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BACKGROUND
In late 2019, several cases of an acute respiratory illness (now known as the new coronavirus or COVID-19) were reported in Wuhan, China.1-3 The coronavirus has spread rapidly to all over the world. As of Dec. 1, 2020, a total of over 61.8 million people infected by the virus and caused 1.4 million deaths all over the world.4 There are various reports on the pathophysiology of the disease. Many studies have suggested that an overreaction of the immune system by virus can cause the complicated features of disease.5 Cytokine storm syndrome is the severe immune reaction that may cause a severe tissue response in these patients.6 By innate immune system stimulation, NLRP3, an inflammasome compartment activates IL-18, IL-1β, and IL-6.7 Excessive synthesis of IL-6 against infection leads to an acute systemic inflammatory reaction known as cytokine storm.8
IL-6, which plays the main role in cytokine storm, is produced by activated leukocytes causing excretion of several other cytokines subsequently. On the other hand, the production of these cytokines is mainly triggered in order to develop an inflammation to suppress the infection.9 Considering the role of inflammation in both exacerbation and suppression of the disease, it can be hypothesised that altered mechanisms of innate immunity pathway as a main role in IL-6 production may result in different clinical features of the disease. Acute lung injury and even acute respiratory distress syndrome (ARDS) are common outcomes of cytokine storm in lung alveolus.10
Colchicine is a drug that is widely used to treat and prevent acute crystal arthropathies, Familial Mediterranean Fever (FMF), and systemic vasculitis such as Behçet’s disease. In addition, it has been shown that colchicine is an important drug in inflammatory diseases due to its widespread anti-inflammatory effects, particularly by stabilising of polymorph nuclear cells (PMN).11
Colchicine affects NLRP3 and prevents the activation of IL-18, IL-1β and IL-6,7 and appears to play a significant role in reducing and controlling of the cytokine storm. According to its anti-inflammatory effects, it seems that Colchicine may have a significant effect on improving the symptoms, course and mortality rate caused by the new coronavirus disease. Therefore, this double-blind clinical trial study has been conducted to evaluate the effect of this drug on the symptoms, duration of hospitalization, and mortality rate among COVID-19 patients.
METHODS
Patients and data
This study took place from May 21, 2020 until June 20, 2020 at Imam Reza Hospital in Ardabil city, in northwest Iran.A randomised, double-blind clinical trial study among 100 adult patients with COVID-19 was conducted. Including criteria were defined as pulmonary involvement in CT-Scan which compatible with COVID-19 and Positive PCR of COVID-19. Excluding criteria were defined as follows: hypersensitivity to any medications of therapy, renal failure, heart failure, pregnancy, participating in another clinical study, and refusal to participate in the study before or during the follow-up period.
Treatment regimens
This is a prospective, randomised clinical trial, controlled group study. Patients were randomised in 1:1 allocation in two equal groups (group-A and group-B) which contains 50 patients. Patients of group-A were treated by colchicine (1 mg daily for six days / Mofid Pharma.co) plus health care system guideline (first protocol of health department was issued in March 2020), while group-B patients were taken placebo plus same protocol. This protocol included supportive therapy such as IV hydration, oxygen, Azithromycin, Hydroxychloroquine, and Naproxen for all patients during first week.
Study designs, and assessment
Clinical assessments were evaluated after admission and as a daily re-examination program then 2 weeks after discharge. This study adheres to CONSORT guidelines and include a completed CONSORT checklist. All patients of the study filled confirmed consent form.
Statistical Analysis
In this study, SPSS statistical analysis software version 25 was used to analyse the data. Because of the number of cases (more than 30), we assume that it has normal distribution. The data were first expressed using the frequency amount (number, percentage, mean), and then using independent T-test and chi-square test; the relationship between them was later examined, and the results were presented in tables. Amounts less than 0.05 were considered meaningful findings. Current Controlled prospective Trials registration ID approved by ICMJE and WHO ICTRP registry isIRCT20200418047126N1, and the date of registration is 2020-05-14. The domestic ethical code was IR.ARUMS.REC.1399.050.
RESULTS
Among 100 patients, 59% were female with median age, 56 years old. Their basic characteristics are summarised in Table 1.
Table 1. Basic characteristics of patients in two groups.
There is no significant difference between the two groups in terms of age and sex. Two groups did not show meaningful difference regarding underlying diseases, except for COPD. In view of various clinical and para-clinical findings during admission and post-discharge evaluation there was no valuable difference. However, there was significant difference in colchicine group regarding for shorter persistence of fever (P<0.05) and duration of hospitalisation (P<0.05). Although in colchicine group, dyspnoea improved more rapidly than the placebo group, it was not meaningful.
Table 2. Post-discharge findings of two groups.
DISCUSSION
There is no specific treatment for COVID-19, although some antiviral agents and biologic drugs have been used with different success. In respiratory failure, non-invasive and or invasive mechanical ventilation may be required.12
Convalescent plasma and/or immunoglobulin have been used as alternative resort to improve the survival rate of patients with COVID-19 whose condition continued to deteriorate, despite treatment with methylprednisolone pulse therapy.13
5% of infections with COVID-19 complicated by acute respiratory distress syndrome (ARDS), which required mechanical ventilation. Concerning ARDS treatment, it seems plausible to speculate that the anti-IL6 plays a protective role if given at the time of overly elevated immune response to the virus, thus preventing “anaphylactic toxicity”. Such extreme cytokine reaction is accompanied by infiltration of inflammatory monocytes/macrophages into the lung and elevated production of the pro-inflammatory cytokines.14
Colchicine has been shown to limit IL-1b production as a response to various NLRP3 inflammasome inducers in a dose-dependent form. For example, in the setting of acute coronary syndrome, colchicine was effective in suppressing interleukin IL-1b, IL-18 and IL-6, which was attributed to inflammasome inhibition.15,16
Initially, hydroxychloroquine has been found to be effective against COVID-19,17 and on the basis of this data, it had been included in various early guidelines as an anti-inflammatory agent. In this study in terms of symptoms, and during the follow-up, fever was decreased significantly in colchicine group (P=0.02). Moreover, the hospitalised period was significantly shorter in this group (P=0.001). Although, in colchicine group dyspnoea subsided more rapidly than the placebo group, it was not meaningful. None of the patients died or were readmitted.
In Spyridon et al. study about the colchicine effect on cardiac and inflammatory biomarkers in COVID-19 admitted patients, mean (SD) event-free survival time was 18.6 (0.83) days in the control group vs. 20.7 (0.31) in the colchicine group (log rank P = 0.03).18
In Mansouri et al. study,19 they described the case of a 42-year-old healthy patient with COVID-19 who despite improvement in his respiratory symptoms developed a mild to moderate cytokine release syndrome (CRS) and an associated monoarticular gout flare. Since the patient refused admission to the hospital and had stable vital signs, they treated him with a safe anti-inflammatory and non-immunosuppressive therapy. To hit two birds with one stone, they considered colchicine, as it has systemic anti-inflammatory effects and is also effective in gout flare. Unexpectedly, 48 hours after treatment, not only did his ongoing fever and toe pain disappear, he also had significant improvements in his general state of health and all his inflammatory markers including fibrinogen, ferritin, D-dimer, and IL-6 levels normalised.
The inflammatory basis of the COVID-19 that includes cytokine storm syndrome because of excessive synthesis of IL-6 and also due to the anti-inflammatory effects of colchicine on the innate immune system by stabilizing of PMNs15,16; it seems colchicine could be effective in improving systemic COVID-19 symptoms such as fever, which is undoubtedly induced by inflammatory biomarkers, eg, IL-6 and TNF (tumour-necrosis factor). Inhibition of these biomarkers by colchicine may prevent acute respiratory syndrome and lead to suppression of cytokine storm progressiveness, which is the most dangerous event in COVID-19.6,8 However, it is necessary to confirm these results with further studies.
LIMITATIONS
This study was performed only on the clinical aspects of the patients and the changes in biomarkers were not considered, moreover it was performed only in non-ICU and moderately symptomatic patients to evaluate its preventive ability in disease course.
CONCLUSION
Colchicine can be effective in reducing systemic symptoms of COVID-19 by inhibiting inflammatory biomarkers.
ETHICS APPROVAL AND CONSENT TO PARTICIPATE
This study has been supported by Ardabil University of Medical Sciences (ARUMS) and approved by Ministry of Health committee of medicine under the number: Custom Trial registration ID is: 47707 (irct.ir). The written confirmed consent obtained from all participants. Current Controlled prospective Trials registration ID that has been approved by ICMJE and WHO ICTRP registry isIRCT20200418047126N1, and the date of registration is 2020-05-14.
CONSENT FOR PUBLICATION
Authors have taken written informed consent for this work.
CONFLICT OF INTEREST
The authors declare no conflict of interest.
FUNDING
Authors declare no private funding in this study.
AUTHOR CONTRIBUTIONS
All authors have read and approved the manuscript and they contribute as: FP, Worked on epidemiologic aspects of the study; FS designed the study and wrote draft copy, SA collected all data and wrote the final copy.
ACKNOWLEDGEMENTS
The authors would like to acknowledge the Faculty of Medicine, Ardabil University of Medical Sciences, and Imam Reza Hospital for their support and contribution to this study.
AVAILABILITY OF DATA AND MATERIAL
Not applicable.