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Clinical Trial Summary

The global pandemic COVID-19 has overwhelmed the medical capacity to accommodate a large surge of patients with acute respiratory distress syndrome (ARDS). In the United States, the number of cases of COVID-19 ARDS is projected to exceed the number of available ventilators. Reports from China and Italy indicate that 22-64% of critically ill COVID-19 patients with ARDS will die. ARDS currently has no evidence-based treatments other than low tidal ventilation to limit mechanical stress on the lung and prone positioning. A new therapeutic approach capable of rapidly treating and attenuating ARDS secondary to COVID-19 is urgently needed. The dominant pathologic feature of viral-induced ARDS is fibrin accumulation in the microvasculature and airspaces. Substantial preclinical work suggests antifibrinolytic therapy attenuates infection provoked ARDS. In 2001, a phase I trial 7 demonstrated the urokinase and streptokinase were effective in patients with terminal ARDS, markedly improving oxygen delivery and reducing an expected mortality in that specific patient cohort from 100% to 70%. A more contemporary approach to thrombolytic therapy is tissue plasminogen activator (tPA) due to its higher efficacy of clot lysis with comparable bleeding risk 8. We therefore propose a phase IIa clinical trial with two intravenous (IV) tPA treatment arms and a control arm to test the efficacy and safety of IV tPA in improving respiratory function and oxygenation, and consequently, successful extubation, duration of mechanical ventilation and survival.


Clinical Trial Description

As the COVID-19 pandemic accelerates, cases have grown exponentially around the world. Other countries' experience suggests that 5-16% of COVID-19 in-patients will undergo prolonged intensive care with 50-70% needing mechanical ventilation(MV) threatening to overwhelm hospital capacity. ARDS has no effective treatment besides supportive care, the use of ventilation strategies encompassing low tidal volumes that limit trans-pulmonary pressures, and prone positioning in severe disease. Most current trials in clinicaltrials.gov for COVID-19-induced ARDS aim at modulating the inflammatory response or test anti-viral drugs. Sarilumab and tocilizumab that block IL-6 effects are being tested in RCT for patients hospitalized with severe COVID-19 (NCT04317092, NCT04322773, NCT04327388). The World Health Organization international trial SOLIDARITY will test remdesivir; chloroquine + hydroxychloroquine; lopinavir + ritonavir; and lopinavir + ritonavir and interferon-beta (NCT04321616). Yet studies targeting the coagulation system, which is intrinsically intertwined with the inflammatory response are lacking. A consistent finding in ARDS is the deposition of fibrin in the airspaces and lung parenchyma, along with fibrin-platelet microthrombi in the pulmonary vasculature, which contribute to the development of progressive respiratory dysfunction and right heart failure. Similar to pathologic findings of ARDS, microthrombi have now been observed in lung specimens from patients infected with COVID-19. Inappropriate activation of the clotting system in ARDS results from enhanced activation and propagation of clot formation as well as suppression of fibrinolysis. Our group has shown that low fibrinolysis is associated with ARDS. Studies starting decades ago have demonstrated the systemic and local effects of dysfunctional coagulation in ARDS, specifically related to fibrin. This occurs largely because of excessive amounts of tissue factor that is produced by alveolar epithelial cells and activated alveolar macrophages, and high levels of plasminogen activator inhibitor-1 (PAI-1) produced and released by endothelial cells. Consistent with this, generalized derangements of the hemostatic system with prolongation of the prothrombin time, elevated D-dimer and fibrin degradation products have been reported in severely ill COVID-19 patients, particularly in non-survivors. These laboratory findings, in combination with the large clot burden seen in the pulmonary microvasculature, mirrors what is seen in human sepsis, experimental endotoxemia, and massive tissue trauma. Targeting the coagulation and fibrinolytic systems to improve the treatment of ARDS has been proposed for at least the past two decades. In particular, the use of plasminogen activators to limit ARDS progression and reduce ARDS-induced death has received strong support from animal models, and a phase 1 human clinical trial. In 2001, Hardaway and colleagues showed that administration of either urokinase or streptokinase to patients with terminal ARDS reduced the expected mortality from 100% to 70% with no adverse bleeding events. Importantly, the majority of patients who ultimately succumbed died from renal or hepatic failure, rather than pulmonary failure. Consideration of therapies that are widely available but not recognized for this indication and traditionally considered "high-risk" such as fibrinolytic agents is warranted in this unprecedented public health emergency, since the risk of adverse events from tPA is far outweighed by the extremely high risk of death in the patient's meeting the eligibility criteria for this trial. While the prior studies by Hardaway et al evaluating fibrinolytic therapy for treatment of ARDS used urokinase and streptokinase, the more contemporary approach to thrombolytic therapy involves the use of tissue-type plasminogen activator (tPA) due to higher efficacy of clot lysis with comparable bleeding risk to the other fibrinolytic agents. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT04357730
Study type Interventional
Source Denver Health and Hospital Authority
Contact
Status Completed
Phase Phase 2
Start date May 14, 2020
Completion date September 30, 2021

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