Literature DB >> 32372026

Impact of corticosteroid therapy on outcomes of persons with SARS-CoV-2, SARS-CoV, or MERS-CoV infection: a systematic review and meta-analysis.

Huan Li^1,2, Chongxiang Chen^2,3, Fang Hu¹, Jiaojiao Wang⁴, Qingyu Zhao², Robert Peter Gale⁵, Yang Liang⁶.

Abstract

We performed a meta-analysis to determine safety and efficacy of corticosteroids in SARS-CoV-2, SARS-CoV, and MERS-CoV infections. We searched PubMed, Web of Science, Medline, WanFang Chinese database, and ZhiWang Chinese database using Boolean operators and search terms covering SARS-CoV-2, SARS-CoV, OR MERS-CoV AND corticosteroids to find appropriate studies. Review Manager 5.3 was used to analyze results of meta-analysis. Observational studies were analyzed for quality using the modified Newcastle-Ottawa scale and randomized clinical trials, using the Jadad scale. Subjects were divided into those with severe-only and other (severe and not severe) cohorts based on published criteria. Efficacy endpoints studied included mortality, hospitalization duration, rates of intensive care unit (ICU) admission, use of mechanical ventilation, and a composite endpoint (death, ICU admission, or mechanical ventilation). We included 11 reports including 10 cohort studies and 1 randomized clinical trial involving 5249 subjects (2003-2020). Two discussed the association of corticosteroids and virus clearing and 10 explored how corticosteroids impacted mortality, hospitalization duration, use of mechanical ventilation, and a composite endpoint. Corticosteroid use was associated with delayed virus clearing with a mean difference (MD) = 3.78 days (95% confidence Interval [CI] = 1.16, 6.41 days; I2 = 0%). There was no significant reduction in deaths with relative Risk Ratio (RR) = 1.07 (90% CI = 0.81; 1.42; I2 = 80%). Hospitalization duration was prolonged and use of mechanical ventilation increased. In conclusion, corticosteroid use in subjects with SARS-CoV-2, SARS-CoV, and MERS-CoV infections delayed virus clearing and did not convincingly improve survival, reduce hospitalization duration or ICU admission rate and/or use of mechanical ventilation. There were several adverse effects. Because of a preponderance of observational studies in the dataset and selection and publication biases our conclusions, especially regarding SARS-CoV-2, need confirmation in a randomized clinical trial. In the interim we suggest caution using corticosteroids in persons with COVID-19.

Entities: Chemical

Mesh：

Substances：
Adrenal Cortex Hormones

Year: 2020 PMID： 32372026 PMCID： PMC7199650 DOI： 10.1038/s41375-020-0848-3

Source DB: PubMed Journal: Leukemia ISSN： 0887-6924 Impact factor: 11.528

Introduction

In December 2019, Wuhan, Hubei province, China, became the epicenter of a pandemic caused by severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) [1] which causes coronavirus infectious disease-2019 (COVID-19). About 15% of cases of COVID-19 become severe [2]. About one-half of hospitalized persons with COVID-19 treated in the intensive care unit (ICU) receive corticosteroids versus 10–20% of hospitalized, non-ICU persons [3, 4]. There are several reports of using corticosteroids in the setting of severe coronavirus infections including SARS-CoV-2, severe acute respiratory syndrome (SARS) and Middle East respiratory syndrome (MERS). There are few data on safety and efficacy of corticosteroids in COVID-19 and its use in SARS and MERS infections is controversial [5, 6]. SARS-CoV-2, SARS-CoV, and MERS-CoV shares many genetic features and SARS-CoV-2 is highly homologous to SARS-CoV [7]. Reports of efficacy of corticosteroid in some persons with SARS-CoV infections have resulted in widespread use of this therapy to treat COVID-19, especially for persons with severe infection hospitalized in the ICU. Presently, there are few data on safety and efficacy of corticosteroids in this setting [2, 8–10]. Because of the overlapping genetic and clinical feature of SARS-CoV-2, SARS-CoV, and MERS-CoV, we performed a meta-analysis of safety and efficacy of corticosteroid use in these coronavirus infections.

Methods

Our meta-analysis focus on the effects of corticosteroids on virus clearing and mortality in persons infected with SARS-CoV-2, SARS-CoV, or MERS-CoV. We searched PubMed, Web of Science, Medline, Chinese database WanFang, and ZhiWang using the terms: “coronavirus,” OR “COVID-19,” OR “2019-nCoV,” OR “SARS-CoV-2” OR “severe acute respiratory syndrome,” OR “Middle East respiratory syndrome,” OR “SARS,” OR “MERS” AND “corticosteroid” OR “glucocorticoid,” “hydrocortisone” OR “methylprednisolone” OR “dexamethasone” OR “steroid” with these Boolean operators. Searches were done on March 20, 2020. Two investigators independently reviewed the identified abstracts and selected articles for full review. Discordances were resolved by a third investigator. We identified 8788 publications. We next excluded 2057 duplicate reports. The remaining 6731 publications were scanned by 3 investigators who identified 159 articles relevant publications after considering title and abstract. In total, 11 publications met our selection criteria, 10 cohort studies [2, 8–16] and 1 randomized clinical trial [6]. We excluded studies from same geographical region to avoid duplication. Because most studies were observational the possibility of duplicate reporting was addressed by deleting small studies from the same geographical region. Publication flow and reasons for exclusions are displayed in Fig. 1 using PRIZMA flow diagram.

Fig. 1

Flow diagram of choosing the appropriated articles.

Inclusion and exclusion criteria

Inclusion criteria included: (1) research articles including observational studies and clinical trials but excluding reviews or case reports on the use of corticosteroids in persons with SARS-CoV-2, SARS-CoV, and MERS-CoV infections; (2) reported outcomes of virus clearance and/or death; and (3) published in English and/or Chinese. Studies with insufficient data were excluded.

Covariates studied

For each selected publication the following were extracted: (1) 1st author; (2) publication year; (3) country; (4) sample size; (5) subject-related covariates; (6) dose and duration of corticosteroid treatment; and (7) dose of corticosteroids. These data are displayed in Table 1. Primary outcome measures were rate of virus clearing and death. Secondary outcomes were duration of hospitalization, use of mechanical ventilation, composite endpoint, and corticosteroid use between severe-only and nonsevere subjects. The study used anonymized, published data requiring no Ethics Committee approval.

Table 1

Baseline covariates of included studies.

Study	Type	Country	NOS score/ Jaded score	Site	Age (A vs. B)	N (A vs. B)	Deaths (A vs. B)	Virus	Follow-up	Dose and duration	Dose calculation
Arabi [16]	Observational	Saudi Arabia;	NOS score: 9	Multi-center	58 ± 17; 55 ± 17	151; 158	112; 91	MERS-CoV	90 days	Median maximum dose: 300 mg; Median duration: 7 days (4–14 days)	Hydrocortisone-equivalent doses.
Chen [15]	Observational	Guangzhou, Guangdong, China	NOS score: 7	Single center	33 ± 12 for survivors; 54 ± 16 for nonsurvivors	268; 133	18; 7	SARS-CoV	Hospital stay	Mean dose of critical patients (133.5 ± 102.3 mg/day) Mean dose of noncritical patients (105.3 ± 86.1 mg/day) Median accumulated dose of critical patients: 2470.48; Median accumulated dose of noncritical patients: 1372.18;	Methylprednisolone-equivalent equivalents.
Guan [2]	Observational	Guangzhou, Guangdong, China	NOS score: 5	Multi-center	Composite endpoint Yes: 63 (53–71); No: 46 (35–57)	204; 895	/	SARS-CoV-2	Midpoint mortality	/	/
Jia [12]	Observational	Guangzhou, Guangdong, China	NOS score: 7	Single center	40 ± 16.5 42 ± 17	134; 91	56; 38	SARS-CoV	Hospital stay	Mean accumulated dose: 1472.82 mg; Mean daily dose: 95.92 mg/day Mean duration: 11.2 days	Methylprednisolone-equivalent equivalents.
Lee [6]	RCT	China	Jadad Score: 4	Two centers	Mean age: 35 vs. 24	9; 7	/	SARS-CoV	/	/	/
Wang [14]	Observational	Beijing, China	NOS score: 7	Multi-center	37 ± 15; 36 ± 17	1084; 207	106; 15	SARS-CoV	Hospital stay	Initial dose: 154 ± 110 mg/day Maximum dose: 251 ± 213 mg/day; Cumulative dose: 2887 ± 2619	Methylprednisolone-equivalent equivalents.
Wang [13]	Observational	Shanxi, China	NOS score: 7	Multi-center	32 ± 16; 37 ± 17	49; 245	0; 13	SARS-CoV	Hospital stay	/	/
Wu [10]	Observational	Wuhan, China	NOS score: 7	Single center	50 (40–57) for survivors; 68.5 (59–75) for nonsurvivors	50; 34	23; 21	SARS-CoV-2	Hospital stay	/	/
Yam [11]	Observational	Hong Kong, China	NOS score: 7	Multi-center	Corticosteroid (prednisolone: 34 (26–47); methylprednisolone: 39 (29–48); hydrocortisone: 40 (31–52) Pulse corticosteroid: 47 (32–72)) Control: 61 (40–81)	1188; 99	202; 28	SARS-CoV	Hospital stay	Median cumulative doses (prednisolone: 7020 mg; methylprednisolone: 11,350 mg; hydrocortisone: 13,200 mg; pulse corticosteroid: 17,560 mg) Median duration (prednisolone: 15 days; methylprednisolone: 21 days; hydrocortisone: 19 days; pulse corticosteroid: 19 days)	Hydrocortisone-equivalent doses.
Yang [8]	Observational	Wuhan, China	NOS score: 7	Single center	52 ± 13 for survivors; 65 ± 11 for nonsurvivors	30; 22	16; 16	SARS-CoV-2	28 days	/	/
Zhou [9]	Observational	Wuhan, China	NOS score: 7	Two centers	52 (45–58) for survivors; 69 (63–76) for nonsurvivors	57; 134	26; 28	SARS-CoV-2	Hospital stay	/	/

Converted to hydrocortisone-equivalent doses: (methylprednisolone 1:5, dexamethasone 1:25, prednisolone 1:4). All the steroid types were converted to hydrocortisone equivalent based on relative glucocorticoid activities in the following ratios: 4 mg methylprednisolone = 5 mg prednisolone = 20 mg hydrocortisone.

A corticosteroid, B control, NOS Newcastle–Ottawa scale, RCT randomized controlled trial, MERS Middle East respiratory syndrome coronavirus, SARS-CoV severe acute respiratory syndrome coronavirus, SARS-CoV-2 severe acute respiratory syndrome coronavirus-2.

Baseline covariates of included studies. 58 ± 17; 55 ± 17 151; 158 112; 91 Median maximum dose: 300 mg; Median duration: 7 days (4–14 days) 33 ± 12 for survivors; 54 ± 16 for nonsurvivors 268; 133 18; 7 Mean dose of critical patients (133.5 ± 102.3 mg/day) Mean dose of noncritical patients (105.3 ± 86.1 mg/day) Median accumulated dose of critical patients: 2470.48; Median accumulated dose of noncritical patients: 1372.18; Composite endpoint Yes: 63 (53–71); No: 46 (35–57) 204; 895 40 ± 16.5 42 ± 17 134; 91 56; 38 Mean accumulated dose: 1472.82 mg; Mean daily dose: 95.92 mg/day Mean duration: 11.2 days Mean age: 35 vs. 24 9; 7 37 ± 15; 36 ± 17 1084; 207 106; 15 Initial dose: 154 ± 110 mg/day Maximum dose: 251 ± 213 mg/day; Cumulative dose: 2887 ± 2619 32 ± 16; 37 ± 17 49; 245 0; 13 50 (40–57) for survivors; 68.5 (59–75) for nonsurvivors 50; 34 23; 21 Corticosteroid (prednisolone: 34 (26–47); methylprednisolone: 39 (29–48); hydrocortisone: 40 (31–52) Pulse corticosteroid: 47 (32–72)) Control: 61 (40–81) 1188; 99 202; 28 Median cumulative doses (prednisolone: 7020 mg; methylprednisolone: 11,350 mg; hydrocortisone: 13,200 mg; pulse corticosteroid: 17,560 mg) Median duration (prednisolone: 15 days; methylprednisolone: 21 days; hydrocortisone: 19 days; pulse corticosteroid: 19 days) 52 ± 13 for survivors; 65 ± 11 for nonsurvivors 30; 22 16; 16 52 (45–58) for survivors; 69 (63–76) for nonsurvivors 57; 134 26; 28 Converted to hydrocortisone-equivalent doses: (methylprednisolone 1:5, dexamethasone 1:25, prednisolone 1:4). All the steroid types were converted to hydrocortisone equivalent based on relative glucocorticoid activities in the following ratios: 4 mg methylprednisolone = 5 mg prednisolone = 20 mg hydrocortisone. A corticosteroid, B control, NOS Newcastle–Ottawa scale, RCT randomized controlled trial, MERS Middle East respiratory syndrome coronavirus, SARS-CoV severe acute respiratory syndrome coronavirus, SARS-CoV-2 severe acute respiratory syndrome coronavirus-2.

Risk of bias

The methodological quality of retrospective studies was assessed by the modified Newcastle–Ottawa scale (NOS) [17, 18] which consists of three domains: (1) subject selection; (2) comparability of the study groups; and (3) assessment of outcome(s). A score of 0–9 was allocated to each study except the randomized clinical trial. We considered observational studies with an NOS score ≥6 high quality. We included 1 study with an NOS score of 5 because of a large sample size (>1000 subjects) but performed sensitivity analyses excluding this study. Risk of bias in the randomized clinical trial was assessed according to the Jadad scale in the following domains: (1) random sequence generation; (2) allocation concealment; (3) blinding of participants and personnel; and (4) completed withdrawals and dropouts.

Statistical analyses

We pooled data and used Risk Ratios (RR) with 90 or 95% confidential Intervals (CI) for dichotomous outcomes including (1) death; and (2) the composite endpoint (death, ICU admission, or mechanical ventilation). We also used RR with 95% CI for dichotomous outcomes including (1) use of mechanical ventilation; and (2) corticosteroid application between severe-only and nonsevere subjects. If a study considered these as separate outcomes, we used death as the endpoint. Subgroup analyses divided by severity of disease were performed for these two types of outcomes. Definitions of severity of SARS used SARS guidelines of the Ministry of Public Health of China with a blood arterial oxygenation index < 300 mm Hg [15]. Severity of COVID-19 was based on American Thoracic Society guidelines [19]. We used mean difference (MD) and 95% CI for the continuous outcome including days to SARS-CoV-2 clearing, duration of hospitalization. Funnel plots were used to screen for potential publication bias. Statistical analyses used Review Manager 5.3 (The Cochrane Collaboration). Some studies [2, 11, 14, 15] identified subjects with nonsevere infection which we analyzed separately.

Results

The meta-analysis included 10 observational studies and 1 randomized clinical trials involving 5249 subjects. In three studies the publication language was Chinese [12-14] and six, English [2, 6, 8–11, 15, 16]. Six studies discussed SARS [6, 11–15], four, COVID-19 [2, 8–10] and one, MERS [16]. Studies were published 2003–2020 and were conducted in China (Guangzhou [2, 15], Beijing [14], Shanxi [13], Hong Kong [6, 11], Wuhan [8-10]) and Saudi Arabia [16]. The Jadad scale of the randomized clinical trial was 4 and NOS scores of the observational studies was 5–9. One study was considered poor quality evidence because of brief follow-up (Table 1).

Virus clearing

To test the impact of corticosteroid use on virus clearing we included 2 studies [6, 16] of 81 subjects (SARS, N = 16; MERS, N = 65). The data indicate corticosteroid use delayed virus clearing (MD 3.78 days, 95% confidence interval [CI], 1.16, 6.41 days; I2 = 0%; Fig. 2).

Fig. 2

The effect of corticosteroid on virus clearness.

Comparison of virus clearness between corticosteroid and comparator.

The effect of corticosteroid on virus clearness.

Comparison of virus clearness between corticosteroid and comparator.

Risk of death

To test impact of corticosteroid use on risk of death, we included 8 studies [8–11, 13–16] involving 3909 subjects (COVID-19; N = 327; SARS, N = 3273; MERS, N = 309). The data indicate corticosteroid did not significantly reduce risk of death (RR = 1.07 [90% CI, 0.81, 1.42; I2 = 80%]). To address heterogeneity we divided subjects into severe-only and other. RRs for severe-only and other cohorts were RR = 0.92 (0.64, 1.32; I2 = 81%) and RR = 1.30 (0.75, 2.26; I2 = 83%; Fig. 3).

Fig. 3

The impact of corticosteroid on the mortality of studied subjects.

Comparison of mortality between corticosteroid and comparator.

The impact of corticosteroid on the mortality of studied subjects.

Comparison of mortality between corticosteroid and comparator.

Duration of hospitalization

To test impact of corticosteroid use on duration of hospitalization we included 3 studies [12, 13, 16] involving 828 subjects (SARS, N = 519; MERS, N = 309). The data indicate corticosteroid use increased duration of hospitalization with MD = 9.66 days (95% CI, 5.15, 14.18 days); I2 = 85%; Fig. 4. We were unable to further analyze this endpoint by cohorts because of our study design.

Fig. 4

The association of corticosteroid and hospital stay length.

Comparison of hospital stay time between corticosteroid and comparator.

The association of corticosteroid and hospital stay length.

Comparison of hospital stay time between corticosteroid and comparator.

Use of mechanical ventilation

To test impact of corticosteroid use on use mechanical ventilation we included 3 studies [11, 14, 16] involving 2887 subjects (COVID-19, N = 2578; MERS, N = 309). The data indicate corticosteroid use is not associated with use of mechanical ventilation, RR = 1.33 (95% CI, 0.73, 2.42; I2 = 70%; Fig. 5). We were unable to determine whether subjects began receiving corticosteroids before or after use of mechanical ventilation because of our study design.

Fig. 5

The correlation between corticosteroid and invasive ventilation.

Comparison of the incidence of invasive ventilation between corticosteroid and comparator.

The correlation between corticosteroid and invasive ventilation.

Comparison of the incidence of invasive ventilation between corticosteroid and comparator.

Composite endpoint

To test impact of corticosteroid use on the composite endpoint we included 9 studies [2, 8–11, 13–16] involving 5008 subjects (COVID-19, N = 1426; SARS, N = 3273; MERS, N = 309). The data indicate no improvement with corticosteroid use RR = 1.31 (0.92, 1.88; I2 = 89%). RRs for the severe-only and other cohorts were RR = 0.92 (0.64, 1.32; I2 = 81%) and RR = 1.73 (0.90, 3.31; I2 = 91%; Supplementary Fig. 1).

Comparison of corticosteroid use between severe-only and nonsevere subjects

To determine if corticosteroid use was more common in subjects with severe versus nonsevere infections we compared frequency of use in these cohorts. We included 4 studies [2, 11, 14, 15] involving 4078 subjects (SARS, N = 2979; COVID-19, N = 1099). The data indicate subjects with severe-only coronavirus infections were more likely receive corticosteroids with an RR = 1.48 (95% CI, 1.03, 2.13; I2 = 99%; Supplementary Fig. 2).

Publication bias

We found potential publication bias in mortality studies in subjects receiving or not receiving corticosteroids with some studies falling outside the 95% CI of the funnel plat (Supplementary Fig. 3). There was publication bias in the studies included in the meta-analysis.

Discussion

SARS-CoV, MERS-CoV, and SARS-CoV-2 induce host immune responses which, when severe, damage the lungs and cause death [3, 20, 21]. Corticosteroids are frequently used to treatment persons with these coronavirus infections, especially when severe. Whether this strategy is safe and effective is controversial. Other approaches include counteracting high interleukin-6 concentrations with drugs such as tocilizumab [22]. The results of our meta-analysis indicate giving corticosteroids in this setting delayed virus clearing of SARS-CoV and MERS-CoV. Whether this is so for SARS-CoV-2 is unknown. Our analysis of this issue included relatively few subjects so this conclusion should be viewed cautiously. We determined corticosteroid use did not reduce deaths but was associated with increased hospitalization duration. There was no favorable impact on a composite endpoint of death, ICU admission, or mechanical ventilation. It was not possible to determine whether corticosteroid use preceded or followed use of mechanical ventilation. It is also important to emphasize associations and correlations do not imply cause-and-effect. Because most of the data come from observational databases and because corticosteroids are more likely to be given to persons with severe infections there is selection bias and our conclusions should be viewed cautiously. Also, because 6 of the 11 studies are from subjects with SARS-CoV and MERS-CoV our conclusions may not apply to SARS-CoV-2 infection. However, genetic homology of these viruses and similar, albeit not identical, clinical features of these infections make analyses of data from studies of SARS-CoV and MERS-CoV infections reasonable proxies. A previous meta-analysis of corticosteroid use in persons with influenza (mostly H1N1) reported increased mortality [23]. Acute respiratory distress syndrome (ARDS) is the typical evolution of infectious pneumonia. It is unclear whether corticosteroids are effective in ARDS. Three cohort studies summarized in a meta-analysis reported corticosteroid use increased mortality in persons with influenza-related ARDS [24]. In another study low- but not high-doses corticosteroids reduced mortality in persons with ARDS [25] suggesting dose may be an important co-variate in data analyses. As indicated, the OR for death in subjects with severe-only coronavirus infection receiving corticosteroids is RR = 0.92 (0.64, 1.32; I2 = 80%). How to interpret this central estimate and 90% CI is controversial. Although the CI includes 1 and the I2 is generally regarded as not significant (using an arbitrary cutoff significance level), the most conservative interpretation is that the results are inconclusive and consistent with as much as a 36% reduction or an almost 1.32-fold increase in risk of death. It is important to consider the absence of a statistically significant OR is not definitive evidence of risk or benefit. Safety and efficacy of corticosteroids in persons with SARS-CoV-2 infection COVID-19 can only be properly tested in a randomized clinical trial. However, such a trial is unlikely to be done. Our meta-analysis may help inform the decision whether to give corticosteroids.

Conclusion

Corticosteroid use in subjects with SARS-CoV-2, SARS-CoV, and MERS-CoV infections delayed virus clearing and did not convincingly improve survival, reduce hospitalization duration or ICU admission rate and/or use of mechanical ventilation. There were several adverse effects. Because of a preponderance of observational studies in the dataset and selection and publication biases our conclusions, especially regarding SARS-CoV-2, need confirmation in randomized clinical trials. In the interim we suggest caution using corticosteroids in persons with COVID-19. Our results also further consolidate the National Institute of Health (NIH) COVID-19 treatment guideline regarding corticosteroid interventions (https://covid19treatmentguidelines.nih.gov/critical-care/pharmacologic-interventions/). Supplementary Figures Legends Supplementary Figure 1 Supplementary Figure 2 Supplementary Figure 3

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3. Effect of Hydrocortisone on Mortality and Organ Support in Patients With Severe COVID-19: The REMAP-CAP COVID-19 Corticosteroid Domain Randomized Clinical Trial.

Authors: Derek C Angus; Lennie Derde; Farah Al-Beidh; Djillali Annane; Yaseen Arabi; Abigail Beane; Wilma van Bentum-Puijk; Lindsay Berry; Zahra Bhimani; Marc Bonten; Charlotte Bradbury; Frank Brunkhorst; Meredith Buxton; Adrian Buzgau; Allen C Cheng; Menno de Jong; Michelle Detry; Lise Estcourt; Mark Fitzgerald; Herman Goossens; Cameron Green; Rashan Haniffa; Alisa M Higgins; Christopher Horvat; Sebastiaan J Hullegie; Peter Kruger; Francois Lamontagne; Patrick R Lawler; Kelsey Linstrum; Edward Litton; Elizabeth Lorenzi; John Marshall; Daniel McAuley; Anna McGlothin; Shay McGuinness; Bryan McVerry; Stephanie Montgomery; Paul Mouncey; Srinivas Murthy; Alistair Nichol; Rachael Parke; Jane Parker; Kathryn Rowan; Ashish Sanil; Marlene Santos; Christina Saunders; Christopher Seymour; Anne Turner; Frank van de Veerdonk; Balasubramanian Venkatesh; Ryan Zarychanski; Scott Berry; Roger J Lewis; Colin McArthur; Steven A Webb; Anthony C Gordon; Farah Al-Beidh; Derek Angus; Djillali Annane; Yaseen Arabi; Wilma van Bentum-Puijk; Scott Berry; Abigail Beane; Zahra Bhimani; Marc Bonten; Charlotte Bradbury; Frank Brunkhorst; Meredith Buxton; Allen Cheng; Menno De Jong; Lennie Derde; Lise Estcourt; Herman Goossens; Anthony Gordon; Cameron Green; Rashan Haniffa; Francois Lamontagne; Patrick Lawler; Edward Litton; John Marshall; Daniel McAuley; Shay McGuinness; Bryan McVerry; Stephanie Montgomery; Paul Mouncey; Srinivas Murthy; Alistair Nichol; Rachael Parke; Kathryn Rowan; Christopher Seymour; Anne Turner; Frank van de Veerdonk; Steve Webb; Ryan Zarychanski; Lewis Campbell; Andrew Forbes; David Gattas; Stephane Heritier; Lisa Higgins; Peter Kruger; Sandra Peake; Jeffrey Presneill; Ian Seppelt; Tony Trapani; Paul Young; Sean Bagshaw; Nick Daneman; Niall Ferguson; Cheryl Misak; Marlene Santos; Sebastiaan Hullegie; Mathias Pletz; Gernot Rohde; Kathy Rowan; Brian Alexander; Kim Basile; Timothy Girard; Christopher Horvat; David Huang; Kelsey Linstrum; Jennifer Vates; Richard Beasley; Robert Fowler; Steve McGloughlin; Susan Morpeth; David Paterson; Bala Venkatesh; Tim Uyeki; Kenneth Baillie; Eamon Duffy; Rob Fowler; Thomas Hills; Katrina Orr; Asad Patanwala; Steve Tong; Mihai Netea; Shilesh Bihari; Marc Carrier; Dean Fergusson; Ewan Goligher; Ghady Haidar; Beverley Hunt; Anand Kumar; Mike Laffan; Patrick Lawless; Sylvain Lother; Peter McCallum; Saskia Middeldopr; Zoe McQuilten; Matthew Neal; John Pasi; Roger Schutgens; Simon Stanworth; Alexis Turgeon; Alexandra Weissman; Neill Adhikari; Matthew Anstey; Emily Brant; Angelique de Man; Francois Lamonagne; Marie-Helene Masse; Andrew Udy; Donald Arnold; Phillipe Begin; Richard Charlewood; Michael Chasse; Mark Coyne; Jamie Cooper; James Daly; Iain Gosbell; Heli Harvala-Simmonds; Tom Hills; Sheila MacLennan; David Menon; John McDyer; Nicole Pridee; David Roberts; Manu Shankar-Hari; Helen Thomas; Alan Tinmouth; Darrell Triulzi; Tim Walsh; Erica Wood; Carolyn Calfee; Cecilia O’Kane; Murali Shyamsundar; Pratik Sinha; Taylor Thompson; Ian Young; Shailesh Bihari; Carol Hodgson; John Laffey; Danny McAuley; Neil Orford; Ary Neto; Michelle Detry; Mark Fitzgerald; Roger Lewis; Anna McGlothlin; Ashish Sanil; Christina Saunders; Lindsay Berry; Elizabeth Lorenzi; Eliza Miller; Vanessa Singh; Claire Zammit; Wilma van Bentum Puijk; Wietske Bouwman; Yara Mangindaan; Lorraine Parker; Svenja Peters; Ilse Rietveld; Kik Raymakers; Radhika Ganpat; Nicole Brillinger; Rene Markgraf; Kate Ainscough; Kathy Brickell; Aisha Anjum; Janis-Best Lane; Alvin Richards-Belle; Michelle Saull; Daisy Wiley; Julian Bion; Jason Connor; Simon Gates; Victoria Manax; Tom van der Poll; John Reynolds; Marloes van Beurden; Evelien Effelaar; Joost Schotsman; Craig Boyd; Cain Harland; Audrey Shearer; Jess Wren; Giles Clermont; William Garrard; Kyle Kalchthaler; Andrew King; Daniel Ricketts; Salim Malakoutis; Oscar Marroquin; Edvin Music; Kevin Quinn; Heidi Cate; Karen Pearson; Joanne Collins; Jane Hanson; Penny Williams; Shane Jackson; Adeeba Asghar; Sarah Dyas; Mihaela Sutu; Sheenagh Murphy; Dawn Williamson; Nhlanhla Mguni; Alison Potter; David Porter; Jayne Goodwin; Clare Rook; Susie Harrison; Hannah Williams; Hilary Campbell; Kaatje Lomme; James Williamson; Jonathan Sheffield; Willian van’t Hoff; Phobe McCracken; Meredith Young; Jasmin Board; Emma Mart; Cameron Knott; Julie Smith; Catherine Boschert; Julia Affleck; Mahesh Ramanan; Ramsy D’Souza; Kelsey Pateman; Arif Shakih; Winston Cheung; Mark Kol; Helen Wong; Asim Shah; Atul Wagh; Joanne Simpson; Graeme Duke; Peter Chan; Brittney Cartner; Stephanie Hunter; Russell Laver; Tapaswi Shrestha; Adrian Regli; Annamaria Pellicano; James McCullough; Mandy Tallott; Nikhil Kumar; Rakshit Panwar; Gail Brinkerhoff; Cassandra Koppen; Federica Cazzola; Matthew Brain; Sarah Mineall; Roy Fischer; Vishwanath Biradar; Natalie Soar; Hayden White; Kristen Estensen; Lynette Morrison; Joanne Smith; Melanie Cooper; Monash Health; Yahya Shehabi; Wisam Al-Bassam; Amanda Hulley; Christina Whitehead; Julie Lowrey; Rebecca Gresha; James Walsham; Jason Meyer; Meg Harward; Ellen Venz; Patricia Williams; Catherine Kurenda; Kirsy Smith; Margaret Smith; Rebecca Garcia; Deborah Barge; Deborah Byrne; Kathleen Byrne; Alana Driscoll; Louise Fortune; Pierre Janin; Elizabeth Yarad; Naomi Hammond; Frances Bass; Angela Ashelford; Sharon Waterson; Steve Wedd; Robert McNamara; Heidi Buhr; Jennifer Coles; Sacha Schweikert; Bradley Wibrow; Rashmi Rauniyar; Erina Myers; Ed Fysh; Ashlish Dawda; Bhaumik Mevavala; Ed Litton; Janet Ferrier; Priya Nair; Hergen Buscher; Claire Reynolds; John Santamaria; Leanne Barbazza; Jennifer Homes; Roger Smith; Lauren Murray; Jane Brailsford; Loretta Forbes; Teena Maguire; Vasanth Mariappa; Judith Smith; Scott Simpson; Matthew Maiden; Allsion Bone; Michelle Horton; Tania Salerno; Martin Sterba; Wenli Geng; Pieter Depuydt; Jan De Waele; Liesbet De Bus; Jan Fierens; Stephanie Bracke; Brenda Reeve; William Dechert; Michaël Chassé; François Martin Carrier; Dounia Boumahni; Fatna Benettaib; Ali Ghamraoui; David Bellemare; Ève Cloutier; Charles Francoeur; François Lamontagne; Frédérick D’Aragon; Elaine Carbonneau; Julie Leblond; Gloria Vazquez-Grande; Nicole Marten; Martin Albert; Karim Serri; Alexandros Cavayas; Mathilde Duplaix; Virginie Williams; Bram Rochwerg; Tim Karachi; Simon Oczkowski; John Centofanti; Tina Millen; Erick Duan; Jennifer Tsang; Lisa Patterson; Shane English; Irene Watpool; Rebecca Porteous; Sydney Miezitis; Lauralyn McIntyre; Laurent Brochard; Karen Burns; Gyan Sandhu; Imrana Khalid; Alexandra Binnie; Elizabeth Powell; Alexandra McMillan; Tracy Luk; Noah Aref; Zdravko Andric; Sabina Cviljevic; Renata Đimoti; Marija Zapalac; Gordan Mirković; Bruno Baršić; Marko Kutleša; Viktor Kotarski; Ana Vujaklija Brajković; Jakša Babel; Helena Sever; Lidija Dragija; Ira Kušan; Suvi Vaara; Leena Pettilä; Jonna Heinonen; Anne Kuitunen; Sari Karlsson; Annukka Vahtera; Heikki Kiiski; Sanna Ristimäki; Amine Azaiz; Cyril Charron; Mathieu Godement; Guillaume Geri; Antoine Vieillard-Baron; Franck Pourcine; Mehran Monchi; David Luis; Romain Mercier; Anne Sagnier; Nathalie Verrier; Cecile Caplin; Shidasp Siami; Christelle Aparicio; Sarah Vautier; Asma Jeblaoui; Muriel Fartoukh; Laura Courtin; Vincent Labbe; Cécile Leparco; Grégoire Muller; Mai-Anh Nay; Toufik Kamel; Dalila Benzekri; Sophie Jacquier; Emmanuelle Mercier; Delphine Chartier; Charlotte Salmon; PierreFrançois Dequin; Francis Schneider; Guillaume Morel; Sylvie L’Hotellier; Julio Badie; Fernando Daniel Berdaguer; Sylvain Malfroy; Chaouki Mezher; Charlotte Bourgoin; Bruno Megarbane; Nicolas Deye; Isabelle Malissin; Laetitia Sutterlin; Christophe Guitton; Cédric Darreau; Mickaël Landais; Nicolas Chudeau; Alain Robert; Pierre Moine; Nicholas Heming; Virginie Maxime; Isabelle Bossard; Tiphaine Barbarin Nicholier; Gwenhael Colin; Vanessa Zinzoni; Natacham Maquigneau; André Finn; Gabriele Kreß; Uwe Hoff; Carl Friedrich Hinrichs; Jens Nee; Mathias Pletz; Stefan Hagel; Juliane Ankert; Steffi Kolanos; Frank Bloos; Sirak Petros; Bastian Pasieka; Kevin Kunz; Peter Appelt; Bianka Schütze; Stefan Kluge; Axel Nierhaus; Dominik Jarczak; Kevin Roedl; Dirk Weismann; Anna Frey; Vivantes Klinikum Neukölln; Lorenz Reill; Michael Distler; Astrid Maselli; János Bélteczki; István Magyar; Ágnes Fazekas; Sándor Kovács; Viktória Szőke; Gábor Szigligeti; János Leszkoven; Daniel Collins; Patrick Breen; Stephen Frohlich; Ruth Whelan; Bairbre McNicholas; Michael Scully; Siobhan Casey; Maeve Kernan; Peter Doran; Michael O’Dywer; Michelle Smyth; Leanne Hayes; Oscar Hoiting; Marco Peters; Els Rengers; Mirjam Evers; Anton Prinssen; Jeroen Bosch Ziekenhuis; Koen Simons; Wim Rozendaal; F Polderman; P de Jager; M Moviat; A Paling; A Salet; Emma Rademaker; Anna Linda Peters; E de Jonge; J Wigbers; E Guilder; M Butler; Keri-Anne Cowdrey; Lynette Newby; Yan Chen; Catherine Simmonds; Rachael McConnochie; Jay Ritzema Carter; Seton Henderson; Kym Van Der Heyden; Jan Mehrtens; Tony Williams; Alex Kazemi; Rima Song; Vivian Lai; Dinu Girijadevi; Robert Everitt; Robert Russell; Danielle Hacking; Ulrike Buehner; Erin Williams; Troy Browne; Kate Grimwade; Jennifer Goodson; Owen Keet; Owen Callender; Robert Martynoga; Kara Trask; Amelia Butler; Livia Schischka; Chelsea Young; Eden Lesona; Shaanti Olatunji; Yvonne Robertson; Nuno José; Teodoro Amaro dos Santos Catorze; Tiago Nuno Alfaro de Lima Pereira; Lucilia Maria Neves Pessoa; Ricardo Manuel Castro Ferreira; Joana Margarida Pereira Sousa Bastos; Simin Aysel Florescu; Delia Stanciu; Miahela Florentina Zaharia; Alma Gabriela Kosa; Daniel Codreanu; Yaseen Marabi; Eman Al Qasim; Mohamned Moneer Hagazy; Lolowa Al Swaidan; Hatim Arishi; Rosana Muñoz-Bermúdez; Judith Marin-Corral; Anna Salazar Degracia; Francisco Parrilla Gómez; Maria Isabel Mateo López; Jorge Rodriguez Fernandez; Sheila Cárcel Fernández; Rosario Carmona Flores; Rafael León López; Carmen de la Fuente Martos; Angela Allan; Petra Polgarova; Neda Farahi; Stephen McWilliam; Daniel Hawcutt; Laura Rad; Laura O’Malley; Jennifer Whitbread; Olivia Kelsall; Laura Wild; Jessica Thrush; Hannah Wood; Karen Austin; Adrian Donnelly; Martin Kelly; Sinéad O’Kane; Declan McClintock; Majella Warnock; Paul Johnston; Linda Jude Gallagher; Clare Mc Goldrick; Moyra Mc Master; Anna Strzelecka; Rajeev Jha; Michael Kalogirou; Christine Ellis; Vinodh Krishnamurthy; Vashish Deelchand; Jon Silversides; Peter McGuigan; Kathryn Ward; Aisling O’Neill; Stephanie Finn; Barbara Phillips; Dee Mullan; Laura Oritz-Ruiz de Gordoa; Matthew Thomas; Katie Sweet; Lisa Grimmer; Rebekah Johnson; Jez Pinnell; Matt Robinson; Lisa Gledhill; Tracy Wood; Matt Morgan; Jade Cole; Helen Hill; Michelle Davies; David Antcliffe; Maie Templeton; Roceld Rojo; Phoebe Coghlan; Joanna Smee; Euan Mackay; Jon Cort; Amanda Whileman; Thomas Spencer; Nick Spittle; Vidya Kasipandian; Amit Patel; Suzanne Allibone; Roman Mary Genetu; Mohamed Ramali; Alison Ghosh; Peter Bamford; Emily London; Kathryn Cawley; Maria Faulkner; Helen Jeffrey; Tim Smith; Chris Brewer; Jane Gregory; James Limb; Amanda Cowton; Julie O’Brien; Nikitas Nikitas; Colin Wells; Liana Lankester; Mark Pulletz; Patricia Williams; Jenny Birch; Sophie Wiseman; Sarah Horton; Ana Alegria; Salah Turki; Tarek Elsefi; Nikki Crisp; Louise Allen; Iain McCullagh; Philip Robinson; Carole Hays; Maite Babio-Galan; Hannah Stevenson; Divya Khare; Meredith Pinder; Selvin Selvamoni; Amitha Gopinath; Richard Pugh; Daniel Menzies; Callum Mackay; Elizabeth Allan; Gwyneth Davies; Kathryn Puxty; Claire McCue; Susanne Cathcart; Naomi Hickey; Jane Ireland; Hakeem Yusuff; Graziella Isgro; Chris Brightling; Michelle Bourne; Michelle Craner; Malcolm Watters; Rachel Prout; Louisa Davies; Suzannah Pegler; Lynsey Kyeremeh; Gill Arbane; Karen Wilson; Linda Gomm; Federica Francia; Stephen Brett; Sonia Sousa Arias; Rebecca Elin Hall; Joanna Budd; Charlotte Small; Janine Birch; Emma Collins; Jeremy Henning; Stephen Bonner; Keith Hugill; Emanuel Cirstea; Dean Wilkinson; Michal Karlikowski; Helen Sutherland; Elva Wilhelmsen; Jane Woods; Julie North; Dhinesh Sundaran; Laszlo Hollos; Susan Coburn; Joanne Walsh; Margaret Turns; Phil Hopkins; John Smith; Harriet Noble; Maria Theresa Depante; Emma Clarey; Shondipon Laha; Mark Verlander; Alexandra Williams; Abby Huckle; Andrew Hall; Jill Cooke; Caroline Gardiner-Hill; Carolyn Maloney; Hafiz Qureshi; Neil Flint; Sarah Nicholson; Sara Southin; Andrew Nicholson; Barbara Borgatta; Ian Turner-Bone; Amie Reddy; Laura Wilding; Loku Chamara Warnapura; Ronan Agno Sathianathan; David Golden; Ciaran Hart; Jo Jones; Jonathan Bannard-Smith; Joanne Henry; Katie Birchall; Fiona Pomeroy; Rachael Quayle; Arystarch Makowski; Beata Misztal; Iram Ahmed; Thyra KyereDiabour; Kevin Naiker; Richard Stewart; Esther Mwaura; Louise Mew; Lynn Wren; Felicity Willams; Richard Innes; Patricia Doble; Joanne Hutter; Charmaine Shovelton; Benjamin Plumb; Tamas Szakmany; Vincent Hamlyn; Nancy Hawkins; Sarah Lewis; Amanda Dell; Shameer Gopal; Saibal Ganguly; Andrew Smallwood; Nichola Harris; Stella Metherell; Juan Martin Lazaro; Tabitha Newman; Simon Fletcher; Jurgens Nortje; Deirdre Fottrell-Gould; Georgina Randell; Mohsin Zaman; Einas Elmahi; Andrea Jones; Kathryn Hall; Gary Mills; Kim Ryalls; Helen Bowler; Jas Sall; Richard Bourne; Zoe Borrill; Tracey Duncan; Thomas Lamb; Joanne Shaw; Claire Fox; Jeronimo Moreno Cuesta; Kugan Xavier; Dharam Purohit; Munzir Elhassan; Dhanalakshmi Bakthavatsalam; Matthew Rowland; Paula Hutton; Archana Bashyal; Neil Davidson; Clare Hird; Manish Chhablani; Gunjan Phalod; Amy Kirkby; Simon Archer; Kimberley Netherton; Henrik Reschreiter; Julie Camsooksai; Sarah Patch; Sarah Jenkins; David Pogson; Steve Rose; Zoe Daly; Lutece Brimfield; Helen Claridge; Dhruv Parekh; Colin Bergin; Michelle Bates; Joanne Dasgin; Christopher McGhee; Malcolm Sim; Sophie Kennedy Hay; Steven Henderson; Mandeep-Kaur Phull; Abbas Zaidi; Tatiana Pogreban; Lace Paulyn Rosaroso; Daniel Harvey; Benjamin Lowe; Megan Meredith; Lucy Ryan; Anil Hormis; Rachel Walker; Dawn Collier; Sarah Kimpton; Susan Oakley; Kevin Rooney; Natalie Rodden; Emma Hughes; Nicola Thomson; Deborah McGlynn; Andrew Walden; Nicola Jacques; Holly Coles; Emma Tilney; Emma Vowell; Martin Schuster-Bruce; Sally Pitts; Rebecca Miln; Laura Purandare; Luke Vamplew; Michael Spivey; Sarah Bean; Karen Burt; Lorraine Moore; Christopher Day; Charly Gibson; Elizabeth Gordon; Letizia Zitter; Samantha Keenan; Evelyn Baker; Shiney Cherian; Sean Cutler; Anna Roynon-Reed; Kate Harrington; Ajay Raithatha; Kris Bauchmuller; Norfaizan Ahmad; Irina Grecu; Dawn Trodd; Jane Martin; Caroline Wrey Brown; Ana-Marie Arias; Thomas Craven; David Hope; Jo Singleton; Sarah Clark; Nicola Rae; Ingeborg Welters; David Oliver Hamilton; Karen Williams; Victoria Waugh; David Shaw; Zudin Puthucheary; Timothy Martin; Filipa Santos; Ruzena Uddin; Alastair Somerville; Kate Colette Tatham; Shaman Jhanji; Ethel Black; Arnold Dela Rosa; Ryan Howle; Redmond Tully; Andrew Drummond; Joy Dearden; Jennifer Philbin; Sheila Munt; Alain Vuylsteke; Charles Chan; Saji Victor; Ramprasad Matsa; Minerva Gellamucho; Ben Creagh-Brown; Joe Tooley; Laura Montague; Fiona De Beaux; Laetitia Bullman; Ian Kersiake; Carrie Demetriou; Sarah Mitchard; Lidia Ramos; Katie White; Phil Donnison; Maggie Johns; Ruth Casey; Lehentha Mattocks; Sarah Salisbury; Paul Dark; Andrew Claxton; Danielle McLachlan; Kathryn Slevin; Stephanie Lee; Jonathan Hulme; Sibet Joseph; Fiona Kinney; Ho Jan Senya; Aneta Oborska; Abdul Kayani; Bernard Hadebe; Rajalakshmi Orath Prabakaran; Lesley Nichols; Matt Thomas; Ruth Worner; Beverley Faulkner; Emma Gendall; Kati Hayes; Colin Hamilton-Davies; Carmen Chan; Celina Mfuko; Hakam Abbass; Vineela Mandadapu; Susannah Leaver; Daniel Forton; Kamal Patel; Elankumaran Paramasivam; Matthew Powell; Richard Gould; Elizabeth Wilby; Clare Howcroft; Dorota Banach; Ziortza Fernández de Pinedo Artaraz; Leilani Cabreros; Ian White; Maria Croft; Nicky Holland; Rita Pereira; Ahmed Zaki; David Johnson; Matthew Jackson; Hywel Garrard; Vera Juhaz; Alistair Roy; Anthony Rostron; Lindsey Woods; Sarah Cornell; Suresh Pillai; Rachel Harford; Tabitha Rees; Helen Ivatt; Ajay Sundara Raman; Miriam Davey; Kelvin Lee; Russell Barber; Manish Chablani; Farooq Brohi; Vijay Jagannathan; Michele Clark; Sarah Purvis; Bill Wetherill; Ahilanandan Dushianthan; Rebecca Cusack; Kim de Courcy-Golder; Simon Smith; Susan Jackson; Ben Attwood; Penny Parsons; Valerie Page; Xiao Bei Zhao; Deepali Oza; Jonathan Rhodes; Tom Anderson; Sheila Morris; Charlotte Xia Le Tai; Amy Thomas; Alexandra Keen; Stephen Digby; Nicholas Cowley; Laura Wild; David Southern; Harsha Reddy; Andy Campbell; Claire Watkins; Sara Smuts; Omar Touma; Nicky Barnes; Peter Alexander; Tim Felton; Susan Ferguson; Katharine Sellers; Joanne Bradley-Potts; David Yates; Isobel Birkinshaw; Kay Kell; Nicola Marshall; Lisa Carr-Knott; Charlotte Summers
Journal: JAMA Date: 2020-10-06 Impact factor: 56.272

Review 4. The therapeutic effects of upgrade to cardiac resynchronization therapy in pacing-induced cardiomyopathy or chronic right ventricular pacing patients: a meta-analysis.

Authors: Wenzhao Lu; Jinxuan Lin; Yan Dai; Keping Chen; Shu Zhang
Journal: Heart Fail Rev Date: 2021-02-27 Impact factor: 4.214

5. Repositive RT-PCR test in discharged COVID-19 patients during medical isolation observation.

Authors: Kun Huang; Wen Liu; Jinxia Zhou; Yao Wang; Yuxiang Zhang; Xinle Tang; Jing Liang; Fang-Fang Bi
Journal: Int J Med Sci Date: 2021-04-26 Impact factor: 3.738

Review 6. Severity and Mortality Associated with Steroid Use among Patients with COVID-19: A Systematic Review and Meta-Analysis.

Authors: Tamiru Sahilu; Tadesse Sheleme; Tsegaye Melaku
Journal: Interdiscip Perspect Infect Dis Date: 2021-05-06

7. Gastroenteritis and cardiogenic shock in a healthcare worker: a case report of COVID-19 myocarditis confirmed with serology.

Authors: Sanjay Sivalokanathan; Michael Foley; Graham Cole; Taryn Youngstein
Journal: Eur Heart J Case Rep Date: 2021-02-08

Review 8. COVID-19: Where is the treatment?

Authors: Bonala Sabeerabi; Sarojamma Vemula; Ramakrishna Vadde; Ganji Purnachandra Nagaraju
Journal: World J Clin Oncol Date: 2021-05-24

9. Impact of dexamethasone on SARS-CoV-2 concentration kinetics and antibody response in hospitalized COVID-19 patients: results from a prospective observational study.

Authors: Barbara Mühlemann; Charlotte Thibeault; David Hillus; Elisa T Helbig; Lena J Lippert; Pinkus Tober-Lau; Tatjana Schwarz; Marcel A Müller; Martin Witzenrath; Norbert Suttorp; Leif E Sander; Christian Drosten; Terry C Jones; Victor M Corman; Florian Kurth
Journal: Clin Microbiol Infect Date: 2021-06-15 Impact factor: 8.067

10. Predictors of mortality in patients with coronavirus disease 2019: a systematic review and meta-analysis.

Authors: Changcheng Shi; Limin Wang; Jian Ye; Zhichun Gu; Shuying Wang; Junbo Xia; Yaping Xie; Qingyu Li; Renjie Xu; Nengming Lin
Journal: BMC Infect Dis Date: 2021-07-08 Impact factor: 3.090