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 150 of 368Radboud University Medical Center
Patients who receive intensive care are known to be at high risk for physical, psychological, and cognitive impairments, a constellation known as PICS. COVID-19 patients are expected to have high chances of suffering from PICS (PICS-COV) as they frequently require several weeks of intensive care and traditional PICS preventive measures are virtually impossible due to infection control precautions, prone positioning, and deprivation of social contact. To prevent PICS after ICU discharge in COVID-19 patients, physical therapy is recommended. From recent but limited experience it appears that even patients with COVID-19 who have not been admitted to the ICU can suffer from impairments in the same domains and sometimes to a similar degree of severity. Also for these patient group rehabilitation seems warranted. Yet, the resources needed to provide rehabilitation treatment to COVID-19 patients are inadequate because healthcare systems faced a shortage of high-quality treatment for these impairments already before the COVID-19 crisis emerged. Virtual Reality (VR) provides potential to healthcare practitioners to administer fast, temporary, and tailor-made rehabilitation services at a distance, and offers a solution to address the impending surge of demand for rehabilitation after COVID-19 infection. VR consists of a head mounted display (HMD) that can bring the user by computer-generated visuals into an immersive, realistic multi-sensory environment. Current VR technology is accessible, easy in use for a large audience, and safe in use. There already exist multiple VR applications for providing physical, psychological, and cognitive rehabilitation. These applications have been brought together in a VR suite for rehabilitation after COVID-19. Patients visiting a physiotherapist for rehabilitation from COVID-19 will be asked to participate in this study. They receive a VR HMD for training purposes. This study aims to understand the usability, feasibility, and tolerability of VR for rehabilitation after COVID-19, and to pilot the effectiveness of VR improving the physical ability, mental and cognitive status of patients.
Fundación Neumologica Colombiana
The objective of this study is to evaluate the efficacy and safety of the Unisabana-Herons invasive mechanical ventilator designed to provide the basic ventilatory support necessary to preserve the life of patients with respiratory failure and indication of mechanical ventilation, especially for those who suffer from acute respiratory distress syndrome (ARDS) when conventional commercial invasive ventilators are not available in the context of the health emergency due to the COVID-19 epidemic. The Unisabana-Herons ventilator allows to precisely configure the respiratory rate, tidal volume (or inspired air volume), inspiratory time, the inspiration: expiration ratio, the positive pressure at the end of expiration (PEEP), the inspired fraction of oxygen and inspiratory air flow, parameters that allow managing the respiratory failure associated with COVID-19. The ventilator also monitors peak inspiratory pressures (PIP), mean, PEEP, plateau, and graphs in real time the pressure-time, volume-time, flow-time curves, which allows detecting when one of these is at levels dangerous to induce ventilator trauma (barotrauma and volutrauma) and thus ensure effective and safe ventilation, so as to avoid ventilator-induced lung injury.
E-ink corporation
Communication with patients on their clinical status is important in delivering care in the emergency department. During times of high volume or complex patients, there may be lapses in communicating with patients about their hospital course or plans of action. These miscommunications may be enhanced during the current COVID-19 pandemic as there is minimized in-person interaction with patients in order to conserve personal protective equipment and decrease the risk of disease transmission. This study utilizes a virtual white board to deliver updates to patients about the status of their emergency department stay.
Carebook Technologies Inc.
Contactless and widely available health monitoring technologies are of growing interest in the context of the worldwide COVID-19 pandemic. Remote photoplethysmography (rPPG) is a well-studied technology that interprets variations in skin colour related to blood flow which, when analysed with complex mathematical algorithm, generates vital sign readings. This technology has been refined and embedded in a smartphone app designed to acquire heart rate, respiratory rate and oxygen saturation using a front-facing smartphone camera. Preliminary data comparing the accuracy of smartphone rPPG readings with conventional vital sign monitor readings are promising; however, less than 5% of the population studied in the app development phase had oxygen saturation levels below 95% making it impossible to ensure reliability in these populations. The goal of this study is to compare readings acquired using this rPPG app with the readings from hospital grade, Health Canada approved vital signs monitors used in healthcare settings with a focus on subject with low oxygen saturations. We will also study other sociodemographic and clinical features that may influence the accuracy of the readings. This will be achieved by recruiting consenting adults presenting to care in acute care settings and a designated COVID outpatient clinic. Vital signs will be acquired using the rPPG app and conventional hospital vital sign monitors simultaneously. Readings will be repeated within 2-5 minutes when time permits. Statistical analysis will be performed to analyze the findings and determine the accuracy and precision of the rPPG app readings. It is expected that the vital sign readings acquired with the rPPG app will be almost identical to those acquired using hospital-grade monitors for all subjects regardless of age, gender, skin colour, COVID status and relevant comorbidities.
Institute of Progressive Medicine
Preliminary reports have been received from several sources that the periodic inhaling of the nebulized mist from water that has a heightened level of kinetic activity has quickly (less than 2 days) lessened the severity of symptoms in Covid-19 infected patients. On at least several occasions, a repeat PCR test performed several after inhaling a particular water-based product was negative. There are no perceived adverse effects from inhaling the water mist by using a nebulizer or humidifier. It is important, however, to validate these preliminary findings and to include the inhaling of the mist from water, which does not have an elevated level of kinetic activity. This will be by performed in a patient-blinded manner by sequentially inhaling the two types of water over consecutive 2-day periods with Covid-19 testing at the end of each of the two day periods. Participants will be randomized as to whether they are to inhale the mist from the test or the control water.
Imperial College London
TITLE EARSATS-19: In-ear measurement of blood oxygen saturation in COVID-19 follow up DESIGN Non-inferiority study AIMS To evaluate qualitative and quantitative performance of in-ear SpO2 monitoring against the gold standard right finger-clip pulse oximeter -- towards validation for use in COVID-19 in the acute ambulatory and long-term monitoring setting OUTCOME MEASURES In-ear SpO2 compared with gold-standard finger-clip pulse oximeter: Correlation between SpO2 measurements at rest Correlation between SpO2 measurements during 6 minute walk test Signal quality during 6 minute walk test Qualitative evaluation of clinical and patient user acceptability using questionnaires POPULATION 30 patients attending COVID-19 follow-up clinic and 30 patients with chronic lung disease attending routine outpatient investigations ELIGIBILITY Aged 18 and above, no upper age limit Able to give informed consent No abnormal ear anatomy. DURATION 12 months
Hospital Nacional Arzobispo Loayza
Clinical trial in health care personnel (physicians, nurses or nurse assistants) to determine the effect of orally-administered bovine lactoferrin to prevent SARS-CoV-2 infection. Participants will be randomized to receive daily bovine lactoferrin plus standard measures during 12 weeks or placebo (maltodextrine) for the prevention of SARS-CoV-2. The target enrollment is 336 participants. Each study participant will be monitored twice a week for symptoms of COVID-19 and if symptoms occur, a RT-PCR will be performed. Additionally, we will evaluate asymptomatic infections, by measuring SARS-CoV-2 serology every 4 weeks.
Ward Photonics LLC
To determine if a reduction of pneumonic inflammation occurs after treatment with Low-Level Laser Therapy (LLLT) applying red-light technology in the respiratory system of COVID-19 patients suffering from acute viral pneumonia.
Limbix Health, Inc.
Over 3 million teenagers in the USA have depression, and rates of depression and suicide are sharply increasing. Teenage depression has far-reaching consequences including impairments in academic and work performance and social and family relationships, substance abuse, and worsening of other health conditions, which can persist into adulthood. Access to mental health care for teenagers is limited due to a shortage of mental health providers and many teenagers and parents are reluctant to take antidepressants. COVID-19 and mandated physical and social distancing is expected to increase rates of teenage depression, and further limit access to traditional methods of care (e.g. psychotherapy). This highlights an urgent need to develop accessible, digital treatments for teenage depression to address the serious mental health impacts of the COVID-19 pandemic. This fully virtual study (https://www.limbix.com/spark) will compare the relative safety, effectiveness, and engagement of a mobile application based on cognitive behavioral therapy and behavioral activation (Limbix Spark), focusing on the idea that engaging in behaviors that are rewarding or provide a sense of mastery can be effective in reducing symptoms of depression. Limbix Spark will be compared to a mobile app containing educational material about depression (Psychoeducation).
Dr David DE BELS
A) Comparing the % of change in each clearances of pro-, and anti-inflammatory mediators (cytokine, chemokines and complement) in the COVID-19 patients treated with CytoSorb as compared to the same patient population who do not receive blood purification treatment. B) Testing the Cytokinetic model by measuring cytokines in the blood stream and in the BAL to see if you can create a reverse gradient allowing a massive passage of leucocyte from the blood toward the infected lungs.