Around the world, researchers are working extremely hard to develop new treatments and interventions for COVID-19 with new clinical trials opening nearly every day. This directory provides you with information, including enrollment detail, about these trials. In some cases, researchers are able to offer expanded access (sometimes called compassionate use) to an investigational drug when a patient cannot participate in a clinical trial.
The information provided here is drawn from ClinicalTrials.gov. If you do not find a satisfactory expanded access program here, please search in our COVID Company Directory. Some companies consider expanded access requests for single patients, even if they do not show an active expanded access listing in this database. Please contact the company directly to explore the possibility of expanded access.
Emergency INDs
To learn how to apply for expanded access, please visit our Guides designed to walk healthcare providers, patients and/or caregivers through the process of applying for expanded access. Please note that given the situation with COVID-19 and the need to move as fast as possible, many physicians are requesting expanded access for emergency use. In these cases, FDA will authorize treatment by telephone and treatment can start immediately. For more details, consult FDA guidance. Emergency IND is the common route that patients are receiving convalescent plasma.
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To search this directory, simply type a drug name, condition, company name, location, or other term of your choice into the search bar and click SEARCH. For broadest results, type the terms without quotation marks; to narrow your search to an exact match, put your terms in quotation marks (e.g., “acute respiratory distress syndrome” or “ARDS”). You may opt to further streamline your search by using the Status of the study and Intervention Type options. Simply click one or more of those boxes to refine your search.
Displaying 80 of 107The Marcus Foundation
This is a 50 patient, Phase 1/2a multi-center pilot study to test the safety and to describe the preliminary efficacy of intravenous administration of allogenic human cord tissue mesenchymal stromal cells (hCT-MSC) as an investigational agent, under U.S. INDs 19968 (Duke) and 19937 (U Miami) to patients with acute respiratory distress syndrome (ARDS) due to COVID-19 infection (COVID-ARDS). The first 10 consecutive patients will receive investigational MSCs manufactured by Duke. In the second phase of the study, 40 additional patients will be randomized to receive placebo or investigational MSCs manufactured by Duke or University of Miami. Patients will be eligible for infusion of 3 daily consecutive doses of hCT-MSC or placebo if they have a confirmed diagnosis of COVID-19 and meet clinical and radiographic criteria for ARDS. Results from the first 10 patients will be compared with concurrent outcomes utilizing standard of care treatments in participating hospitals and in published reports in the medical literature. Results from the additional 40 patients will be combined with the first 10 and analyzed. The trial is relying on focused eligibility of the participants (patients with ARDS), single cohort with short trial time (4 weeks), and simple assessment of clinical outcome (survival, improvement of ARDS). This is a sequential design in the sense that after the first 10 patients are evaluated a decision will be made by the PIs and the Data Safety Monitoring Board whether to proceed with the exploratory randomized portion of the study.
Maimonides Medical Center
This study is a prospective randomized controlled, double blind clinical trial performed on laboratory confirmed COVID-19 infection admitted patients in the Shamir Medical Center. The trial will include 30 patients who will undergo either hyperbaric oxygen therapy (HBOT) or Normobaric oxygen therapy (NBOT), randomized on a 2:1 ratio, within 4 days in addition to the standard treatment including oxygen, drugs, steroids, bronchodilators, antibiotics and others. The evaluation procedure includes symptom monitoring, room air saturation, vital signs monitoring, pulmonary function and blood tests at baseline, one day and one week after the last session. In addition, one hour prior to and post session saturation and vitals will be monitored.
CSL Behring
CSL760 is a human hyperimmune product of the purified gamma immunoglobulin (IgG) fraction of human plasma containing polyvalent neutralizing antibodies to SARS-CoV-2 (severe acute respiratory syndrome coronavirus 2). CSL is evaluating CSL760 as a passive immunotherapy for COVID-19 (Coronavirus Disease 2019).
Legacy Health System
Of the many treatments proposed for COVID-19, few directly address the severe hypoxia among COVID-19 patients. Interim results from our single-center, non-randomized clinical trial (NCT04332081) suggest that hyperbaric oxygen therapy may reduce inpatient mortality or the need for mechanical ventilation among COVID-19 patients by more than half. Hyperbaric oxygen therapy is delivered by increasing the atmospheric pressure surrounding a patient, which results in increased oxygen delivery to a patient's blood at a rate higher than any other available modality. It is already FDA-approved for several indications, including conditions with impaired gas exchange and severe infectious processes. Furthermore, several studies have found that hyperbaric oxygen therapy inhibits the production of proinflammatory cytokines, which may play a role in the pathophysiology of COVID-19. The goal of this proposal is to perform a multi-center, randomized controlled trial to evaluate the short-term and long-term efficacy of hyperbaric oxygen therapy for COVID-19 patients. This proposal will rigorously test whether hyperbaric oxygen therapy can reduce the substantial mortality and morbidity of this challenging disease.
Carilion Clinic
A comparison of a direct antigen test for SARS-CoV-2 obtained by mid-turbinate swab with the reference standard rt-PCR test obtained by nasopharyngeal swab in outpatients with symptoms compatible with COVID-19.
Rigshospitalet, Denmark
For patients admitted with COVID-19 infection, it is often difficult to predict if or when their clinical condition will deteriorate. However subtle changes in vital signs are usually present 8 to 24 hours before a life-threatening event such as respiratory failure leading to ICU admission, or unanticipated cardiac arrest. Such adverse trends in clinical observations can be missed, misinterpreted or not appreciated as urgent. New continuous and wearable 24/7 clinical vital parameter monitoring systems offer a unique possibility to identify clinical deterioration before patients condition progress beyond the point-of-no-return, where adverse events are inevitable. The primary aim of this study is to test the effect of continuous wireless vital signs monitoring with generation of real-time alerts through a purpose-built GUI, compared to standard EWS monitoring on the cumulative duration of any severely deviating vital signs
Sultan Qaboos University
Objective: To determine whether NIV delivered through helmet interface reduces intubation rate among patients with COVID-19 ARDS compared to face-mask NIV and HFNC. Design, setting & participants: Two-center randomized clinical trial of 360 patients with mild to moderate ARDS and confirmed COVID-19 requiring non-invasive ventilation between August 2020 to January 2021. The patients with respiratory rate (RR) more than 30/min or oxygen saturation (SpO2) less than 90% or PaO2/FiO2 ratio less than 300 despite standard oxygen therapy by face mask (
Biomedical Advanced Research and Development Authority
The purpose of this research is to remotely monitor individuals who have tested positive for COVID-19 to learn more about progression and recovery from the disease. Individuals who test positive for COVID-19 will wear the Current Health wearable device continuously and answer a brief series of questions on Current Health tablet daily for up to 30 days. The health data will be used to develop predictive models of hospitalization risk.
CMC Ambroise Paré
The Covid-19 pandemic requires a reliable diagnosis of patients in order to take care of them in the best conditions and in the appropriate services. Moreover, the current diagnostic reference is reverse transcription by polymerase chain reaction (RT-PCR) on a nasopharyngeal sample taken by swab. This technique is expensive (54€) and its production time is several hours. Alternative methods are in progress, including, rapid diagnostic tests. The MEMS microfluids and nanostructures (MMN) laboratory, in partnership with the Institut Chimie Biologie Innovation (CBI) (Paris, 75005), have developed a portable test "COVIDISC", low-cost (10 €), fast (1 hour), including extraction, elution and amplification in solid medium isothermal, reverse amplification loop mediated transcription (RT-LAMP). The "lab" version has received an analytical validation on human nasopharyngeal samples with performance comparable to classic RT-PCR (sensitivity of 7 copies per μl, specificity 100%). The objective of this study is to validate the in vitro diagnostic medical device, COVIDISC, with the standard nasopharyngeal RT-PCR test.
Drägerwerk AG & Co. KGaA
The study is designed to demonstrate suitability of the Dräger Antigen Test for SARS-CoV-2 detection in clinical nasal specimens. Real-time polymerase chain reaction (RT-PCR) on specimens collected by pharyngeal swabs serves as a reference method.