the Middle East Respiratory Syndrome.Am J Respir Crit Care Med. 2018; 197 (PMID: 29161116): 757-767Crossref PubMed Scopus (829) Google Scholar When compared with the cases who were not treated with corticosteroids, the authors concluded that the administration of corticosteroids was associated with delayed viral clearance. Unlike in the study reporting on MERS, the patients enrolled in the present study exhibited an improved health status. Even in patients in the severe group, the SOFA score on the first day of admission was much lower than that of patients with MERS [2.0 (IQR, 0-2.8) vs. 9.0 (IQR, 6.0-12.0)].5Arabi Y.M. Mandourah Y. Al-Hameed F. Sindi A.A. Al Mekhlafi G.A. Hussein M.A. et al.Corticosteroid Therapy for Critically Ill Patients with the Middle East Respiratory Syndrome.Am J Respir Crit Care Med. 2018; 197 (PMID: 29161116): 757-767Crossref PubMed Scopus (829) Google Scholar Therefore, these two studies involved patients with different severities of illness; however, whether corticosteroids exerted greater effects in critically-ill patients requires further investigation. Furthermore, the study reporting on patients with MERS included RT-PCR data from 14 intensive care units, and the nucleic acid test results were not protocolized and varied among centers.5Arabi Y.M. Mandourah Y. Al-Hameed F. Sindi A.A. Al Mekhlafi G.A. Hussein M.A. et al.Corticosteroid Therapy for Critically Ill Patients with the Middle East Respiratory Syndrome.Am J Respir Crit Care Med. 2018; 197 (PMID: 29161116): 757-767Crossref PubMed Scopus (829) Google Scholar In the present study, all patients were from a single center, and all swab samples were tested using a unified approach at the Chinese Center for Disease Control to avoid measurement bias. In fact, a similar study analyzing data from 72 patients with COVID-19 was conducted at the First Affiliated Hospital of Zhejiang University, and the conclusions were consistent with the results of the present study.7Ni Q. Ding C. Li Y.T. Zhao H. Liu J. Zhang X. et al.Retrospective study of low-to-moderate dose glucocorticoids on viral clearance in patients with novel coronavirus pneumonia.Chin J Clin Infect Dis. 2020; 13 (2020-02-28[cited 2020 Mar 20]. Available from)http://rs.yiigle.com/yufabiao/1182773.htmGoogle Scholar However, these two retrospective studies have unavoidable limitations, such as small sample size, poor controllability of the data and bias in the process of data collection. In conclusion, low-dose corticosteroid therapy may not delay viral clearance in patients with COVID-19; however, this still needs to be confirmed by well-designed and large-scale RCTs with a longer follow-up duration. The authors declare that they have no competing interests. Ethics approval was obtained from Anhui Provincial Hospital Institutional Review Board (ethical approval no. 2020-P-008). All the authors agree to publish. We thank all medical staff working in the Infectious Diseases Branch of Anhui Provincial Hospital for their essential assistance with case collection. This research did not receive any specific grant from funding agencies in the public, commercial, or not-for-profit sectors.