View clinical trials related to Covid19.
Filter by:This treatment protocol is designed to provide convalescent plasma as a therapeutic option for patients diagnosed with and hospitalized for COVID-19 with symptoms ranging from mild to life-threatening.
The search for novel therapies to address the ongoing coronavirus (COVID-19) pandemic is ongoing. No proven therapies have been identified to prevent progression of the virus. Preliminary data suggest that inhaled nitric oxide (iNO) could have benefit in preventing viral progression and reducing reliance on supplemental oxygen and ventilator support. Expanded access allows for iNO to be delivered via the portable INOpulse delivery system for the treatment of COVID-19.
I. Study Design: This is a single-arm feasibility study to assess the safety and efficacy of anti-SARS-CoV-2 convalescent plasma (CP) in 1. intubated, mechanically ventilated patients with confirmed COVID-19 pneumonia by chest X-ray or chest CT. 2. hospitalized patients with acute respiratory symptoms between 3 and 7 days after the onset of symptoms, with COVID-19. II. Study Population: 1. Population 1: Mechanically ventilated intubated COVID-19 patients aged 18 years or older. 2. Population 2: Hospitalized COVID-19 patients aged ≥18 years of age with respiratory symptoms within 3 to 7 days from the beginning of illness. III. Study Agent: SARS-CoV-2 convalescent plasma (1-2 units; ~200-400 mL at neutralization antibody titer >1:160.
To provide ruxolitinib through an expanded access program for the treatment of cytokine storm due to COVID-19 in the United States to patients who are eligible but not able to be hospitalized or who are hospitalized with a clinical diagnosis and/or positive test for SARD-CoV-2 infection.
This protocol provides access to eculizumab treatment for participants with severe COVID-19.
Prospective, observational, clinical investigation of PMX cartridge use in COVID 19 patients with septic shock
This protocol proposes to use IC14, a recombinant chimeric monoclonal antibody (mAb) recognizing human CD14, to block CD14-mediated cellular activation in patients early in the development of ARDS. The binding of IC14 to human CD14 prevents CD14 from participating in the recognition of PAMPs and DAMPs due to SARS-CoV-2 infection. The putative mechanism of action of IC14 in ARDS is blockade of PAMP and DAMP interactions with CD14, thus attenuating the inflammatory cascade that leads to increased endothelial and epithelial permeability and injury resulting in alveolar injury and fluid accumulation characteristic of ARDS. IC14 is a chimeric monoclonal antibody that binds to CD14 with high affinity and inhibits signaling via membrane and soluble CD14. Blocking CD14 with IC14 treatment in normal volunteers strongly inhibits systemic inflammation in response to bacterial endotoxin (LPS). University of Washington conducted a small NIH-funded pilot trial of IC14 treatment in 13 patients with ARDS, which suggested that IC14 treatment reduced alveolar inflammation and decreased BAL cytokines. IC14 was also the subject of IND 105803 for a phase 2 study of ARDS from all causes which we propose to revise for the COVID-19 indication. A dosing regimen for IC14 with favorable pharmacokinetics supporting once daily intravenous dosing has been defined, making this an acceptable treatment for hospitalized patients. Two pharmacodynamic biomarkers can be used that are related to CD14, measurements of sCD14 (serum at baseline; urine at baseline and follow up) as well as a CD14 fragment (sCD14-ST; presepsin). A CD14 target engagement assay is available. Therefore, because of the central role of CD14 in the amplification of lung inflammatory responses leading to severe lung injury and the safety record of IC14 in humans, we propose to have an open-label protocol to test the safety and potential efficacy of IC14 treatment in preventing the progression of severe respiratory disease in patients hospitalized with COVID-19.
This expanded access protocol will enroll subjects with a clinical diagnosis of COVID-19 confirmed by laboratory testing and who are in critical condition as indicated by life support measurements. Eligible subjects will receive open-label intravenous administration of investigational product (CAP-1002) containing 150 million allogeneic Cardiosphere-Derived Cells (CDCs). CAP-1002 administration will be conducted at the investigative site on Day 1 and weekly up to a maximum of 4 doses, based on clinical course. Subjects will complete protocol assessments at Screening; Day 1; Weeks 1-3; and Follow-up by phone 30 and 90 days after the last infusion. Baseline assessments will be conducted prior to first infusion on Day 1. The patient will be observed during the lengths of hospitalization and monitored for outcome and safety. Safety and outcome data will be collected and reported at the conclusion of treatment and follow-up.
The purpose of this Cohort Treatment Plan is to allow access to ruxolitinib for eligible patients diagnosed with severe/very severe COVID-19 illness. The patient's Treating Physician should follow the suggested treatment guidelines and comply with all local health authority regulations. The requesting Treating Physician submitted a request for access to drug (often referred to as Compassionate Use) to Novartis which was reviewed and approved by the medical team experienced with the drug and indication. Please refer to the latest Investigator's Brochure (IB) or approved label for overview of ruxolitinib including: non-clinical and clinical experience, risk and benefits. Novartis will continue to provide any new safety information to the Treating Physician as they emerge.
Disease caused by 2019 Novel Coronavirus also known as severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2)