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 330 of 696Centre Leon Berard
Evaluation of the ddPCR ability to detect the SARS-CoV-2 in nasopharyngeal samples of symptomatic patients with suspected COVID-19 infection using an IgG serological assay (EUROIMMUN Anti-SARS-Cov2 ELISA Ig) as gold/reference standard (FDA validated commercial serologic test).
ARCTEC
Dogs are some of nature's greatest detectives, owing to their incredible sense of smell and ability to be trained. Most of us will be familiar with seeing trained sniffer dogs at airports looking for drugs and other prohibited items, but their skills don't stop there. The use of medical detection dogs is becoming increasingly common, as they are able to identify cancers, changes in blood sugar levels and even predict seizures. These are just a few examples of dogs playing a key role in public health. Many diseases can alter the way humans smell. A study undertaken by the London School of Hygiene & Tropical Medicine (LSHTM) and Durham University has shown that dogs are able to accurately diagnose malaria. The investigators know that respiratory illnesses can alter your body odours, and thus the investigators plan to determine whether dogs are able to identify the novel coronavirus known as COVID-19 (or SARS-CoV-2). COVID-19 can present itself asymptomatically (i.e. causing no apparent symptoms), which could lead to the spread of infection in the population. The investigators believe that dogs may be able to identify asymptomatic patients, as well as those who have mild symptoms (symptoms not requiring treatment, hospital stay or limiting normal activities). It is thought that a single medical detection dog stationed within an airport would be able to screen up to 750 people for COVID-19 infection in just 1 hour, informing those who are infected to isolate, preventing further spread of the disease. In order to determine whether it is possible for dogs to accurately diagnose COVID-19, the investigators must first collect samples. NHS staff and members of their households that are eligible for SARS-CoV-2 screening, have been selected to participate in this study due to their potential exposure to this disease agent. In addition, participants from the general population who are displaying mild COVID-19 symptoms or have been exposed to COVID-19 will be recruited via hospitals, testing centers, outbreak testing programs and home testing programs. Initially, participants will attend their screening test as planned or confirm that they have had a swab test within the previous 24 hours. Immediately following this, the investigators will ask participants to collect samples of breath odour and body odour, which will be collected passively through the wearing of face masks, shirts, and nylon socks. The investigators will ask to be provided with the results of the SARS-CoV-2 screening swab, which will allow for us to determine whether participants are positive or negative for SARS-CoV-2. These odour samples will be grouped by positive or negative test results, and transported to LSHTM where these will be processed in order to prevent contact with the virus, negating the risk for dogs and their handlers. A pilot study will be undertaken to confirm whether dogs are able to distinguish between positive and negative samples using traditional sniffer dog training methods. If this is possible, the investigators will proceed to the main study to determine the accuracy (known as sensitivity and specificity) of the dogs' ability to identify the virus. Both the handler and the dogs themselves will be 'blinded' to the samples, and thus unaware of which sample is which. When the data generated by these tests is entered, it will be confirmed whether or not the samples have been correctly identified. The dogs will be trained to detect and report the detection of the volatile odours characteristic of COVID-19 infection. For quality control purposes the investigators also aim to characterise the COVID-19 odour profile by analysing samples with a special process called GC (gas chromatography) and/or GC-MS (gas chromatography coupled mass spectrometry). This will help to inform the identification of compounds showing differences between infected and non-infected samples. The investigators believe that this work could be useful in the fight against COVID-19.
University of Pennsylvania
In order to safely and effectively reopen businesses and universities across the US, institutions will need to develop approaches to rapidly identify COVID-19 cases and manage their spread while balancing program effectiveness, feasibility, costs, and scalability. This study will evaluate the implementation of a COVID-19 screening program that coordinates several existing systems at the University of Pennsylvania including saliva-based viral testing.
Owlstone Ltd
The primary aim of this study is to investigate the performance of Breath Biopsy RD for the detection of SARS-CoV-2 in both a clinical and at home setting.
Västmanland County Council, Sweden
This research study is designed to investigate the effects of a brief psychological intervention for improving depressed mood in older individuals (65 years and older) in isolation during the Coronavirus (COVID-19) pandemic. The treatment is delivered by telephone and consists of four weekly individual sessions. Two therapeutic methods are used in combination during this intervention: Behavioral activation (BA) and Mental Imagery (MI). BA involves identifying and scheduling enjoyable and meaningful activities to improve mood and reduce social isolation. To enhance BA efficacy and adherence, MI is paired with BA as MI is known to activate emotion and motivation. The MI intervention in this study involves having participants imagine, in vivid sensory detail, engaging in some of the activities that are scheduled during BA. Approximately 154 individuals will participate in the study. Half of the participants will be randomised to start the intervention immediately, while the other half of the participants will be randomized to a control group receiving the intervention after 4 weeks. This procedure makes it possible to evaluate the effects of the treatment while not disadvantaging participants randomized to the control group. Participants will be asked to fill in questionnaires before, during (at the end of each intervention week), and after treatment (or waiting period for the control group). Questionnaires will also be sent 1-, 3- and 6 months after treatment to follow up on the results. A smaller group of participants (10-15) will be asked to participate in a more detailed interview about how they experienced the treatment.
Luigi Sacco University Hospital
In recent months, a new coronavirus, SARS-CoV-2, has been identified as the cause of a serious lung infection named COVID-19 by the World Health Organization. This virus has spread rapidly among the nations of the world and it is the cause of a pandemic and a global health emergency. There is still very little scientific evidence on the virus, however epidemiological data suggest that one of the most frequent comorbidities is diabetes, along with hypertension and heart disease. There is no scientific evidence on the possible effects of this infection on the function of the β cell and on glycemic control. Clinical evidence seems to suggest that COVID-19 infection mostly affects the respiratory system, and an acute worsening of glycemic compensation is not described as generally observed in bacterial pneumonia. However, previous work on acute respiratory syndromes (SARS) caused by similar coronaviruses, had described that the infection has multi-organ involvement related to the expression of the SARS coronavirus receptor, the angiotensin 2 converting enzyme, in different organs, especially at the level of endocrine pancreatic tissue. In the population of this previous work, glucose intolerance and fasting hyperglycaemia have been described and in 37 of 39 diabetic patients examined, a remission of diabetes was observed three years after the infection. It is possible that the coronaviruses responsible for SARS may enter the pancreatic islets using the angiotensin 2 converting enzyme receptor, expressed at the level of the endocrine pancreas, thus causing diabetes. Additionally, previous literature on coronavirus infections (SARS and MERS or Middle-East Respiratory Syndrome) suggested that diabetes could worsen the evolution of the disease. In particular, in case of Middle-East Respiratory Syndrome-CoV infection, diabetic mice had a more prolonged serious illness and a delay in recovery regardless of the viremic titer. This could probably be due to a dysregulation of the immune response, which results in more serious and prolonged lung disease. There are currently no data on pancreatic beta cell function in patients with COVID-19.
Beijing Normal University
Under the COVID-19, individuals who were home Quarantine experienced new challenges on their parent-child relationship and couple relationship. The current project aimed to provide psychological interventions for both parents and couples in order to improving their relationship. The online intervention of group intervention and individual intervention are going to be conducted. The relationship between parent-child, couples and emotion regulation will be tested.
Centre Hospitalier Intercommunal Creteil
Impacts of the Covid-19 epidemic and associated lockdown measures on the management, health and behaviors of cystic fibrosis patients during the 2020 epidemic
Hanane EL KENZ
When the COVID-19 virus infects a person, it enters the lung epithelial cells of its host and uses its genetic material to replicate. The pulmonary epithelial cells of a part of the population, known as "secretors", are capable of expressing the antigens of the "ABO" system on their surface. This secretory status can be established by determining the antigens of the Lewis blood group system. When the virus replicates in an "secreting" individual, the antigens of the "ABO" system of the infected individual will be present on the surface of the viruses formed in his/her lungs. It was shown in 2003 that the response of a given individual to the transmission of a virus depends on his/her blood group and on the antigens of the "ABO" system carried by the virus. A patient of group "O" would thus defend himself much better against a virus carrying antigens of blood group "A", the natural antibodies "anti-A" of the patient reducing the ability of the virus to bind to its specific receptor on pulmonary epithelial cells, to penetrate them to replicate itself. The first data collected in Wuhan (China) seems to confirm this hypothesis. A COVID-19 virus transmission model can therefore be established on the basis of blood groups. In order to reduce the spread of the virus among nursing staff, it is possible to establish a preferential algorithm for patient management based on the "ABO" and "Lewis" blood groups of patients and "ABO" of nursing staff in health care units, if operational and human conditions allow.
GCS Ramsay Santé pour l'Enseignement et la Recherche
The objective of this study is to look for the presence of SARS-CoV-2 in the semen of patients diagnosed with COVID+ based on RT-PCR analysis of nasopharyngeal swabs.