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 30 of 126Brigham and Women's Hospital
In this research study the investigators want to learn more about the potential benefit of radiation to the lung to improve the health of patients who are hospitalized with Coronavirus-19 (COVID-19) due to infection with a virus called SARS-CoV-2. This infection causes inflammation of the lung, which can make it difficult to breathe. As a result, patients may need supplemental oxygen or be placed on a ventilator. The investigators believe that low dose radiation therapy to the lung may reduce this inflammation and increase the likelihood that patients will need less oxygen support such as ventilation or supplemental oxygen, or be discharged from the hospital in fewer days, compared to without radiation therapy. The amount of radiation is much lower than what is typically used to treat other conditions such as cancer, although it is higher than the dose used for routine medical imaging.
BioMérieux
Infection with the SARS-CoV-2 coronavirus (COVID-19) has recently been identified as a pandemic due to the speed and global scale of its transmission. In Auvergne-Rhône-Alpes region (AURA), the epidemic began in February 2020 and the number of infected people is still important. Between 15 and 20% of COVID-19 patients develop an acute respiratory distress syndrome (ARDS) leading to their hospitalization in intensive care. Their clinical progression can be rapidly harmful with the development of severe ARDS associated with an increased risk of death. Preliminary data on the immune response of COVID-19 patients describe the induction of a moderate inflammatory response and the occurrence of major progressive lymphopenia over time associated with potential immunosuppression. Up to 50% of secondary infections are reported in deceased COVID-19 patients. However, no prospective study has exhaustively described the kinetics of the immune response of COVID-19 patients in intensive care. The precise description of the immune response over time in adult patients with a proven infection with the SARS-CoV-2 virus and the study of the relation between this response and the increased risk of organ failure (severe ARDS), death or nosocomial infection will allow us to better understand the pathophysiology of the immune response induced by COVID-19 in order to (i) identify new therapeutic strategies targeting the host response in patients in intensive care (ii) to develop biological markers to stratify patients for future clinical trials evaluating these immunoadjuvant treatments in COVID-19.
University of Mississippi Medical Center
This research study evaluates the safety and effectiveness for the use of convalescent plasma transfusion as a treatment option for novel coronavirus SARS-CoV-2 infection (COVID-19). Donors who have recovered from COVID-19 with high antibody levels to the CoV-2 virus will donate plasma at a Mississippi Blood Services facility. Recipients with COIVD-19 who have severe or life threatening conditions will receive plasma from those persons who have recovered from COVID-19.
Luxembourg Institute of Health
Predi-COVID is a prospective cohort study composed of people positively tested for COVID-19 in Luxembourg, followed digitally for monitoring participants' health evolution and symptoms at home. Participants will be actively followed for 14 days from the time of confirmation of diagnosis, whether they are at the hospital or at home in isolation or quarantine. Short evaluations will be also performed at week 3 and week 4 and then monthly for a period up to 12 months to assess potential long term consequences of COVID-19. A subsample of 200 participants will be contacted to integrate complementary clinical data and collect samples. The study aims at identifying factors associated with the COVID-19 disease severity. COVID-19 patients with severity criteria will be compared to patients with mild disease managed at home. A deep phenotyping related to the symptoms of the disease as well as biosampling allowing for laboratory-based and computational analytics will be performed.
University of Oxford
RECOVERY is a randomised trial of treatments to prevent death in patients hospitalised with pneumonia. The treatments being investigated are: COVID-19: Lopinavir-Ritonavir, Hydroxychloroquine, Corticosteroids, Azithromycin, Colchicine, IV Immunoglobulin (children only), Convalescent plasma, Casirivimab+Imdevimab, Tocilizumab, Aspirin, Baricitinib, Empagliflozin, Sotrovimab, Molnupiravir, Paxlovid or Anakinra (children only) Influenza: Baloxavir marboxil, Oseltamivir, Low-dose corticosteroids - Dexamethasone Community-acquired pneumonia: Low-dose corticosteroids - Dexamethasone
University Hospital - Newark, NJ
This is an expanded access program providing COVID-19 convalescent plasma to patients hospitalized with severely or life-threateningly ill COVID-19.
Washington University School of Medicine
As the COVID-19 pandemic spread around the world, anosmia and dysgeusia were quickly recognized as two of the key presenting symptoms. The probability of return of smell is related to severity of smell loss at presentation, but it appears that the loss of sense of smell and taste seems to persist in approximately 10% of the affected patients after 6 months. As a result of COVID-19, it is estimated that within the next 12 months > 150,000 Americans will suffer permanent loss of smell. The magnitude of this impairment on the health, safety, and quality of life is truly unprecedented and makes post-COVID olfactory disorder a major public health problem. Thus, there is a pressing need to identify effective treatments. The research questions are to determine the effects of steroid nasal saline lavage and olfactory training among adults with post-COVID olfactory dysfunction and identify confounders and modifiers of any observed effects. To answer the research question, the investigators propose a 2 x 2 factorial design blinded randomized clinical trial whereby 220 subjects with documented COVID-19 with anosmia/hyposmia of 12 weeks duration or longer from Missouri, Illinois, and Indiana will be recruited electronically from COVID patient advocacy sites, social media sites, and other internet sources. Enrolled subjects will be randomized to nasal saline lavage with topical budesonide or placebo to address the presumed role of inflammation in the olfactory cleft and each subject will also be randomized to olfactory training with patient-specific, high- or low-concentration essential oil scent to assess the role of olfactory training. Data will be analyzed in a blinded fashion to allow estimation of observed effect size for both anti-inflammatory and olfactory training. This innovative study will exploit the unique opportunities presented by COVID-19. The study will use a high-tech virtual "contactless" research strategy, including eConsent and digital mHealth techniques to obtain rapid answers to the research questions. The interventions are low-cost, readily available, and results of this study can be directly disseminated to the care of COVID-19 patients with anosmia.
Aferetica
The outbreak of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), which originated in Wuhan, China, has become a major concern all over the world. Convalescent plasma or immunoglobulins have been used as a last resort to improve the survival rate of patients with SARS whose condition continued to deteriorate despite treatment with pulsed methylprednisolone. Moreover, several studies showed a shorter hospital stay and lower mortality in patients treated with convalescent plasma than those who were not treated with convalescent plasma. Evidence shows that convalescent plasma from patients who have recovered from viral infections can be used effectively as a treatment of patients with active disease. The use of solutions enriched of antiviral antibodies has several important advantages over the convalescent plasma including the high level of neutralizing antibodies supplied. Moreover, plasma-exchange is expensive and requires large volumes of substitution fluid With either albumin or fresh frozen plasma, increasing the risk of cardiovascular instability in the plasma donor and in the recipient, which can be detrimental in a critically ill patient with COVID 19 pneumonia. The use of plasma as a substitution fluid further increases treatment costs and is associated with risk of infections, allergic reactions and citrate-induced hypocalcemia. Albumin is better tolerated and less expensive, but exchanges using albumin solutions increase the risk of bleeding because of progressive coagulation factor depletion. The aforementioned limitations of plasma therapy can be in part overcome by using selective apheresis methods, such as double-filtration plasmapheresis (DFPP)3. During DFPP, plasma is separated from cellular components by a plasma filter, and is then allowed to pass through a fractionator filter. Depending on the membrane cut-off, the fractionator filter retains larger molecules and returns fluid along with smaller molecules to the circulation. Thus, the selection of a membrane with an appropriate sieving coefficient for IgG allows to efficiently clear autoantibodies in patients with antibody-mediated diseases (e.g., macroglobulinemia, myasthenia gravis and rheumatoid arthritis) with negligible fluid losses and limited removal of albumin and coagulation factors1. In patients with severe membranous nephropathy and high titer of autoreactive, nephritogenic antibodies against the podocyte-expressed M type phospholipase A2 receptor (PLA2R), DFPP accelerated anti PLA2R depletion4. Measurement of the antibody titer in treated patient and recovered fluid showed that antibody removal was extremely effective and that large part of antibodies was removed during the first DFPP procedure. This therapeutic regimen was safe and well tolerated and easy to apply4. In an ongoing pilot study we found that the same methodological approach can be used to remove circulating antibodies from patients who recovered from COVID 19 and to infuse these antibodies in patients with active viral infection. Treatment was well tolerated and preliminary findings are encouraging. Thus, in this novel pilot study we aim to explore whether the infusion of antibodies obtained with one single DFPP procedure from voluntary convalescent donors could offer an effective and safe therapeutic option for patients with earlier stages of coronavirus (COVID-19) pneumonia requiring oxygen supply without mechanical ventilation.
National Institute of Allergy and Infectious Diseases (NIAID)
A single, ascending-dose design with five dose-cohorts of 8 subjects. Forty healthy adults aged 18 to 45, inclusive, will be recruited and admitted at one US site. Each subject will be randomized to receive either SAR440894 or matching placebo via 60-minute intravenous infusion. In each cohort of 8 subjects, the randomization ratio will be 6 active to 2 placebo, and 2 sentinel subjects (one from each active and placebo group) will be dosed first. Dosing of the next dose-cohort will be dependent on acceptable meeting predefined safety criteria in the preceding cohort. Each subject's participation will take place over approximately 150 days, not including the screening visit. There are no hypotheses for this phase I study. The primary objective will be to determine the safety of single ascending intravenous (IV) infusions of SAR440894 when administered in healthy adults.
University Hospital Southampton NHS Foundation Trust
Trial Phase: Phase III: Interventional Trial: Virtual clinics to deliver universal interventions to maintain and improve physical health, nutritional state and psychological wellbeing in people with cancer who are following social distancing guidance: A COVID-19 targeted trial. Indication: Male or female participants, aged over 18 years old with suspicion or confirmed diagnosis of cancer (does not require histological confirmation) Objective: To investigate the efficacy of remote multimodal universal interventions delivered via virtual clinics to improve physical function as measured by the EORTC-QLQ-C30. Secondary Objective: To investigate the efficacy of remote multimodal universal interventions delivered via virtual clinics to improve emotional function, quality of life, participant activation (PAM), behaviour change and the effect it has on health economics (EQ-5D-5L). Exploratory Objective: Overall Survival and adherence to the intervention/advice using validated tools or development of a web-based toolkit.