Dear Editor,
Corticosteroids mitigate 28-day all-cause mortality in coronavirus disease-2019 (COVID-19)
patients requiring oxygen or mechanical ventilation (meta-analysis summary odds ratio
(OR), 0.66; 95%-confidence interval (95%IC), [0.53-0.82]; P<0.001); however, mortality
remains high (32.7%).
1
In a previous observational cohort study, we established that an early 4-day treatment
combining corticosteroid (prednisolone dose equivalent, 1.25mg/kg/24h) and furosemide
(80mg/day) was effective in reducing the need for mechanical ventilation and overall
mortality (OR, 0.35 [0.11-1.01]; P=0.04) in non-critically ill COVID-19 patients.
2
The GRECCO-19 randomized trial suggested a benefit of colchicine in preventing clinical
deterioration in hospitalized non-critically ill COVID-19 patients.
3
Similarly, an observational cohort study reported that salicylate treatment was associated
with reduction in intensive care unit (ICU) and mechanical ventilation requirements
in hospitalized COVID-19 patients, although in-hospital death was not significantly
modified.
4
Moreover, prophylactic or intermediate-dose anticoagulation was highly recommended
in hospitalized COVID-19 patients who are at high-risk of venous thromboembolic events
(VTE).
5
Specifically, direct oral anticoagulant use was shown to be associated with improved
outcome.
6
Based on the data discussed above and the pathophysiology of COVID-19 and its complications,
i.e. thrombosis, inflammation and congestion, we hypothesized that a five-drug regimen
consisting in a 5-day course of 1mg/kg/day prednisone, 80mg/day furosemide, 75 mg/day
salicylate, colchicine (1mg loading dose followed by 0.5mg one hour later then 0.5mg
every 8h as recommended to treat acute gout)
7
and direct anti-Xa inhibitor such as rivaroxaban or apixaban would optimally mitigate
COVID-19-attributed mortality. To address the effectiveness of this five-drug regimen,
we designed an observational cohort study (COrtiCoid-Aspirin-Anticoagulant-Colchicine-LAsix®,
the COCAA-COLA study) including all successive non-critically ill COVID-19 patients
requiring >1L/min-oxygen and admitted to our ward between 2020/01/09 and 2020/11/30
(during the second wave in France). Patients who did not receive this regimen were
treated with dexamethasone (6mg once daily for up to 10 days)
8
and low-molecular weight heparin (control group). All patients received standard of
care, i.e. oxygen with flow adapted to oximetry, proton pump inhibitor, antibiotics,
insulin, potassium supplementation and loperamide if needed. No antiviral or additional
immunomodulatory therapy was used due to the absence of clearly demonstrated benefit.
Systematic chest computed tomography angiography was performed on admission if not
contra-indicated. Anticoagulants (direct anti-Xa inhibitor in the five-drug regimen-treated
patients or low-molecular weight heparin in the others) were administered at prophylactic
dose with the exception of patients exhibiting VTE or plasma D-dimer ≥5,000ng/mL (a
threshold predicting increased VTE risk in COVID-19 patients)
9
who were administered anticoagulants at therapeutic dose. Usual monitoring including
pulse oximetry, electrocardiogram, finger blood sugar and daily routine chemical tests
was provided.
The primary composite endpoint was requirement of high-flow oxygen therapy, non-invasive
or invasive mechanical ventilation (corresponding to care escalation from ward to
ICU) or 28-day mortality. The 4C Mortality Score, a risk stratification score for
hospitalized COVID-19 patients, was used to predict in-hospital mortality.
10
Data were expressed as median [25th-75th percentiles] or percentages. Univariate comparisons
were performed using Mann-Whitney or Fisher exact tests, as appropriate. A multivariate
logistic regression model was tested with the five-drug regimen as explanatory variable
and adjustment for independent covariates (gender, age, body-mass index and comorbidities)
to explain the outcome. Odds ratios (OR) and their 95%CI were determined. Stratified
categorical data were compared using Cochran-Mantel-Haenszel tests. P-values≤0.05
were considered significant. Analyses were preformed using the R4.0 environment.
We included sixty-eight patients (age, 66years [54-75]; male/female sex-ratio, 3.5;
body-mass index, 27kg/m² [24-30]; hypertension, 46%; diabetes mellitus, 44%; cardiovascular
disease, 29%; chronic lung disease, 3%). Twenty-eight patients (41%) received the
five drug-therapy regimen whereas forty (59%) were included in the control group.
Based on the 4C Mortality Score (10 [8-12]), predicted mortality on admission was
∼30%. No significant differences were observed between the groups regarding the clinical
and biological characteristics and the predicted mortality (Table 1
). Noteworthy, 4/40 control patients (10%) at risk of cardiogenic pulmonary edema
(serum brain natriuretic peptide (BNP) ≥100ng/mL) received furosemide.
Table 1
Characteristics of the COVID-19 patients treated or not treated with the five-drug
regimen combining prednisone, furosemide, salicylate, colchicine and direct anti-Xa
inhibitor. Data are presented as percentages or medians [percentiles 25th-75th]. Comparisons
were performed using Mann-Whitney or Fisher exact tests, as appropriate.
Table 1
Patients not receiving the five-drug regimen
(N = 40)
Patients receiving the five-drug regimen
(N= 28)
P
Demographics and past medical history
Age (year)
64 [49-73]
68 [62-78]
0.06
Male gender, N (%)
33 (83)
20 (71)
0.37
Body-mass index (kg/m²)
28 [25-31]
26 [24-28]
0.13
Hypertension, N (%)
16 (40)
15 (54)
0.32
Diabetes mellitus, N (%)
15 (38)
15 (54)
0.22
Cardiovascular disease, N (%)
11 (28)
9 (32)
0.78
Chronic lung disease, N (%)
1 (3)
1 (4)
1
Clinical and biological parameters on admission
Symptom duration (day)
8 [4-11]
8 [7-10]
0.99
4C Mortality Score
9 [6-12]
10 [9-12]
0.08
SpO2 at room air (%)
92 [91-96]
94 [91-95]
0.65
PaO2 at room air (mmHg)
63 [58-72]
65 [58-74]
0.72
Crazy paving area on CT-scan (%)
50 [25-50]
50 [25-50]
0.75
Proximal/segmental pulmonary embolism diagnosed on CT-scan, N (%)
4 (10)
1 (4)
0.64
C-reactive protein (mg/L)
97 [60-165]
86 [61-126]
0.68
Procalcitonin (µg/L)
0,14 [0.06-0.25]
0,11 [0.07-0.22]
0.73
White blood cells (G/L)
7.0 [4.9-9.5]
6.3 [4.8-7.4]
0.28
Lymphocytes (G/L)
1.0 [0.7-1.2]
0.9 [0.7-1.2]
0.88
Brain natriuretic peptide (ng/L)
19 [10-52]
38 [13-111]
0.12
Brain natriuretic peptide ≥ 100 ng/L
8 (20)
8 (29)
0.56
Troponin Ic high-sensitivity (ng/mL)
9 [4-20]
9 [4-31]
0.90
D-dimer (ng/mL)
935 [578-1402]
870 [528-1575]
0.92
Serum creatinine (µmol/L)
85 [71-105]
86 [68-111]
0.81
Estimated Glomerular filtration (mL/min)
78 [59-94]
74 [49-91]
0.47
Additional treatments
Prophylactic/therapeutic anticoagulant, N (%)Therapeutic anticoagulant, N (%)
40 (100)8 (20)
28 (100)9 (32)
10.27
Aspirin, N (%)
8 (20)
28 (100)
< 0.0001
Colchicine, N (%)
0 (0)
28 (100)
< 0.0001
Furosemide, N (%)
4 (10)
28 (100)
< 0.0001
Antibiotics, N (%)
29 (73)
17 (61)
0.43
Outcomes
Invasive or non-invasive mechanical ventilation, high-flow oxygen therapy or 28-day
death, N (%)
18 (45)
2 (7)
0.0009
Maximal oxygen flow (L/min)
6 [3-11]
3 [2-4]
0.002
High-flow oxygen therapy, N (%)
5 (13)
1 (4)
0.38
Non-invasive mechanical ventilation, N (%)
5 (13)
0 (0)
0.07
Invasive mechanical Ventilation, N (%)
6 (15)
1 (4)
0.21
28-day death, N (%)
2 (5)
0 (0)
0.5
Length of hospital stay (days)
7 [4-9]
7 [6-9]
0.28
Among patients receiving the five-drug regimen, the incidence of primary composite
endpoint was lower than in the control group (OR=0.097 [0.001-0.48], P=0.0009). Multivariate
analysis confirmed the significant effect of the five-drug regimen on outcome after
adjustment for independent covariates, including age, body-mass index, 4C Mortality
Score, high serum BNP level and high white blood cell count (OR=0.043 [0.0053-0.21],
P=0.0005). The model was significant compared to a model without the five-drug regimen
(P<0.00001). Additionally, patient subgroups were analyzed following stratification
by age (using the median value as threshold), gender and risk factors including diabetes,
elevated BNP (threshold, 100ng/ml) and troponin levels (threshold, 16ng/mL; Figure
1
). Remarkably, the five-drug regimen was associated with a significant reduction in
primary composite endpoint in males only. Additionally, there was a stronger and more
significant protective effect of our regimen in patients with elevated-BNP (OR=0.0
[0.0-0.47], P=0.007) than in low-BNP patients (OR=0.17 [0.02-0.94], P=0.03). Thus,
the primary composite endpoint was improved in elevated- versus low-BNP patients (P=0.0003).
We observed no remarkable adverse effects attributed to the five-drug regimen except
mild colchicine-related diarrhea (21%) resolved with loperamide.
Figure 1
Impact of the prednisolone/furosemide/colchicine/salicylate/direct anti-Xa inhibitor
regimen in the different patient subgroups defined according to age (using the median
value, 66.5 years, as threshold), gender, presence of diabetes mellitus, serum brain
natriuretic peptide (BNP; threshold at 100 ng/mL) and troponin levels (threshold at
16 ng/mL). Odds ratio (OR) and their 95%-confidence intervals were determined.
Figure 1
The GRECCO-19 trial showed improved time to clinical deterioration in hospitalized
COVID-19 patients receiving colchicine; however, the benefit relied on a narrow margin
of clinical significance.
3
By adding colchicine to the recommended corticosteroid and anticoagulant, together
with aspirin and furosemide, we succeeded in improving the outcome. The five drugs
included in our regimen were given orally for a short course, paving the way for an
outpatient treatment. Interestingly, the recent COLCORONA trial conducted in non-hospitalized
COVID-19 patients supported colchicine-related benefit in reducing hospitalizations,
need for mechanical ventilation and mortality.
11
Colchicine dose regimen differed between the three studies with higher cumulative
colchicine doses in the GRECCO-19 (22mg) and COLCORONA trials (16.5mg) compared to
ours (8mg). Using the same primary composite endpoint, our five-drug regimen significantly
improved prognosis in comparison to the corticosteroid/furosemide combination of our
previous study
2
(P=0.0001).
In conclusion, our data highlight the benefit and safety of an early short-course
oral regimen combining prednisolone/colchicine/salicylate/direct anti-Xa inhibitor/furosemide
to reduce the risk of high flow oxygen need, mechanical ventilation requirement or
28-day mortality in hospitalized non-critically ill COVID-19 patients. Our preliminary
observational findings should be confirmed in larger cohorts.
Ethics approval and consent to participate
This study was part of the French COVID-19 cohort registry conducted by the REACTing
consortium (REsearch and ACTion targeting emerging infectious diseases) and directed
by INSERM (Institut national de la santé et de la recherche médicale) and ISARIC (International
Severe Acute Respiratory and Emerging Infection Consortium). Our institutional ethics
committee approved the study (N°, IDRCB, 2020-A00256-33; CPP, 11-20 20.02.04.68737).
Availability of data and materials
J.-P.K. had full access to all of the data in the study and takes responsibility for
the integrity of the data and the accuracy of the data analysis.
Consent for publication
All the authors agree to publish.
Declaration of Competing Interest
The authors declare that they have no competing interests.