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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Displaying 90 of 143Patient-Centered Outcomes Research Institute
The clinical guidance for 90 percent of infected COVID-19 adult patients who do not meet eligibility for inpatient admission is to self-isolate. To support these patients, alternatives to in-person care are needed to manage an unpredictable clinical course; identify and intercept patients rapidly deteriorating at home, prevent viral spread during in-person visits; and minimize future surges in emergency departments (EDs). In addition, fingertip pulse oximeters have been proposed to improve in-home early detection of respiratory deteriorations but are untested and the operational infrastructure to support large-scale monitoring is limited. While telemedicine has been widely adopted during the pandemic as an alternative to conventional outpatient care, limited telemedicine access may be exacerbating observed disparities for Black and Latino patients. In our health system, Black and Latino patients used video-visits 15 percent less often than white patients. Text messaging and phone calls may improve healthcare access for communities of color, but the evidence for these telecommunication modalities to be effective and improve equity are limited. The University of Pennsylvania Health System (UPHS) developed and deployed COVID Watch to improve access to health care for COVID-19 patients who are self-isolating at home. COVID Watch sends twice-daily, scheduled text messages to assess patients for shortness of breath using a clinical algorithm to determine whether patients need an urgent escalation to a team of dedicated, on-call nurses within one hour. These nurses are supported by an on-call team of clinicians who can conduct urgent phone or video assessments. Patients can also trigger the algorithmic assessment independent of the scheduled messages. As of May 21, 2020, COVID Watch has managed 3,628 COVID-19 patients at home, of which 1,295 are confirmed COVID-19 positive; of these, 61 percent are Black or Latino, higher than the proportion of all UPHS COVID-19 positive patients that are Black or Latino (55 percent).
Siew Chien NG
In December 2019, a cluster of pneumonia cases of unidentified cause emerged in Wuhan,was identified as the culprit of this disease currently being identified as "Coronavirus Disease 2019" (COVID-19) by World Health Organization. Coronavirus was found to not only target the patient's lungs but also multiple organs. Around 2-33% of Coronavirus Disease-19 patients developed gastrointestinal symptoms. Studies have shown that Severe acute respiratory syndrome coronavirus 2 (SAR-CoV-2) was found in patient's feces, suggesting that the virus can spread through feces. In our previous study, stool samples from 15 patients with COVID-19 were analysed. Depleted symbionts and gut dysbiosis were noted even after patients were detected negative of SARS-CoV-2. A series of microbiota were correlated inversely with the disease severity and virus load. Gut microbiota could play a role in modulating host immune response and potentially influence disease severity and outcomes. The investigators are uncertain about the impact of synbiotic on patients with COVID-19. However, a therapeutic strategy aiming at investigating the gut Imicrobiota of patients with COVID-9 who take synbiotic or not, leading to lesser progression to severe disease, less hospital stay and improved quality of life.
University of Alberta
A novel corona virus emerged in 2019 causing Corona Virus Disease 2019 (covid-19). In one year more than 80 000 000 cases worldwide were documented. Some patients experience symptoms, specifically shortness of breath, long after the viral infection has passed. These patients are colloquially known as "Covid-19 Long-Haulers" and it is currently unknown why symptoms remain after infection. Shortness of breath and exercise intolerance may be caused by corona virus infection, covid-19 therapy, and reduced physical activity. Exercise intolerance may be due to lung, heart, blood vessel and muscle changes. During infection, the corona virus appears to cause lung blood vessel and gas exchange surface damage. Early reports show heart dysfunction, secondary to pulmonary blood vessel dysfunction or damage. Critically, no data is available on lung blood vessel function or cardiac function during exercise. Moreover, no data are available to link persistent symptoms to physiology parameters. To better understand symptom persistence in Covid-19, the investigators aim to measure exercise tolerance and heart and lung function in covid-19 survivors and compare them to covid-19 free controls.
Medtronic
COVID-19 can cause myocarditis, which can cause myocardial fibrosis. This has been shown to increase mortality and morbidity among athletes. Several efforts have been made to guide sports participation after COVID-19, but not much scientific evidence is present to back-up those guidelines. The current initiative aims gain a heightened insight in this matter.To identify the presence of fibrosis athletes who recovered from COVID-19 will undergo CMR (Cardiac MRI). All athletes will also undergo echocardiography, 5-day Holtermonitoring among others. This will allow to determine whether differences between those with and those without fibrosis are present. If fibrosis is present, athletes will be offered an implantation of a very small monitoring device that will be able to detect arrhythmias with a much higher sensitivity. Also an exercise echocardiography will be performed, to determine the safety of continuation of athletic efforts. Amendment: Recently myocarditis and pericarditis have also been observed after the administration of mRNA-vaccines, specifically after the second dose. The effect of vaccination on exercise capacity is less clear. To investigate this we propose to amend the inclusion criteria for COVIDEX with "athletes undergoing or having undergone COVID vaccination"
University of Minnesota
Acute treatment of COVID-ARDS with direct topical lung instilled T3 therapy for patients on mechanical ventilation.
Vastra Gotaland Region
Paroxysmal atrial fibrillation (AF) induce, in the affected patient, a prominent negative effect on health-related quality of life (HR-QoL) and physical fitness. The health care utilisation is high and the patient does never know when the next attack of atrial fibrillation occurs. Therefore, is physical exertion often avoided due to fear of new attacks. Further, are shortness of breath and fatigue often present despite of prescribed modern drugs. Paroxysmal AF per se enhance markedly the risk to develop stroke and heart failure, which both are syndromes that cause further negative effect on the patient´s HR-QoL and physical fitness. Altogether, cause the symptoms in paroxysmal AF a vicious spiral where both VO2max and muscle function deteriorate. The problems with shortness of breath might be due to dysfunction in respiratory muscles. Physiotherapy led exercise within cardiac rehabilitation (PT-X) in combination with inspiratory muscle training (IMT) has shown positive effects in patients with permanent atrial fibrillation. However, to our knowledge, not yet investigated in patients with paroxysmal AF. Aim: Primary to investigate, in a multicentre randomised controlled trial, if PT-X in combination with IMT can impact HR-QoL in patients with paroxysmal AF. Secondary to investigate the effect of PT-X in combination with IMT regarding symptoms, physical fitness, physical activity and the number of atrial fibrillation attacks and health care costs compared to the control group, asked to live their usual life, during the study period. Expected outcome: PTX in combination with IMT can improve HR-QoL, respiratory muscle function, level of symptoms, physical fitness and physical activity in patients with paroxysmal AF. In addition, a reduced number of atrial fibrillation attacks could decrease the direct cost of health care.
Institut National de la Santé Et de la Recherche Médicale, France
DisCoVeRy is a randomized controlled trial among adults (≥18-year-old) hospitalized for COVID-19. This study is an adaptive, randomized, open or blinded, depending on the drug to be evaluated, clinical trial to evaluate the safety and efficacy of possible therapeutic agents in hospitalized adult patients diagnosed with COVID-19. The study is a multi-centre/country trial that will be conducted in various sites in Europe with Inserm as sponsor. The study will compare different investigational therapeutic agents to a control group managed with the SoC including corticosteroids and anticoagulants. There will be interim monitoring to allow early stopping for safety and to introduce new therapies as they become available. If one therapy proves to be superior to others in the trial, this treatment may become part of the SoC for comparison(s) with new experimental treatment(s). In previous versions of the DisCoVeRy protocol, remdesivir, lopinavir/ritonavir with or without interferon ß-1a and hydroxychloroquine were evaluated as potential treatments for COVID-19. These treatments have been discontinued based on analyses review by both DSMC/DSMB, the Solidarity Executive Group and the DisCoVeRy steering committee. This version of the protocol, therefore, describes a randomized blinded placebo-controlled trial among adults (≥18-year-old) hospitalized for COVID-19 that randomly allocates them (1:1 ratio) between 2 arms: SoC + placebo versus SoC + AZD7442. Randomization will be stratified by region (according to the administrative definition in each country), antigenic status (positive or negative) obtained from the result of a rapid antigen test on nasopharyngeal swab performed at enrolment and vaccination initiation (yes or no). The primary analyses will be conducted on patients with antigen-positive results. A positive antigenic test is evidence of high viral shedding consistent with a recently started or uncontrolled infection. Overall, the number of antigen-negative patients will be at most 30% of all included subjects. The number of patients with vaccination (partly or fully) will be limited to 20% of all participants, split evenly between antigen positive and antigen negative patients (i.e. vaccinated patients can make up at most 20% of antigene positive patients and 20% of antigene negative patients). Sensitivity analyses will be performed in all patients, stratified by antigenic status and vaccination initiation. A global independent data and safety monitoring board (DSMB) monitors interim data to make recommendations about early study closure or changes to conduct, including adding or removing treatment arms. However, the current version of the protocol does not allow for efficacy or futility analysis, and the ability to add trial arms will be limited by the study being blinded and placebo-controlled during the investigation of AZD7442.
Lawson Health Research Institute
The primary objectives of this pilot study protocol are to assess safety and feasibility of using the geko™ device in COVID-19. Regarding safety to patients, we will measure the rate of adverse events, primarily local site irritation or discomfort. Feasibility will be measured on the basis of recruitment; ability to enroll sufficient number of patients meeting criteria. Protocol adherence will be observed as the ability to deliver the study intervention to the patients randomized to the treatment arm within the prescribed timeline and ability to complete the course of treatment. Additionally, we plan to measure patient outcomes such as ICU admission and death. The findings of this study have the potential to decrease the complications seen in COVID-19 infections.
Azienda Sanitaria-Universitaria Integrata di Udine
Hypoxemic acute respiratory failure is one of the main COVID-19 patients complication that lead to in intensive care hospitalization. This complication determines a variable mortality from 25 to 30%. To correct hypoxemia (often severe) is often needed non-invasive or invasive mechanical ventilation. Mechanical ventilation is not a therapeutic strategy, but it allows to extend the time-to-recovery necessary to solve COVID-19 respiratory failure cause. Calibration of ventilatory support is essential to ensure adequate time-to-recovery without contributing to onset lung and / or diaphragmatic damage. Basal diaphragmatic activity assessment, device for administering the oxygenation support choice and setting ventilatory support parameters are decisive. Ultrasound is the best method for measuring diaphragmatic work. The aim of this study is to evaluate the diaphragmatic thickening fraction in COVID-19 patients admitted to Intensive Care Unit (ICU) for acute respiratory failure and to record its function on weaning.
Regeneron Pharmaceuticals
Use the Intermountain real-world MAb-treatment registry and control group to prospectively evaluate PACS symptoms at least 120 days after initial COVID-19 diagnosis.