Nebulized Heparin for the Treatment of COVID-19
Covid19Pneumonia1 moreRandomized, placebo controlled study to determine if nebulized heparin may reduce the need for mechanical ventilation in hospitalized patients with the novel coronavirus, also known as COVID-19. This will be a part of a larger meta-trial.
Prone Position and Respiratory Outcomes in Non-Intubated COVID-19 PatiEnts The "PRONE" Study
Covid19Pneumonia1 moreThe overall objective of this study is to determine whether a positional maneuver (e.g., prone positioning) decreases the need for escalation of respiratory-related care in patients with coronavirus (COVID-19) pneumonia.
Safety, PK and PD of Kamada Anti-SARS-CoV-2 in COVID-19
Covid19Pneumonia1 moreEvaluate the safety pharmacokinetics and pharmacodynamics (PK/PD)of a single dose of Kamada anti-severe acute respiratory syndrome (SARS)- CoV-2 in patients hospitalized with COVID-19 caused pneumonia
Antioxidants as Adjuvant Therapy to Standard Therapy in Patients With COVID-19
PneumoniaViral3 moreIntroduction: SARS-CoV2 infection produces severe pneumonia with pulmonary alveolar collapse. There is no specific treatment to date. In experimental models and humans with septic shock, there is a high production of nitric oxide (NO) and reactive nitrogen species (RNS) and can cause multiple organ failure. The administration of antioxidants such as n-acetylcysteine (NAC), vitamin C, melatonin, and vitamin E participate in increasing the intracellular content of GSH, ROS sequestration, protection of the lipids of cell membranes, cytosol proteins, nuclear DNA, mitochondrial and decrease LPO. Justification: as there is no specific antiviral therapy, the therapeutic options are limited, complications and mortality are high; It is intended to evaluate the effect of antioxidants on the storm outcome of the dysregulation of oxidative stress. Hypothesis: It is postulated that adjuvant therapy with antioxidants and Pentoxifylline reduces the use of ventilators in patients with or without septic shock secondary to severe SARS-COV2 pneumonia as decreases lipoperoxidation, and corrects dysregulation of oxidative stress by increasing the antioxidant capacity. Objectives: To evaluate whether it is possible to avoid intubation or decrease assisted mechanical ventilation days, improve oxidative stress dysregulation in patients with SARS-COV2 infection with severe pneumonia with or without septic shock. Methodology: Quasi-experimental, open analytical, prospective, and longitudinal study (before-after). In patients over 18 years of age who are admitted to the CITIBANAMEX Center with or without septic shock secondary to severe SARS-COV2 pneumonia. There will be two groups: 1) patients without septic shock and 2) patients with septic shock secondary to severe pneumonia due to SARS-COV2. A single antioxidant will be applied following the clinical decision tree (NAC, Vit C, Vit E, melatonin) more Pentoxifylline orally or by orogastric tube for a total of 5 days from the start of the protocol. APACHE II will calculate the risk, SOFA, MEXSOFA, measurements of IL-8, vitamin C, NO3 / NO2, LOP, total antioxidant capacity will be carried out at baseline and 48 hours. SOFA will be calculated for seven days, in addition to days of hospitalization, days of mechanical ventilation. It was evaluated 28 days after discharge by telephone.
TranSfUsion of coNvalescent plAsma for the Early Treatment of pneuMonIa in COVID-19 Patients
Covid19Coronavirus Infection2 moreThis is a multicenter open-label randomized study for the early treatment of pneumonia due to SARS-COV2 with transfusion of convalescent plasma. Patients with pneumonia due to SARS-CoV-2 will be randomized to receive or not convalescent plasma collected by recovered patients with previous diagnosis of COVID19
Study on Efficacy and Safety of Reparixin in the Treatment of Hospitalized Patients With Severe...
PneumoniaViralThe study objective is to assess Efficacy and safety of Reparixin treatment as compared to placebo (both on top of standard treatment) in adult patients with severe COVID-19 pneumonia.
Methylprednisolone vs. Dexamethasone in COVID-19 Pneumonia (MEDEAS RCT)
Covid19Viral Pneumonia Human Coronavirus1 moreLow-dose glucocorticoid treatment is the only intervention shown to significantly reduce mortality in cases of COVID-19 pneumonia requiring oxygen supplementation or ventilatory support. In particular, a large UK randomized controlled trial (RECOVERY trial) demonstrated the efficacy of dexamethasone at a dosage of 6mg/day for 10 days in reducing mortality compared to usual therapy, with a greater impact on patients requiring mechanical ventilation (36% reduction) or oxygen therapy (18% reduction) than on those who did not need respiratory support (doi: 10.1056/NEJMoa2021436). However, there is still paucity of information guiding glucocorticoid administration in severe pneumonia/ARDS and no evidence of the superiority of a steroid drug -nor of a therapeutic scheme- compared to the others, which led to a great heterogeneity of treatment protocols and misinterpretation of available findings. In a recent longitudinal observational study conducted in Italian respiratory high-dependency units, a protocol with prolonged low-dose methylprednisolone demonstrated a 71% reduction in mortality and the achievement of other secondary endpoints such as an increase in ventilation-free days by study day 28 in a subgroup of patients with severe pneumonia and high levels of systemic inflammation (doi: 10.1093/ofid/ofaa421). The treatment was well tolerated and did not affect viral shedding from the airways. In light of these data, the present study aims to compare the efficacy of a methylprednisolone protocol and that of a dexamethasone protocol based on previous evidence in increasing survival by day 28, as well as in reducing the need and duration for mechanical ventilation, among hospitalized patients requiring noninvasive respiratory support (oxygen supplementation and/or noninvasive ventilation).
Nitric Oxide Therapy for COVID-19 Patients With Oxygen Requirement
HypoxemiaPneumonia2 morePreliminary data support the effect of Nitric Oxide (NO) on improving the oxygenation in mechanically ventilated patients and spontaneously breathing patients with COVID-19. In vitro studies showed an antiviral effect of NO against SARS-coronavirus. The optimal therapeutic regimen of NO gas in spontaneously breathing hypoxemic patients with COVID-19 is not known. We hypothesize that high concentration inhaled NO with an adjunct of continuous low dose administration between the high concentration treatments can be safely administered in hypoxemic COVID-19 patients compared to the high dose treatment alone. Prolonged administration of NO gas may benefit the patients in terms of the severity of the clinical course and time to recovery. Together with a clinical effect on ventilation-perfusion matching, a prolonged regimen would allow also an increase in antiviral activity (dose and time-dependent).
A Study of the Effectiveness of an Off Label Mefloquine Use for the Treatment of Patients With COVID19...
PneumoniaViral1 moreStudy of the effectiveness and safety of the drug Mefloquine, tablets 250 mg, produced by FSUE "SPC" Farmzaschita " FMBA of Russia (Russia), in comparison with the drug Hydroxychloroquine, tablets 200 mg, for the treatment of patients with coronavirus infection, in the "off-label" mode, to make a decision on the possibility of expanding the indications for use.
Toclizumam Versus Dexamethasone in Severe Covid-19 Cases
PneumoniaViralrandomized controlled trial comparing survival benefit of Tocilizumab therapy with dexamethasone in patients with severe COVID 19