key: cord-0712063-8dobncuw
authors: Scarsi, Mirko; Piantoni, Silvia; Colombo, Enrico; Airó, Paolo; Richini, Donata; Miclini, Marco; Bertasi, Valeria; Bianchi, Marta; Bottone, Damiano; Civelli, Patrizia; Cotelli, Maria-Sofia; Damiolini, Ezio; Galbassini, Gloria; Gatta, Diego; Ghirardelli, Maria-Laura; Magri, Roberto; Malamani, Paola; Mendeni, Monia; Molinari, Stefano; Morotti, Andrea; Salada, Luisa; Turla, Marinella; Vender, Angiola; Tincani, Angela; Brucato, Antonio; Franceschini, Franco; Furloni, Roberto; Andreoli, Laura
title: Association between treatment with colchicine and improved survival in a single-centre cohort of adult hospitalised patients with COVID-19 pneumonia and acute respiratory distress syndrome
date: 2020-07-30
journal: Ann Rheum Dis
DOI: 10.1136/annrheumdis-2020-217712
sha: e71a68875be77b0a1192c3bb3799dfaca4df01c8
doc_id: 712063
cord_uid: 8dobncuw

OBJECTIVES: The outbreak of COVID-19 posed the issue of urgently identifying treatment strategies. Colchicine was considered for this purpose based on well-recognised anti-inflammatory effects and potential antiviral properties. In the present study, colchicine was proposed to patients with COVID-19, and its effects compared with ‘standard-of-care’ (SoC). METHODS: In the public hospital of Esine, northern Italy, 140 consecutive inpatients, with virologically and radiographically confirmed COVID-19 admitted in the period 5–19 March 2020, were treated with ‘SoC’ (hydroxychloroquine and/or intravenous dexamethasone; and/or lopinavir/ritonavir). They were compared with 122 consecutive inpatients, admitted between 19 March and 5 April 2020, treated with colchicine (1 mg/day) and SoC (antiviral drugs were stopped before colchicine, due to potential interaction). RESULTS: Patients treated with colchicine had a better survival rate as compared with SoC at 21 days of follow-up (84.2% (SE=3.3%) vs 63.6% (SE=4.1%), p=0.001). Cox proportional hazards regression survival analysis showed that a lower risk of death was independently associated with colchicine treatment (HR=0.151 (95% CI 0.062 to 0.368), p<0.0001), whereas older age, worse PaO2/FiO2, and higher serum levels of ferritin at entry were associated with a higher risk. CONCLUSION: This proof-of-concept study may support the rationale of use of colchicine for the treatment of COVID-19. Efficacy and safety must be determined in controlled clinical trials.

Since February 2020, the epidemic of COVID-19 has severely affected Lombardy, a region in Northern Italy, where hospitals were faced with the need for quick reorganisation and increased demand for critical care. 1 This emergency posed urgent questions for treatment strategies. The main challenge was to understand the natural course of the disease, which is triggered by viral infection but may evolve into uncontrolled inflammation causing lung damage and progression into acute respiratory distress syndrome (ARDS). A subgroup of patients with severe COVID-19 might have a hyperinflammatory syndrome (HIS). 2 Based on the assumption that a 'cytokine storm' drives the progression of the disease, the anti-interleukin-6 receptor monoclonal antibody tocilizumab has been used in 20 patients in China. 3 It has been suggested that there may be

What is already known about this subject? ► Considering the hypothesis that COVID- 19 in its worst manifestations resembles a secondary, viral-driven haemophagocitic lymphohistiocytosis syndrome, a rationale for the use of antirheumatic drugs that are used for autoinflammatory disease have been placed in the algorithm of treatment.

What does this study add? ► Based on anti-inflammatory and potential antiviral properties, colchicine was administered to hospitalised patients with COVID-19 pneumonia and acute respiratory distress syndrome (ARDS). ► The survival rate of patients treated with colchicine was significantly higher as compared with that of patients treated with standard of care only (84.2% vs 63.6%).

How might this impact on clinical practice or future developments? ► This proof-of-concept study supports the rationale of testing colchicine in clinical trials for the treatment of COVID-19 pneumonia with ARDS. a 'window of opportunity' for downmodulating the immune response against the virus, without preventing its clearance. 4 In this context, colchicine, an old anti-inflammatory drug, may play a role in reverting the disease course of COVID-19.

Colchicine is an alkaloid derived from Colchicum autumnale, 5 currently considered as the first-line treatment for autoinflammatory syndromes, such as gout, recurrent pericarditis, familiar Mediterranean fever, Behçet's syndrome and others. 6 Colchicine inhibits the formation of microtubules, thus affecting a variety of cellular processes. 7 Microtubule functionality was demonstrated to be crucial for coronavirus infection and intracellular vacuole formation in vitro. 8 Colchicine interferes with several inflammatory pathways including adhesion and recruitment of neutrophils, superoxide production and inflammasome activation by acting on the cytokine network through the inhibition of IL-1beta. 5 The benefits of colchicine were described in different viralmediated inflammatory conditions such as EBV/CMV-induced myocarditis, 9 pericarditis triggered by influenza B, 10 interstitial pneumonia of unknown origin 11 and interstitial pneumonia caused by autoimmune process. 12 The side effect profile of colchicine is widely known, with gastrointestinal symptoms occurring in up to 17% of patients, while severe organ manifestations being rare. 13 Based on the identification of HIS in patients with COVID-19 pneumonia and the anti-inflammatory properties of colchicine, we postulated the rationale of use of colchicine in patients admitted to the hospital for COVID-19.

In the interval between 5 March and 5 April 2020, 272 patients affected by COVID-19 were admitted to the Valcamonica Hospital in Esine, Lombardy, Italy. Patients were treated according to local guidelines, 14 with antiviral drugs, and/ or hydroxychloroquine (HCQ) and/or corticosteroids. This protocol will be referred to as 'standard-of-care' (SoC). The combination of these drugs depended on physician's indication and drug availability. HCQ and lopinavir/ritonavir antiviral treatment were not constantly used for intermittent drug availability due to the emergency. HCQ was given orally 200 mg two times per day. Intravenous dexamethasone was administered at 20 mg/day for 5 days, followed by 10 mg/day for 5 days. Patients received antibiotics and supportive care when required.

Since 19 March, colchicine was proposed to the patients as off-label treatment, according to the notification provided to the local ethics committee. After written informed consent, 122 consecutive patients were treated with colchicine 1 mg/day (reduced to 0.5 mg/day, if severe diarrhoea). In these patients, antiviral drugs were stopped because of the potential interaction with colchicine.

A control group of 142 patients affected by COVID-19 pneumonia treated with SoC, admitted before 19 March, was retrieved by clinical charts analysis. In two cases, colchicine was used as a rescue therapy; these patients were excluded from the treatment group and were considered only for the safety analysis. Eight patients who had a glomerular filtration rate less than 30 mL/min were not eligible for colchicine treatment and excluded from the study (see online supplementary figure 1).

Continuous variables were compared by Mann-Whitney test and categorical variables by χ 2 or Fisher's exact test.

Survival rates were computed by the Kaplan-Meyer analysis and the difference between survival curves by the Mantel-Cox (log-rank) test. Survival data were censored at 16 April 2020.

Cox proportional hazards regression survival analysis was performed by selecting covariates based on the research question (effects of treatment with colchicine) and plausible independent variables that were a priori selected among demographical (gender and age), clinical and laboratory parameters (PaO 2 /FiO 2 ratio, ferritin and C reactive protein), comorbidities (history of malignancies, cardiovascular disease or chronic obstructive pulmonary disease) and other treatments (HCQ, antivirals and dexamethasone).

Statistical analysis was performed using GraphPad Prism V.7.0 and Statview V.5.0.

Colchicine was administered to 122 consecutive inpatients with COVID-19. The dosage of colchicine was reduced from 1 to 0.5 mg/day in nine patients (7.4%) due to diarrhoea; no other significant adverse events were reported. Survival data were compared with those of 140 inpatients admitted before the initiation of the protocol with colchicine and treated with SoC. SoC patients had more frequently a history of malignancies (p=0.013), and of treatment with antiviral drugs (p<0.0001), whereas received less frequently corticosteroids (p<0.0001), if compared with patients treated with colchicine (plus SoC). On the contrary, no difference was observed with regard to sex and age between the two groups (table 1) . At baseline, serum levels Epidemiology Figure 1 Survival rate in patients treated with colchicine as compared with the 'standard-of-care' (SoC) group. of C reactive protein and ferritin, as well as neutrophil count, were lower, and PaO 2 /FiO 2 ratio was higher in the SoC group (table 1) . Up to the 16 April 2020, 20 patients treated with colchicine (16.3%) and 52 patients in the SoC group (37.1%) died for complications related to COVID-19 (p<0.001). Kaplan-Meyer analysis demonstrated a better survival in the colchicine group than in the SoC group (figure 1; log-rank test; p=0.001). Survival rate at 21 days of follow-up was estimated to be 84.2% (SE=3.3%) in the colchicine group and 63.6% (SE=4.1%) in the SoC group (figure 1). Among the colchicine group, there was no difference between patients who were treated or not with dexamethasone (p=0.37), or with HCQ (p=0.34).

Cox proportional hazards regression survival analysis indicated that a lower risk of death was independently associated with colchicine treatment (HR=0.151 (95% CI 0.062 to 0.368), p<0.0001), whereas older age, worse PaO 2 /FiO 2 , and higher serum levels of ferritin at entry were associated with a higher risk (table 2) .

To the best of our knowledge, case reports but no case-control studies have been published so far about the use of colchicine for the treatment of This is the first study on a large series of consecutive hospitalised patients. The rationale of using colchicine resides on both experimental evidence and the long-standing experience in the management of autoinflammatory diseases. It is known that colchicine can inhibit the NLRP3 inflammasome, 7 which is activated by the transport of calcium ions through the envelope protein of SARS-CoV. 16 Moreover, there is no evidence that colchicine may worsen the course of a disease induced by a virus. 17 Practical advantages of the use of such an old anti-inflammatory drug are: (1) a well-known safety profile, (2) widespread availability and (3) low cost. Colchicine was therefore considered as a possible valuable treatment option in the context of an unprecedented emergency that posed the healthcare system at risk of collapse in Lombardy. It soon became clear that many patients could rapidly evolve into ARDS, unravelling the insufficient resources for ICU and posing dramatic dilemmas in ethics, logistics and therapeutics. 1 In the medium-sized Hospital of Esine, located in the middle of an alpine valley and serving a population of nearly 100 000 adult inhabitants, a treatment protocol with colchicine was proposed to consecutive patients admitted for COVID-19 as adjunct treatment to the SoC, 14 (HCQ-intermittently available, due to national shortage-and/or dexamethasone; antiviral drugs-also intermittently available-were stopped because of possible interaction with colchicine). We can assume that bias selection can be considered as minimal, as only patients with formal contraindications to the drug (ie, renal failure) were excluded.

The safety profile of colchicine was good, as no patient had to stop the drug for severe adverse events. Diarrhoea occurred in 7.4% of treated patients, which is in line with data reported in the systematic review of the literature. 13 The main finding of this study was that patients treated with colchicine had a better survival rate as compared with SoC. We acknowledge that this result might be affected by a survival bias deriving from the inclusion in the colchicine group of patients who were 'survivors' at the moment of initiating the treatment with this drug. However, this bias is likely to be minimal, since the interval between hospital admission and colchicine initiation was very short in most cases (mean of 1 day), and mortality in the first days after admission was anyway limited (figure 1). Baseline differences between patients treated with colchicine and SoC must be acknowledged: patients in the SoC group were older and received less frequently corticosteroids. However, these patients received more often other treatments (HCQ and antivirals) and seemed to suffer from a less severe disease (better PaO 2 / FiO 2 , lower CRP, ferritin and neutrophil count). Indeed, Cox proportional hazards regression survival analysis showed the independent association of colchicine treatment with survival and that of older age, higher serum levels of ferritin and more severe hypoxaemia at admission with death.

In conclusion, our report can be considered as a proof-ofconcept study supporting the possible use of colchicine in the treatment of the early phase of COVID-19 with the purpose of preventing the host's autoinflammatory response. Properly designed trials will determine the efficacy and safety of colchicine and the best protocol in terms of dosage and timing of administration in patients with COVID-19. Such trials have been approved in Greece, 18 Italy 19 and Canada. 20 

Critical care utilization for the COViD-19 outbreak in lombardy, italy: early experience and forecast during an emergency response

COViD-19: consider cytokine storm syndromes and immunosuppression

Cytokine release syndrome in severe COViD-19: interleukin-6 receptor antagonist tocilizumab may be the key to reduce mortality

COViD-19: the new challenge for rheumatologists

Colchicine pharmacokinetics and mechanism of action

The role of colchicine in pericardial syndromes

isolating colchicine in 19th century: an old drug revisited

entry of human coronavirus nl63 into the cell

Microtubule inhibition therapy by colchicine in severe myocarditis especially caused by epstein-barr and cytomegalovirus co-infection during a two-year period: a novel therapeutic approach

influenza B virus infection complicated by lifethreatening pericarditis: a unique case-report and literature review

a case of non-specific interstitial pneumonia effectively treated with a combination of prednisolone and colchicine, in which granulation tissue was extensive

sarcoidosis and chronic hepatitis C: treatment with prednisone and colchicine

adverse events during oral colchicine use: a systematic review and meta-analysis of randomised controlled trials

Vademecum for the treatment of people with COViD-19. edition 2.0, 13

COViD-19 in kidney transplant recipients

severe acute respiratory syndrome coronavirus e protein transports calcium ions and activates the nlRP3 inflammasome

is colchicine really harmful in viral myocarditis?

The Greek study in the effects of colchicine in COViD-19 complications prevention (GReCCO-19 study): rationale and study design

aiFa. sperimentazioni cliniche -COViD-19

OrCId ids silvia Piantoni http:// orcid. org/ 0000-0003-0913-0197 Paolo airó http:// orcid. org/ 0000-0001-5241-1918 antonio Brucato http:// orcid. org/ 0000-0002-7566-5600 Franco Franceschini http:// orcid. org/ 0000-0003-3678-6124 laura andreoli http:// orcid. org/ 0000-0002-9107-3218