View clinical trials related to Covid19.
Filter by:Although the recent literature is building a remarkable background to answer the many unknowns related to SARS-CoV-2 infection, it is absolutely necessary to finalize every clinical effort to collect data that may be useful, in a short time, to improve our knowledge of SARS-CoV-2 infection. Numerous biomarkers have been evaluated in the recent literature as being altered in patients with severe forms of COVID-19. Particularly, in the critical care area, the research of early predictors of mortality is essential for high-flow management of patients requiring invasive assisted ventilation and requiring invasive and non-invasive assisted ventilation, hemodynamic support, sometimes extracorporeal support (Extracorporeal Membrane Oxygenation, ECMO). The coordinated study of different biomarkers, in particular, if combined with each other, possibly even to constitute a possible score, could guide the correct allocation of patients between hospital departments and the appropriate management in intensive care units. appropriate management in intensive care units, as well as providing an early prognostic indication. prognostic indication. The combination of these biomarkers with routine clinical and laboratory data may further provide valuable information about their use in acute care and as progressive acute and as progressive monitoring over time. Regarding the data of interest on the clinical trend, the evaluation of the respiratory support modalities, from the administration of oxygen therapy (by nasal cannulae or Venturi mask, or by high flow system - High Flow Nasal Cannula, HFNC), to CPAP support or by non-invasive or invasive ventilation, appears of particular importance. Therefore, the present study will be conducted in sub-intensive as well as intensive care units, in order to evaluate different types of patients, and their possible evolution over time. The comparison between the populations belonging to different areas of intensity of care will be able to describe the different populations. Data analysis will allow an evaluation of possible risk factors and prognostic determinants of the severity of the disease and its infectious complications.
Starting from December 2019, novel coronavirus disease 2019 (COVID-19) pandemic has caused a tremendous economic loss and unprecedented health crisis across the globe. Discovering an effective and safe drug candidates for the treatment of COVID-19 and its associated symptoms became a global urgent demand especially due to limited data that have been released regarding the vaccine efficacy and safety in humans. Reviewing the recent research, Olive leaf was selected as a potential co-therapy supplement for the treatment and the improvement of clinical manifestations in COVID-19 patients. Olive leaves reported to be rich in phenolic compounds such as oleuropein, hydroxy tyrosol, verbascoside, apigenin-7-glucoside and luteolin-7-glucoside which has been reported as anti-SARS-CoV-2 metabolites in recent In silico, computational and in vitro studies. In addition, olive leaf extract was previously reported in several in vivo studies for its anti-inflammatory, analgesic, antipyretic, immunomodulatory and anti-thrombotic activities which is of a great benefit in the control of associated inflammatory cytokine storm and disseminated intravascular coagulation in COVID-19 patients. A placebo-controlled, randomized clinical trial at Fayoum University Hospital in Egypt will be conducted. RT-PCR confirmed COVID-19 adults showing mild to moderate disease will be enrolled in the study. Patients presenting with multi-organ failure, ventilator support, and chronic diseases (except diabetes mellitus and hypertension) were excluded. Patients were randomly assigned in 1:1 ratio to receive standardized olive leaves capsules (containing 20-50% oleuropein) or placebo up-to 10 days along with standard care. The expected outcomes included symptom alleviation, viral clearance, improvement of analysis (CBC, CRP, LDH, ESR, Ferritin, D-dimer, creatinine, ALT and AST) and a 10-day mortality in intention-to-treat population.
Transpulmonary pressure may be higher in ARDS patients due to decreased respiratory system compliance. The hypothesis is that tidal volumes which are generated by Intellivent- Adaptive support ventilation (ASV) are safe range by transpulmonary pressure.
Tocilizumab (TCZ), interleukin-6 (IL-6), newly appeared as treatment of cytokine release syndrome (CRS) in patients with severe covid-19 associated pneumonia. In the present study, we aimed to discuss the treatment response of TCZ therapy in COVID-19 infected patients.
Reaction of the immune system and the body to a Coronavirus-19 (COVID-19) vaccination is so different and ultimately unpredictable has not yet been clarified. It is also not yet known why people who have been vaccinated react to a vaccination with sometimes serious side effects. Using high-throughput dissecting (analytical) methods with the suffix OMICS ("Multi-OMICS" methods, collective characterization and quantification of pools of biological molecules) used in this study on the basis of blood tests, data from several molecular levels can be recorded and a holistic picture can be created from this, which can depict the connections between these levels.
We aimed to investigate the effect of Acute Kidney Injury (AKİ) on the prognosis of patients hospitalised for COVID-19.
This study aims to elicit patient experiences, choices, and side effects associated with the COVID-19 vaccine after breast cancer surgery. Lymph node swelling is a known and common side effect of both the Moderna and Pfizer COVID-19 vaccines. This is the body's normal reaction to the vaccine. It is worrisome that lymph node swelling after the vaccine mimics that found in breast cancer which has spread to the lymph nodes. This side effect will cause worry and anxiety amongst patients as a result. For patients who have had lymph node removal (axillary lymph node dissection or sentinel lymph node biopsy) and are at risk of lymphedema, the investigators are concerned that the lymph node swelling may tax the lymphatic system and incite lymphedema in those at risk or worsen it in those with BCRL. Fear of lymphedema is high in this population and the investigators need to better understand what risk, if any, lymph node swelling after the COVID-19 vaccine imparts to BCRL risk.
Objective: The purpose of this study was to investigate the effect of the Covid-19 process on time management, participation, and leisure time activity. Methods: 531 individuals aged between 18-65 were included in the study. The individuals were evaluated with the Assessment Of Time Management Skills (ATMS) in terms of time management, with the Social Isolation Questionnaire (SIQ) in terms of participation, and with the Interest Checklist (IC) in terms of leisure time activities.
The aim of this study is to evaluate the prevalence of COVID-19 among the residents and geriatric inpatients of the care facilities attached to the Centre Hospitalier Sud Essonne (a general hospital located in Ile-de-France, France), and the factors that are likely to influence this prevalence.
Lung magnetic resonance imaging (MRI) with proton and inhaled inert gases has demonstrated a clinical ability to provide valuable structural and functional information in lung disease. Advances in lung MRI methods have led to the STH department handling clinical imaging referrals from local and national respiratory units. Hyperpolarised Xenon-129 gas MRI is now the gold-standard MRI modality used in clinical practice for asthma and COPD in Sheffield. In this new study, the investigators will use Xenon gas MR imaging and 19F gas MR imaging to obtain physiological, structural, and functional information about patients with known respiratory disease, namely asthma and COPD. Up to 20 patients with asthma and up to 20 patients with COPD will be recruited. Study visits will involve lung function tests and imaging using proton MRI, hyperpolarised xenon gas MRI, and 19F perfluoropropane MRI. After initial baseline assessments, patients will be followed up after 3 and 6 years to investigate the utility of MRI and lung function measurements in tracking disease progression over time. In addition, during the COVID-19 pandemic will also be studying the long term effects of this novel disease. The investigators will use Xenon gas MR imaging and pulmonary vascular 1H MR imaging to obtain physiological, structural, and functional information about patients with COVID-19, including hospitalised patients and mild, non-hospitalised COVID-19 patients. Participants may be invited for baseline assessments during the symptomatic phase of the disease and/or be followed up after 6, 12, 24 and 52 weeks (in line with clinical follow up for hospitalised patients) to investigate long term effects of this novel disease. This novel approach will provide mechanistic insight in to clinical observations such as : (i) why previously healthy patients can respond so poorly to oxygen/ventilation therapy, (ii) why patients respond to proning, and (iii) whether this is caused by alveolar-capillary interstitial changes and /or microvascular clotting in the pulmonary vasculature (leading to V/Q mismatch), and (iv) whether these acute changes lead to long term interstitial lung disease.