COVID-19 Clinical Trials and Expanded Access

The study will follow COVID-19 patients who required intensive care after 3-6 months and one year after discharge from the ICU with functional level as well as organ function to assess recovery after COVID-19. Blood and urine will be collected for biobanking.

The COVID-19 crisis began in China in December 2019 and was declared a pandemic by the World Health Organisation on March 11th 2020. The pandemic has changed the way that clinicians interact with and treat patients overnight. Staff within the NHS will be under high levels of stress due to the increased needs and worse outcomes of work as they are shielding or self-isolating and may feel helpless and guilty. The psychological impact of the pandemic will be prolonged and varied. It is vital that Investigators increase understanding as much as possible to support NHS staff. The aim of this survey is to examine the possible mental health burden on NHS staff as a result of the COVID-19 pandemic and how these change as the pandemic progresses. By understanding these effects, it will allow researchers to identify recommendations to allow support mechanisms to be put in place for NHS staff, to better manage this and future pandemics and similar crises. Investigators are aiming to sample several cohorts of NHS staff including a subset of staff who are shielding. Staff will be asked to complete a series of online surveys at multiple timepoint: on study initiation, 1 month later and then 3 months after the pandemic has ceased in the UK. Additional timepoints may be added depending on the length and severity of the pandemic. The main outcomes will be tracking changes in mental health measurements at the pre-defined timepoints. This work will allow Investigators to produce recommendations about the increased mental health support that NHS staff will need. If a need is demonstrated then an interventional research project will be designed and implemented.

The purpose of the study is to verify the sensibility and accuracy of a rapid detection test for SARS-CoV-2 in breath samples analyzed by the breath detector analyzer TeraSystem, comparing with PCR tests.

Lymphopenia is common in patients with COVID-19 and is associated with worse clinical outcomes. NT-I7 is a long-acting human interleukin-7 (IL-7) that has been shown to increase absolute lymphocyte count (ALC) and CD4+ and CD8+ T cell counts with a well-tolerated safety profile in humans. In this study, patients who have tested positive for SARS-CoV-2 by PCR testing without severe disease and with ALC

This is a prospective, randomized, single-center, open-label controlled trial, designed to compare the efficacy of two ventilation strategies (Low Tidal Volume and positive end-expiratory pressure (PEEP) based on the Acute Respiratory Distress Syndrome (ARDS) Network low PEEP-fraction of inspired oxygen inspired oxygen fraction (FIO2) Table versus Low Driving Pressure and PEEP guided by Electrical Impedance Tomography (EIT) in reducing daily lung injury score in patients with acute respiratory distress syndrome caused by COVID-19. The two strategies incorporate different prioritizations of clinical variables. The PEEP-FIO2 table strategy aims to reduce lung overdistension, even if it requires tolerating worse gas exchange. EIT-guided strategy prioritizes mechanical stress protection, avoiding alveolar overdistension and collapse.

The purpose of this study is to explore the effectiveness of processed human amniotic fluid as a treatment for COVID-19.

The study was not opened.

Antioxidants, and particularly polyphenols, have shown protection in respiratory pathologies, which is related to the decrease in the severity of the clinical picture and suppression of inflammation. This suppression of inflammation may be related to the inhibition of NF-kB polyphenols, where its activation is related to the stimulation of 150 stimuli including cytokines (IL-1β, IL-6, THF-α, GM-CSF, MCP-1), TLRs, among others. There may be other additional mechanisms that can help control virus-induced respiratory pathologies, among which are the regulation of reactive oxygen species (ROS) associated with tissue destruction caused by the virus and a selective antiviral action can be reported. direct. The standardized P2Et extract obtained from C. spinosa, by the Immunobiology Group of the Pontificia Universidad Javeriana, is highly antioxidant, decreases lipid peroxidation and tissue damage and induces complete autophagy in stressed or tumor cells. The induction of a full autophagic flow could inhibit the replication of beta-coronaviruses like SARS-CoV-2. Furthermore, P2Et can decrease the factors involved in tissue damage by reducing IL-6 and decrease ILC2 cells of the lung in animals with lung metastases (unpublished data). These antecedents suggest that the supplementation of patients with COVID-19 with the extract P2Et, could improve their general condition and decrease the inflammatory mediators and the viral load.

In light of the rapidly emerging pandemic of SARS-CoV-2 infections, the global population and health care systems are facing unprecedented challenges through the combination of transmission and the potential for severe disease. Acute respiratory distress syndrome (ARDS) has been found with unusual clinical features dominated by substantial alveolar fluid load. It is unknown whether this is primarily caused by endothelial dysfunction leading to capillary leakage or direct virus induced damage. This knowledge gap is significant because the initial balance between fluid management and circulatory support appear to be decisive. On progression of the disease, bacterial superinfection facilitated by inflammation and virus related damage, has been identified as the main factor for patient outcome, but the role of the host versus the environment microbiome remains unclear. The overarching aim of the present research proposal is to improve therapeutic strategies in critically ill patients with ARDS due to SARS-CoV-2 infection by advancing the pathophysiological understanding of this novel disease. This research thus focuses on inflammation, microcirculatory dysfunction and superinfection, aiming to elucidate risk factors (RF) for the development of severe ARDS in SARS-CoV-2 infected patients and contribute to the rationale for therapeutic strategies. The hypotheses are that (I) the primary damage to the lung in SARS-CoV-2 ARDS is mediated through an exaggerated pro-inflammatory response causing primary endothelial dysfunction, and subsequently acting two-fold on the degradation of the lung parenchyma - through the primary cytokine response, and through recruitment of the inflammatory-monocyte-lymphocyte-neutrophil axis. The pronounced inflammation and primary damage to the lung disrupts the pulmonary microbiome, leading secondarily to pulmonary superinfections. (II) Pulmonary bacterial superinfections are a significant cause of morbidity and mortality in COVID-19 patients. Pathogen colonization main Risk Factor for lower respiratory tract infections. To establish colonization, pathogens have to interact with the local microbiota (a.k.a. microbiome) and certain microbiome profiles will be more resistant to pathogen invasion. Finally, (III) Handheld devices used in clinical routine are a potential reservoir and carrier of both, SARS-CoV-2, as well as bacteria causing nosocomial pneumonia.

The purpose of this study is to assess whether lopinavir/ritonavir (or eventually other antiviral drugs) is effective at reducing the rate of hospitalization among confirmed COVID-19 cases treated as outpatients.