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Clinical Trial Summary

Background: On December 2019, a new human coronavirus infection (COVID-19) was detected in China. Its infectivity and virulence characteristics caused a rapid spread, being declared pandemic on March 2020. The mortality attributed to the infection ranges between 3 and 10%. Main risk factors are age, male sex, and chronic degenerative comorbidities. Due to the absence of therapeutic options, potential alternatives such as human immunoglobulin or plasma from convalescent patients have been administered. Due to the severity of the disease and the associated mortality, it is urgent to find therapeutic alternatives. Objective: To assess the safety and efficacy of the administration of Convalescent plasma vs human immunoglobulin in critically ill patients with COVID-19 infection. Material and methods: Randomized Controlled trial of patients diagnosed with respiratory infection by COVID-19, with severe respiratory failure without indication of mechanical ventilation, or those who due to their severity are intubated upon admission. Randomization will be performed 2:1 to receive plasma from convalescent patients or human immunoglobulin. Outcomes: The primary outcome will be time to discharge from hospital for improvement. The safety outcomes will be: Kirby index (PaO2/FiO2) evolution and dead.


Clinical Trial Description

I. Background: In late December 2019, the health authorities of the Popular Republic of China reported several cases of pneumonia of unknown origin in Wuhan City, Hubei Province, China. On December 31, 2019, the Chinese Center for Disease Control and Prevention began etiological and epidemiological research on this disease. Three samples of bronchoalveolar lavage were taken from patients from the Jinyintan hospital in Wuhan and through various processes they came to identify a new coronavirus that they initially called on January 7, 2020 as: 2019-nCoV. On January 2020, the World Health Organization (WHO) made the first recommendations on the epidemiological surveillance of this new coronavirus. On January 22, 2020, the first session of the Emergencies Committee was convened by WHO in Geneva, Switzerland and on January 30 a Public Health Emergency of International Importance (ESPII) was declared. On February 11, the International Committee on Virus Taxonomy named this new coronavirus as SARS-CoV-2 and responds to "Severe Acute Respiratory Syndrome Coronavirus 2 "(Severe Acute Respiratory Syndrome CoronaVirus 2), the WHO proposes that same day to call the disease caused by SARS-CoV-2 as COVID-19. The first case reported in Latin America was in Brazil on February 26 and on the 28th of the same month, Mexico communicates its first confirmed case of the new coronavirus in a 35-year-old patient from a trip to Italy. Given the alarming levels of spread and severity of COVID-19, on March 11, WHO Director-General Tedros Adhanom Ghebreyesus declares the SARS-CoV-2.5 outbreak as a pandemic. A high percentage of patients especially over 50 y with comorbidities require hospitalization and intensive care. Mortality of patients with invasive mechanical intubation has been reported up to 61% . At this time, there are no treatment that has shown clinical efficacy, so the plasma from convalescent patients and human immunoglobulin (IVIG) have been proposed as alternatives. Human immunoglobulin: There are no controlled studies with the use of IVIG for the treatment of COVID-19 infection. In observational reports it was found in three patients with early forms in patients hospitalized for pneumonia secondary to COVID-19, treated with IVIG at a dose of 0.3 - 0.5 gr / kg. All three patients showed clinical improvement, so this study justified the start of a clinical trial. An observational experience with important limitations in its report, describes the experience with 58 patients with severe pneumonia who found differences in mortality at 28 days when they divided the groups according to the IVIG administration time (48 hours), emphasizing the importance of early application. In similar situations historically diverse scenarios have been found where IVIG has been administered with apparent success. However, there are no clinical trials supporting its use. Convalescent patient plasma: The use of plasma from convalescent patients for the treatment of severe infection by COVID19 has been considered as a first-line therapeutic option since the start of the pandemic. The seroconversion of the patients during the first months of the outbreak was unknown, being an obstacle to recommend this type of treatment. Very recently, the serological behavior of 285 patients was published; 100% of the patients have detected antibodies 19 days after detection of the virus. The experiences reported so far are only case series without simultaneous comparative groups. Viral clearance has been effective, in all included patients in a small series of 6 patients. This viral clearance was not accompanied by mortality benefits, the authors suggesting that it was probably due to the late administration of plasma. Data supporting the use of convalescent plasma for severe acute respiratory syndrome (SARS) are limited to case reports and case series. Use in case series for severe infections due to MERS, Ebola and influenza have reported clinical improvement, although none of the studies were conducted comparatively. Risks associated with plasma transfusion include TRALI, transfusion-associated circulatory overload, and allergic transfusion reactions. Rare complications include transmission of infectious diseases and alloimmunization of red blood cells. Clinical trials are underway to evaluate both convalescent plasma and IVIG from SARS-CoV-2 for the treatment of COVID-19. The FDA has approved a national expanded access program for the use of convalescent plasma for the treatment of patients with COVID-19. Physicians can refer to the National Convalescent Plasma Project COVID-19 website for more information. People who have fully recovered from COVID-19 for at least two weeks and are interested in donating plasma can contact their local blood donor or plasma collection center or consult the American Red Cross website. The national transfusion center in Mexico has published guidelines for the use of serum from convalescent patients. II. Definition of the problem: COVID-19 infection has had a high rate of spread. In patients with comorbidities and over 50 years, the infection has presented the highest rate of respiratory deterioration and the requirement for invasive mechanical ventilation. Due to the absence of specific treatment, various alternatives have been explored. In critically ill patients, the administration of human immunoglobulin and plasma from convalescent patients have emerged as potential rescue therapies. The proposed treatments have an adequate margin of safety due to routine clinical use in other settings. Due to this, in conjunction with the urgent need to seek therapeutic alternatives, controlled studies are required without assuming efficacy. III. Justification COVID-19 infection has collapsed health systems in almost all the countries due to the large number of patients requiring respiratory assistance. There is no standard treatment for the management of this infection and the focus has been on the already known life support and management of Adult Respiratory Distress Syndrome in critically ill patients. The treatments used empirically have an adequate safety profile due to the experience in other clinical settings. The use of these empirical alternatives should be based on clinical trials since efficacy and safety should not be assumed in the group of patients with COVID-19. The Miguel Hidalgo Centennial Hospital has been designated as a hospitalization center for COVID-19 patients who do not have Social Security in the state of Aguascalientes. IV. Hypothesis In patients with COVID19 infection with severe respiratory failure or requiring invasive mechanical ventilation, plasma treatment of convalescent patients will be superior to immunoglobulin, with a shorter hospital stay and a lower rate of complications: deterioration of the oxygenation index or death. V. General objectives. To assess the safety and efficacy of plasma administration of convalescent patients or immunoglobulin in patients with severe COVID-19 infection with severe respiratory failure or requiring mechanical ventilation. Assess viral clearance time using PCR VI. Methodology Randomized controlled trial, Included patients will be randomized (2:1) to receive one of two maneuvers: Group 1: Plasma donated from convalescent patients will be extracted in strict compliance with the following criteria: - History of a clinical event with symptoms attributed to COVID-19 and a positive PCR test for COVID-19 - Further confirmation of a negative PCR test for COVID-19 - In order to be eligible plasma donors must complete at least 14 days after the last negative PCR in the absence of any symptom attributable to COVID-19 infection - IgG antibodies for COVID-19 must be confirmed POSITIVE when a qualitative assay is being used - When quantification of IgG antibodies for COVID-19 is available a title > 1: 640 will be required for inclusion. - Apheresis will be used as the only method for plasma extraction. Infusion of 400 ml of Plasma will be infused Group 2: Human immunoglobulin 0.3 gr / kg (5 doses) VII. Definition of the variables: Days of hospitalization: Days from admission as a suspected case of COVID with hospitalization criteria until discharge. Hospital discharge criteria: negative PCR for COVID-19, oxygen saturation in ambient air > 90%, absence of fever and dyspnea. Oxygen supplementation requirement: This is based on the modality and FiO2 necessary to maintain a saturation of 90% of ambient air without respiratory distress. Respiratory distress syndrome: Respiratory rate greater than 25 x minute and use of accessory muscles. Respiratory failure: Saturation to ambient air below 90% or PO2 below 60 mmHg. Septic Shock: Requirement of vasoactive amines to maintain mean arterial pressure above 65 mmHg, in a patient previously with adequate water resuscitation. SOFA: Organic failure scale that includes: PaO2 / FiO2 ratio, platelet count, bilirubin, blood pressure, Glasgow scale and kidney function. APACHE 2: Morbidity scale in intensive care. PaO2 / FiO2 Index: Ratio of oxygen pressure to inspired fraction of oxygen RT-qPCR SARS-CoV-2: Quantitative measurement by RT-PCR method usually performed on blood. It will be evaluated as a start for diagnosis and then a test will be repeated on days 5, 14 and 21 to assess viral clearance. Inflammatory markers: Laboratory studies used as markers of disease severity, consist of procalcitonin, C-reactive protein, lactate dehydrogenase, blood cytometry, dimer-D, ferritin. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT04381858
Study type Interventional
Source Centenario Hospital Miguel Hidalgo
Contact
Status Completed
Phase Phase 3
Start date May 6, 2020
Completion date November 26, 2020

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