View clinical trials related to Covid19.
Filter by:Severe SARS-CoV-2 infections are frequently associated with the acute respiratory distress syndrome (ARDS), which leads to a mortality of 30-40%. An altered type I interferon (IFN) response has been demonstrated in patients with severe COVID-19, together with a high viral load. The aim of the current work is, in a large cohort of patients with severe COVID-19 admitted in the ICU, to determine the prevalence of patients with positive anti-IFN antibodies and to determine their outcome, as compared to patients having negative anti-IFN antibodies.
The purpose of this Phase III study is to confirm that SNG001 can accelerate the recovery of hospitalised patients receiving oxygen with confirmed Severe Acute Respiratory Syndrome coronavirus 2 (SARS-CoV-2). Safety and other efficacy endpoints will also be assessed.
SARS-CoV-2 vaccine, now being administered to skilled nursing facility (SNF) residents and staff, has highly variable acceptance between facilities. The investigators need to develop and disseminate effective strategies to increase vaccination immediately. For SNF residents and staff, the investigators will develop and implement a scalable multi-pronged intervention that educates, builds trust and supports the informed consent process aimed to increase SARS-CoV-2 vaccination. The investigators will conduct a cluster randomized trial to compare the effect of electronic messaging and education (i.e., usual care) versus a multi-pronged 'high touch' intervention to reduce vaccine hesitancy in skilled nursing facility staff and residents among a random sample of facilities across four SNF chains. As part of the 'high touch' intervention, the investigators will identify and train local opinion leaders. The investigators will offer these leaders assistance through real-time support for questions and provide consenting specialists. During the second wave of vaccination, the investigators will provide the intervention facilities with positive reinforcement for staff and will identify local champions to garner support and empowerment of staff. Finally, in the intervention facilities, the investigators will provide additional funds to support COVID-19 testing, in order that facilities have access to enough testing kits for patient or staff who develops symptoms following vaccination. This trial will be randomized within four SNF chains in order to evaluate the effect of a multi-pronged strategy to improve SARS-CoV-2 vaccine acceptance among direct care staff and long-stay nursing home residents. In four chains, eligible facilities will undergo randomization between usual care versus adding the 'high touch' intervention, implemented in two waves. Randomization and roll out of the intervention will occur at the facility level. The investigators hypothesize that: (1) the intervention will increase vaccination of SNF residents by at least 10 percentage points versus facilities usual care alone; (2) staff of SNFs with the intervention will have at least a 10 percentage point greater vaccine uptake of vaccine than staff in SNFs that do not participate in the high touch intervention; and (3) within intervention SNFs, improvements in vaccine uptake will be similar across staff and resident race/ethnicities.
In the study, the researchers aim to investigate the impact of contact restrictions during the pandemic of coronavirus disease 2019 (COVID-19) caused by the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) on newborns and their parents. At the onset of this COVID-19 pandemic, contact restrictions in Germany were introduced on March 16th, 2020. These included, among others, the ban on visits to hospitals. This also applied to visits by fathers of newborn children. In many hospitals, fathers were allowed to accompany the mother in the delivery room for birth, but had to leave the hospital before the mother was being transferred to the ward. Fathers were not allowed to visit their wives and newborns until discharge several days later. The hypothesis of this study is that these contact restrictions have an influence on mother-infant interaction as well as on the psychological well-being of the parents. Furthermore, the investigators postulate that these restrictions additionally have a long-term effect on neonatal stress signaling pathways. For this purpose, children are studied, who were born during the period of strict contact restrictions from March, 16th to April, 30th, 2020. The children will be assessed at about six months of age.
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.
The main objective is to evaluate the efficacy and safety of three doses of tinzaparin (prophylactic, intermediate and therapeutic) in hospitalized patients with COVID-19 pneumonia.
Investigators conducted this study to see the effectiveness of Tocilizumab in COVID-19 participants who were in cytokine release syndrome and there was also a control group who received steroids(RECOVERY TRIAL wasn't published or available at that time) this study was conducted in the early days of 1st wave of COVID in our country Pakistan so it was need of the day to develop some national guidelines on the basis of multiple studies' results from Pakistan.
During the continuing SARS-CoV-2 (COVID-19) pandemic, several studies have reported a significant difference in the rate of severe cases between adult females and adult males (42% vs 58%). Among children under the age of 14, the rate of severe cases was reported to be extremely low. To explain this difference, several theories have been proposed including cigarette smoking and lifestyle habits. However, no theory fits both the gender difference in severe cases as well as reduced risk in pre-pubescent children. Our past research on male androgenetic alopecia (AGA) has led us to investigate an association between androgens and COVID-19 pathogenesis. In normal subjects, androgen expression demonstrates significant variation between men and women as well as between adults and pre-pubescent children. SARS-CoV-2 primarily infects type II pneumocytes in the human lung. SARS-CoV-2 enters pneumocytes, by anchoring to the ACE2 cell surface receptor. Prior to receptor binding, viral spike proteins undergo proteolytic priming by the transmembrane protease, serine 2 (TMPRSS2). TMPRSS2 inhibition or knock down reduces ability of SARS-CoV-1 (a related virus to SARS-CoV-2) to infect cells in vitro. Additionally, TMPRSS2 also facilitates entry of influenza A and influenza B into primary human airway cells and type II pneumocytes. The human TMPRSS2 gene has a 15 bp androgen response element and in humans, androgens are the only known transcription promoters for the TMPRSS2 gene. In a study of androgen-stimulated prostate cancer cells (LNCaP), TMPRSS2 mRNA expression increase was mediated by the androgen receptor.10 Further, the ACE2 receptor, also critical for SARS-CoV-2 viral infectivity, is affected by male sex hormones with higher activity found in males. Androgenetic alopecia (AGA), often referred to as male pattern hair loss, is the most common form of hair loss among men. The development of androgenetic alopecia is androgen mediated and is dependent on genetic variants found in the androgen receptor gene located on the X chromosome. We hypothesized that men with AGA would be more prone to severe COVID-19 disease. We conducted a preliminary observational study of hospitalized COVID-19 patients at two Spanish tertiary hospitals between March 23-April 6, 2020 to test this theory. In total, 41 Caucasian males admitted to the hospitals with a diagnosis of bilateral SARS-CoV-2 pneumonia were analyzed. The mean age of patients was 58 years (range 23-79). Among them, 29 (71%) were diagnosed with AGA (16 (39%) were classified as severe AGA (Hamilton IV or above)) and 12 (29%) did not present clinical signs of AGA. The diagnosis of AGA was performed clinically by a dermatologist. The precise prevalence of AGA among otherwise healthy Spanish Caucasian males is unknown; however, based on published literature, the expected prevalence of a similar age-matched Caucasian population is approximately 31-53%. Further, according to the European Center for Disease Control and Prevention (https://www.ecdc.europa.eu/sites/default/files/documents/covid-19-rapid-risk-assessment-coro navirus-disease-2019-eighth-update-8-april-2020.pdf): "Of the confirmed cases in China, 3.8% (1 716/44 672) were healthcare workers. Of those, 14.8% were severely or critically ill and 5% of the severe cases died. Latest figures reported from Italy show that 9% of COVID-19 cases are healthcare workers, with Lombardy region reporting up to 20% of cases in healthcare workers. In Spain, the latest COVID-19 situation overview from the Ministry of Health reports that 26% of COVID-19 cases are in healthcare workers. In a Dutch study, healthcare workers were tested voluntarily for COVID-19 and 6% tested positive. In a report on 30 cases in healthcare workers in China, all cases had a history of direct contact (distance within 1 metre) with COVID-19 patients, with an average number of 12 contacts, and the average cumulative contact time being two hours (1.5, 2.7). In the Dutch study, only 3% of the healthcare workers reported being exposed to hospital patients with COVID-19 prior onset of symptoms and 63% had worked while asymptomatic. Based on the scientific rationale combined with this preliminary observation, we propose to test an anti-androgen as a treatment for patients recently diagnosed with COVID-19. This study is intended to explore the possible protective role of anti-androgens in SARS-CoV-2 infection, including reduction of virological duration and disease severity.
Emerging clinical details of the current SARS-CoV-2 pandemic have illustrated that there are multiple clinical presentations and outcomes of this viral infection. People with an infection have been reported to have a spectrum of disease from severe acute respiratory distress requiring ventilation, to mild respiratory or gastrointestinal symptoms and asymptomatic presentations. Mechanisms explaining the heterogeneity of host response to infection are yet to be characterised. The aim of this project is to understand the host immune response to infection with SARS-CoV-2 over time in convalescent adults, including acquired immune responses, circulating levels of immune signalling molecules, gene expression profiling in peripheral blood and to identify host genetic variants associated with disease progressions or severity. Participants will be healthcare workers who had a diagnosis of COVID-19 (confirmed by positive RT-PCR assay) more than 28 days ago and have recovered and are employed by Cwm Taf Morgannwg University health board. Samples will be processed and analysed to explore immunological, host genetic factors and virological factors that explain pathogenesis and predict outcomes of infection.
The mortality rates associated with COVID-19 related ARDS (COVIDARDS) have varied from observational reports from around the world. This has ranged from 44% (28 day mortality) in the UK to 36% (28 day mortality from ICU admission) in Italian studies, to 32% (all-cause 28 day mortality) in Spain. Predictive models have identified risk factors for COVID-19 hospitalized patients' mortality to include male sex, obesity, age, obesity, comorbidities including chronic lung disease and hypertension, as well as biomarkers including high levels of D-Dimer, LDH and CRP. In addition, practice patterns, such as drugs that were administered, timing of mechanical ventilation and adherence to established lung protective ventilation protocols are known to be variable across sites and have changed over time. The investigators propose to analyze outcomes for patients with COVIDARDS within the NorthCARDS dataset (a dataset of over 1500 patients with COVID-19 related ARDS across the Northwell Health System in the NYC metropolitan region and Long Island, NY) to understand differences in hospital survival and in the time to liberation from mechanical ventilation, specifically looking at the associations between baseline patient factors, changes in biomarkers, respiratory function and hemodynamics over time, and treatments administered. The analyses will be based on three hypotheses: H.1. Worsening trajectories of: oxygenation index (OI), respiratory system compliance (C), and inflammatory markers will be associated with lower hospital survival. H.2. Higher duration of deep sedation and paralytics will be associated with greater time to liberation from mechanical ventilation. This risk will be increased in patients with worsening trajectories of OI, C, and inflammatory markers over time. H.3. Type of mechanical ventilator, specifically the time on portable mechanical ventilator, is associated with hospital mortality and with inability to liberate from mechanical ventilator despite controlling for risk factors of changes in OI, C and Inflammatory markers over time, and the use of paralytics and deep sedation.