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Clinical Trial Summary

As of 30/03/2020, 715600 people have been infected with COVID-19 worldwide and 35500 people died, essentially due to respiratory distress syndrome (ARDS) complicated in 25% of the with acute renal failure. No specific pharmacological treatment is available yet. The lung lesions are related to both the viral infection and to an intense inflammatory reaction. Because of it's action, as an immunomodulatory agent that can attenuate the inflammatory reaction and also strengthen the antiviral response, it is proposed to evaluate the effectiveness and safety of intravenous immunoglobulin administration (IGIV) in patients developing ARDS post-SARS-CoV2. IGIV modulates immunity, and this effect results in a decrease of pro-inflammatory activity, key factor in the ARDS related to the COVID-19. It should be noted that IGIV is part of the treatments in various diseases such as autoimmune and inflammatory diffuse interstitial lung diseases. In addition, they have been beneficial in the post-influenza ARDS but also have been in 3 cases of post-SARS-CoV2 ARDS. IGIV is a treatment option because it is well tolerated, especially concerning the kidney. These elements encourage a placebo-controlled trial testing the benefit of IGIV in ARDS post-SARS-CoV2.


Clinical Trial Description

As of 30/03/2020, 715600 people have been infected with COVID-19 worldwide and 35 500 people have died, mainly from acute respiratory distress syndrome (ARDS) complicated in 25% of cases with acute renal failure. No specific pharmacological treatment is available yet. Pulmonary lesions in these patients are related to both viral infection and an inflammatory reaction. Patients admitted to intensive care have an important inflammatory response and increased plasma concentrations of IL2, IL7, IL10, GCSF, IP10, MCP1, MIP1A, and TNFα. In the blood, the number of peripheral CD4 and CD8 T cells appears to be significantly reduced, while their status is hyperactivated. This is evidenced by immunoreactive cytometrics for HLA-DR (CD4 3-47%) and CD38 (CD8 39-4%) or by an increase in the proportion of highly pro-inflammatory Th 17 CCR6+ lymphocytes. In addition, CD8 T cells would exhibit a highly cytotoxic profile characterized by high concentrations of cytotoxic granules, perforin+, granulysin+ or double positive, suggesting associated complement activation. Because of their immunomodulatory action, which can attenuate the inflammatory response; and also strengthen the anti-viral defence, it is proposed to evaluate the efficacy and safety of intravenous immunoglobulin (IGIV) administration in patients developing post-SARS-CoV2 ARDS. IGIV modifies cell function of dendritic cells, cytokine and chemokine networks and T-lymphocytes, resulting in the proliferation of regulatory T cells to regulate the activity of T lymphocytes CD4 or CD8. The action of IGIV induces an activation more particularly of lymphocytes T regulators that could modulate the effects of the lymphocyte populations described in the study by Xu et al during COVID-19. In addition, IGIV modulate humoral acquired immunity, through their effect on the idiotypic network and antibody production. They also act on innate immunity, through antigen neutralization and modulation of phagocytic cells. These effects result in a decrease in the production of pro-inflammatory cytokines and complement activation, key factors in post-SARS-CoV2 ARDS. IGIV is part of the treatment for a variety of autoimmune and inflammatory diseases. The standard IGIV as well as polyclonal IGIV significantly reduced mortality in patients with septic shock and in Kawasaki disease, which is post-viral vasculitis of the child. In addition, they would not only be beneficial in post-influenza ARDS, but also would also in 3 cases of post-SARS-CoV2 ARDS. IVIG is a treatment option because it is well tolerated, especially regarding renal function. These factors are encouraging to quickly conduct a multicentre randomized placebo-controlled trial testing the benefit of IGIV in post-SARS-CoV2 ARDS. We hypothesize that the number of days without invasive mechanical ventilation (IMV) is 10 days in the placebo group and 15 days in the experimental group with a standard deviation of 6 days, considering a mortality of 50% and 40% in the placebo and experimental groups respectively (26, 27). The number of days without IMV in the placebo group is (50% x 10 D) + (50% x 0 D) or 5 D on average, and following the same calculation for the experimental group of (60% x 15 D) + (40% x 0 D) or 9 D. Therefore, a mean value of 5 days without ventilation in the placebo group versus 9 in the experimental group is assumed, and the 6-day standard deviation is assumed to be stable. Given the uncertainty regarding the assumption of normality of distributions, the non-parametric Wilcoxon-Mann-Whitney test (U-test) was used for the estimation of the sample size. Considering a bilateral alpha risk of 5% and a power of 90% and an effect size of 0.6, the number of subjects to be included is 138 patients, 69 in each arm. The primary and secondary analyses will be stratified by age categories, sex and other clinically relevant factors (comorbidities). Demographic characteristics and parameters identified at enrolment will be summarized using descriptive statistical methods. Demographic summaries will include gender, race/ethnicity, and age. For demographic and categorical background characteristics, a Cochran-Mantel-Haenszel test will be used to compare treatment groups. For continuous demographic and baseline characteristics, a Wilcoxon test will be used to compare treatment groups. The number of days without mechanical ventilation will be presented as a mean with standard deviation. The groups will be analyzed in terms of intention to treat and the difference between the two groups will be analyzed by a non-parametric test of comparison of means, stratified for the primary endpoint. The point estimate of the difference between treatments and the associated 95% confidence interval will be provided. A regression model for censored data (Cox model) will explore prognostic factors. The IGIV immunological and pathological related efficacy endpoints will also be compared according to their distribution and analyzed using Student, Mann-Whitney and Fisher tests. Other variables will be presented as means and standard deviations or medians and interquartile ranges according to their distribution and analyzed by Student, Mann-Whitney and Fisher tests. Parameters that are measured on a time scale from randomization or start of administration will be compared between treatment groups using the Log-Rank test. The choice of statistical tests and multivariate models (parametric or non-parametric) will be made for each variable based on observed characteristics (normality of distributions and residuals, collinearity). The statistical analyses relating to the main objective will be carried out as intention to treat. Secondary analyses on the population per protocol may also be carried out. All tests will be bilateral with a significance threshold of 5%. The software used will be SPSS v26 (SPSS Inc., Chicago, IL, USA). An interim analysis will be performed after 50 participants are enrolled and another after 100 inclusions. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT04350580
Study type Interventional
Source Centre Hospitalier St Anne
Contact
Status Completed
Phase Phase 3
Start date April 11, 2020
Completion date February 20, 2021

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