COVID-19 Clinical Trials and Expanded Access

The purpose of this study is to evaluate the efficacy and safety of ruxolitinib in the treatment of participants with COVID-19-associated Acute Respiratory Distress Syndrome (ARDS) who require mechanical ventilation.

Acute respiratory distress syndrome (ARDS) is a major complication among patients with severe disease. In a report of 138 patients with COVID-19, 20% developed ARDS at a median of 8 days after the onset of symptoms, with 12.3% of patients requiring mechanical ventilation. Efficacious therapies are desperately needed. Supportive care combined with intermittent prone positioning may improve outcomes. Prone positioning (PP) of patients with severe ARDS (when combined with other lung-protective ventilation strategies) is associated with a significant mortality benefit. In addition, PP for >12 hours in severe ARDS is strongly recommended by clinical practice guidelines. The aim of this study is to compare the outcomes of prone positioning versus usual care positioning in non-intubated patients hospitalized for COVID-19.

Attention control for external information and cognitive control for internal information play a causal role in emotion regulation according to different theories and empirical research. Former research in the lab of the investigators has shown positive effects of an interactive attention control/interpretation training, in which participants learned to unscramble scrambled sentences ("life is my a party mess") in a positive way ("my life is a party") by getting eye-tracking feedback about attention for positive ("party") vs. negative information ("mess"). After the training, participants could better reinterpret negative photos in a positive way. Attention- and cognitive control mechanisms prior to negative stressors (proactive control) and after negative stressors (reactive control) seem to play a role in this. Moreover, research has shown that low perceived control and negative expectations about future emotion regulation skills results in lower proactive control and a higher need of reactive control. Based on this, the assumption can be made that the effects of attention control training - targeting reactive control - could benefit from adding techniques that affect proactive control (e.g. psycho-education). In the present study this is investigated by testing a new two weeks attention control training to see if this has a positive effect on stress related complaints, depressive symptoms and emotion regulation. Given that the current COVID-19 pandemic is perceived as very stressful by a lot of people, the training could help here. Participants between 18 to 65 years of age are recruited during this corona crisis. The attention control training is a new smartphone based application. Participants have to unscramble scrambled sentences into grammatically correct sentences. In the training condition, participants are asked to unscramble the scrambled sentences in a positive way. By swiping, participants can see part of the sentences. This gives the investigators an image about the processing of the sentences. This procedure allows to measure how long participants attend to positive and negative words. In the training condition participants get feedback about the duration they process positive and negative words. In the control group participants unscramble the sentences as fast as possible without feedback on emotional attention. Participants only get feedback about the speed at which sentences are unscrambled. Before and after the 10 training sessions, attention of the participants is measured to see the effects of the training. Questionnaires on depressive and anxiety complaints, emotion regulation strategies, well-being and stress are administered before and after the training. There is also a follow-up measure 2 months after the training. Both groups (training and control) watch a psycho-education video before the start of the training.

The purpose of this study is to assess the efficacy and safety of prazosin to prevent cytokine storm syndrome and severe complications in hospitalized patients with Coronavirus disease 2019 (COVID-19).

The overall objective is to evaluate the efficacy, tolerability, and safety of a single dose of RBT-9 versus placebo in coronavirus disease 2019 (COVID-19) infection in non-critically ill adults who are at high risk of progression.

Ideal new treatments for Novel Coronavirus-19 (COVID-19) would help halt the progression disease in patients with mild disease prior to the need for artificial respiration (ventilators), and also provide a rescue treatment for patients with severe disease, while also being affordable and available in quantities sufficient to treat large numbers of infected people. Low doses of Naltrexone, a drug approved for treating alcoholism and opiate addiction, as well as Ketamine, a drug approved as an anesthetic, may be able to interrupt the inflammation that causes the worst COVID-19 symptoms and prove an effective new treatment. This study will investigate their effectiveness in a randomized, blinded trial versus standard treatment plus placebo.

During SARS-Cov2 infection with serious respiratory implication and high systemic inflammation level, intravenous ANAKINRA alone or associated with RUXOLITINIB for severe cases might reduce inappropriate systemic inflammatory response, improve breathing and decrease occurrence or duration of ARDS and associated mortality.

This phase II trial studies the effect of baricitinib in combination with antiviral therapy for the treatment of patients with moderate or severe coronavirus disease-2019 (COVID-19). Treatment with antiviral medications such as hydroxychloroquine, lopinavir/ritonavir, and/or remdesivir may act against infection caused by the virus responsible for COVID-19. Baricitinib may reduce lung inflammation. Giving baricitinib in combination with antiviral therapy may reduce the risk of the disease from getting worse and may help prevent the need for being placed on a ventilator should the disease worsen compared to antiviral therapy alone.

COVID-19 (Corona Virus Disease 2019) hospitalized patients evolution is marked by the risk of worsening of the respiratory system during the second week of the disease. To date, treatments are currently being evaluated and none of them have shown to be effective in the care of these patients. The use of convalescent plasma is a passive immunotherapy. It has often been used in respiratory virus epidemic situations (during the 1918 or 2009 influenza pandemic, or during SARS-CoV-1 or MERS-CoV pandemic). Effects reported in literature are in favour of a beneficial impact of transfusion of these plasma without serious adverse effects reported. PlasCoSSA is a randomized, controlled, triple-blinded, parallel clinical trial. This study tests the efficacy of convalescent plasma transfusion therapy in the early care of COVID-19 hospitalized patients outside intensive care units.

Background: Coronavirus 2019 (COVID-19, or SARS-CoV-2) is a serious public health problem, and genetics may play a role in how serious the illness becomes in certain people. Genes are the instructions that our body uses to grow and develop. Variations in our genes can cause medical conditions and may be the reason why some people get sicker than others. Objective: This study aims to learn more about the genetic contributions to the severity of COVID-19. We hope to use this information to develop therapies that reduce the severity of COVID-19 symptoms in some people. Eligibility: Anyone located in the United States who has tested positive for SARS-CoV-2 infection may be eligible to join (including NIH staff). Design: Participants will complete a questionnaire about their health history and COVID-19 symptoms. Participants will give a blood or saliva sample. It will be about 2 tablespoons of blood, or we will send a saliva collection kit. Researchers will use this blood or saliva sample to study the participant s DNA. The data about participants genes will be stored in a large database. The database will be shared with other qualified researchers who are trying to learn about COVID-19. Participants names and other personal details will not be shared. Instead, the data will be labeled with a code. Participants may be contacted by study team members for up to a year after they join the study.