View clinical trials related to SARS-CoV-2 Infection.
Filter by:Healthcare systems around the world have faced tremendous stress because of the COVID-19 pandemic. Healthcare workers (HCWs) (ie. physicians, nurses, and support staff), who serve as the foundation of the healthcare system, report high levels of psychological stress and burnout, which will likely worsen as the pandemic continues. The consequences of stress and burnout can reduce quality of life for providers and lead to adverse health behaviors (poor dietary choices, reduced physical activity, increased alcohol intake, increases in weight etc.) among HCWs. In addition, burnout can have dire consequences on healthcare delivery effectiveness including poor quality of care and significant cost implications due to medical errors and HCW absenteeism and turnover. In fact, annual estimates of burn-out related turnover range from $7,600 per physician to >$16,000 per nurse. However, programs focused on reducing burnout in HCWs have the potential to reduce costs to the healthcare system by $5,000 per HCW per year. Maintaining and recovering psychological and behavioral well-being is essential to ensuring we have a workforce that is resilient to acute and ongoing stressors such as the COVID-19 pandemic, ensuring that they are capable of providing the highest level of quality and compassionate care to patients. In this project, we will strengthen the resiliency of the Northwestern Medicine (NM) healthcare system by implementing an online psychological well-being intervention (PARK). We will assess HCW willingness to engage in PARK, which has been shown in other populations experiencing stress (e.g. dementia caregivers, general public coping with COVID-19) to be effective. We will also assess if the PARK is effective in reducing stress and associated-burnout, absenteeism, and intentions to leave the workforce in a subset of 750 persons who have been participating in a study of HCWs at NM since Spring 2020. In the entire cohort, we will measure the psychological well-being, levels of burnout, health behaviors, absenteeism, and plans to leave the workforce at three time periods: the start, middle, and end of the study period and assess whether they differ by HCW characteristics including gender, race, and role in health care. Results from this study will provide much-needed information: 1) about the current state of psychological well-being and burnout among NM HCWs, now over 1 ½ years into the pandemic; 2) on the role of an online wellness intervention to improve well-being during a protracted pandemic; and 3) about the contribution of PARK to reduce burnout, HCW absenteeism and turnover, and potential impacts on costs. PARK has the potential to have a significant impact on not only NM HCWs but also to be generalizable to other healthcare organizations for addressing burnout and to contribute to lessons learned on how to support HCWs responding to future pandemics; ensuring resiliency in the healthcare delivery system. In addition, we will work with our already engaged stakeholder committee to ensure results can provide actionable policy and fiscal insights. Future opportunities will include collaboration with other healthcare systems to expand roll-out of the successful PARK intervention.
This study aims to examine the long-term outcomes in Veterans infected and uninfected with SARS-CoV-2 using electronic health record information and structured surveys.
An open label, randomized, dose comparison, sequential cohorts study design in healthy volunteers (young adults) is a frequently used design in vaccine Phase 1 studies. ACM-001 is developed as a booster vaccine against SARS-CoV-2 after a full primary vaccination with or without 1-2 booster doses (2 or 3 or 4 doses) schedule with any registered and commercial SARS-CoV-2 vaccines. The plan is to start with a low dosage of antigen alone, followed by a combination of antigen and adjuvant and then to progress to higher dosages to define the safety profile of the candidate vaccine as primary endpoint, and its immunogenicity as secondary endpoint.
Since its inception, KPMP has developed sophisticated protocols for collection and analysis of human kidney tissue, and for collection of biofluids. Members of the consortium have wide-ranging expertise in conducting clinical studies, processing kidney tissue, advanced structural and molecular analysis and complex bioinformatics analysis, which will be used to leverage effectively as a group to better understand kidney disease. This joint protocol aims to synergize the COVID-19 study efforts of KPMP academic research centers, to collectively study COVID-19, including its renal presentation using kidney tissue and/or biofluids from patients suffering from COVID-19. This will increase the breadth and depth of data available to the public to expedite discoveries, identify therapeutics, and improve outcomes for patients with COVID-19. It will additionally bring the expertise of KPMP investigators to bear against this pandemic.
Olfactory dysfunction is a defining symptom of COVID-19 infection. Studies have demonstrated improved olfaction in patients with post infectious olfactory dysfunction after an olfactory training (OT). The aim of this study is to assess the clinical outcomes of olfactory training (12 weeks) therapy in the treatment of persistent olfactory dysfunctions after COVID-19. Specially, we aim to compare the effectiveness of two different olfactory training (different odors) with a placebo group. A group will train themselves with 4 scents (rose, orange, clove and eucalyptus) and another group with 4 different scents (cheese, coffee, strawberries and lemon). The placebo group will train themselves with an odorless substance. Olfaction sensory evaluation will be performed by using different olfaction tests (Sniffin' Sticks and UPSIT) and complete questionnaires to assess olfactory perception and particularly parosmia and phantosmia.
PRIME-2-CoV_Beta is the first clinical candidate based on the attenuated 2nd generation Orf virus (ORFV) vaccine platform which encodes for the structural spike (S)- and nucleocapsid (N) protein of SARS-CoV-2. The aim of the multivalent vaccine is to broaden the specific immune response against SARS-CoV-2 and to increase the probability of cross-protection against emerging variants.
The AudibleHealth Dx is a diagnostic software as a medical device (Dx SaMD) consisting of an ensemble of software subroutines that interacts with a proprietary database of Signal Data Signatures (SDS), using Artificial Intelligence/Machine Learning (AI/ML) to analyze forced cough vocalization signal data signatures (FCV-SDS) for diagnostic purposes. This study will evaluate the performance of the AudibleHealth Dx in comparison to a standard of care Reverse Transcriptase Polymerase Chain Reaction (RT-PCR) test for the diagnosis of COVID-19. A secondary purpose of the study will be usability testing of the device for participants and providers.
This is a clinical study to investigate the safety, tolerability and immunogenicity of a VLA2001 booster vaccination in participants aged 18 years and older. In total approximately 275 participants are planned to be enrolled.
Three complementary activities will be implemented:1) Baseline and repeat census of the catchment population; described in a separate protocol (IVI-ECOVA-03-WS1); 2) Enhanced surveillance for COVID-19 disease, and 3) AEFI-enhanced surveillance. The mass vaccination campaign will be conducted by the Government and is not part of this protocol.
This is a single blind, placebo-controlled clinical trial designed to determine the safety and tolerability of MTx-COVAB36 after a single administration in a dose escalation, dose limiting toxicity (DLT)-driven approach in healthy volunteers. Additional data to define the recommended phase II dose (RP2D) will also be determined. MTx-COVAB36 is a fully human monoclonal IgG1 antibody derived from the memory B cells of convalescent COVID-19 donors and directed against SARS-CoV-2 spike protein with potent virus neutralising activity. The trial will comprise four dose cohorts, each composed of 6 participants receiving MTx-COVAB36 and 2 participants receiving placebo, with pre-defined dose levels. The pre-defined investigational medicinal product (IMP) doses are: 100 mg, 500 mg, 1,000 mg and 2,000 mg, respectively. Participants will be administered a single dose of either IMP or placebo on Day 1 of the study and will be followed up until 63 days post administration.