View clinical trials related to Sars-CoV2.
Filter by:Mortality of COVID-19 pneumonia with acute respiratory distress syndrome (ARDS) is extremely high in preliminary reports amounting to 50-60%. Duration of mechanical ventilation in these patients appears to exceed standard duration of mechanical ventilation in non-COVID-19 ARDS patients, suggesting that COVID-19 patients may be particularly at risk for ventilator-induced lung injury. Treatment of COVID-19 ARDS patients is to date mainly supportive with protective mechanical ventilation (ventilation with low tidal volume (VT) i.e. 6 ml/kg of predicted body weight (PBW) and plateau pressure control below 30 cm H2O). Mechanical ventilation with VT reduction below 6 ml/kg PBW in ARDS may reduce alveolar strain, driving pressure and hence ventilator-induced lung injury. Investigators recently performed a multicenter pilot study on 34 moderately severe to severe ARDS patients. This study demonstrated that ultraprotective ventilation with ultra-low VT (≤4.2 ml/kg PBW) without extracorporeal circulation may be applied in approximately 2/3 of the patients, with a 4 cmH2O median reduction in driving pressure, at the price of transient episodes of severe acidosis in approximately 1/3 of the patients. Investigators hypothesized that ultraprotective ventilation without extracorporeal circulation may reduce the mortality at day-90 and increase the number of days free from mechanical ventilation (VFD) at day-60, as compared to protective ventilation.
Assessment of the Efficacy and Safety of Hydroxychloroquine (HCQ) Administered as a Prophylaxis for Health Professionals Exposed to COVID19 and Working in Medical Intensive Care Units, in Tunisia. Multicentric, Randomized Comparative Study
The goal of the research is to assess candidate COVID-19 rapid diagnostic tests (e.g. immunodiagnostic antibody tests, like Cellex qSARS-CoV-2 IgG/IgM Rapid Test, or antigen tests, like Turklab Test-It COVID-19 Home Test, AllBio Science Inc. and Artron Laboratories Inc. rapid COVID-19 antigen tests in order to judge their clinical accuracy compared to Centers for Disease Control (CDC)-recommended molecular genetic testing and clinical diagnosis. Second, it is our goal to determine if self-testing assisted by COVIDscanDX mobile device camera acquisition software platform and telemedicine clinical/technical support (virtual point-of-care) improves the ease of use and immediate interpretation of the tests, thus making self-testing comparable in accuracy and safety to testing in a clinical setting. Third, we are testing antibodies to SARS-CoV-2 after diagnosis with COVID-19 or following vaccination to measure the onset and time course of detectable antibodies from finger-stick blood drops and rapid antibody lateral flow tests. The overall purpose of the study is to dramatically increase the capacity of COVID-19 testing by establishing the safety, ease-of-use and validity of self-testing assisted by mobile device imaging and telemedicine remote support and provide evidence of antibody time-course response to vaccination.
In the present context, it seems necessary to try to describe as precisely as possible the physiological alterations due to COVID-19. From these observations, therapeutic proposals adapted to this new disease may then be developed, particularly in the symptomatic management of the critically ill patient. It therefore seems essential to rigorously study these modifications, as they have been studied in the past for ARDS. The aim of this non-interventional study is to describe precisely the respiratory and hemodynamic changes induced by COVID-19 in mechanically ventilated patients .
To evaluate the effectiveness of Nigella Sativa and honey stirred in 250 ml of distilled water 12 hourly till patient becomes asymptomatic or a maximum of 14 days with standard hospital care versus standard hospital care alone with placebo capsule and 250 ml water, in clearing the COVID-19 nucleic acid from throat and nasal swab, lowering disease detrimental effects on HRCT chest/X-ray and severity of symptoms along with duration of hospital stay till day 14th day of follow up and 30 days mortality (primary outcomes).
This study is for patients that are hospitalized for Coronavirus Disease 2019 (COVID-19). The purpose of this study is to see whether neutralizing interleukin-8 (IL-8) with BMS-986253 can help improve the health condition of participants infected with COVID-19. This is the first in-human study of this investigational product specifically in patients with severe COVID-19. Currently there are no FDA approved medications that improve the chance of survival in patients diagnosed with COVID-19. However there are usual treatments currently being used to help treat COVID-19 patients and BMS-986253 will be compared to these standard of care treatments in this study.
Despite new charachersitics of COVID-19 patients, critical care implementation seems to be similar to those with Acute Respiratory Distress Syndrome (ARDS) in intensive care units (ICU). Regarding the initial gravity of these patients, sedation and neuromuscular blockers are usually administrated, increasing the risk to develope an ICU-acquired weakness which is directly correlated to morbi-mortality and a burden during recovery. Respiratory symptoms are mostly related to dyspnoea and non-productive cough, with only 33% of COVID-19 patient having a bronchial hypersecretion ; consequently, chest physiotherapy is only implemented in after case-by-case evaluation. This unprecedented situation requires to identify how physiotherapy is being implemented in COVID-19 patients in ICU. This retrospective, multicentric study aims to identify the charactheristics of physiotherapy (type and time spent) implemented in Argentina, Belgium, Chili, France, Italy and Spain
The objective of this study is to evaluate the efficacy of oral favipiravir plus standard of care treatment (SOC) compared with placebo plus SOC in reducing the duration of shedding of SARS-CoV2 virus in patients with mild or asymptomatic COVID-19.
This protocol proposes to use IC14, a recombinant chimeric monoclonal antibody (mAb) recognizing human CD14, to block CD14-mediated cellular activation in patients early in the development of ARDS. The binding of IC14 to human CD14 prevents CD14 from participating in the recognition of PAMPs and DAMPs due to SARS-CoV-2 infection. The putative mechanism of action of IC14 in ARDS is blockade of PAMP and DAMP interactions with CD14, thus attenuating the inflammatory cascade that leads to increased endothelial and epithelial permeability and injury resulting in alveolar injury and fluid accumulation characteristic of ARDS. IC14 is a chimeric monoclonal antibody that binds to CD14 with high affinity and inhibits signaling via membrane and soluble CD14. Blocking CD14 with IC14 treatment in normal volunteers strongly inhibits systemic inflammation in response to bacterial endotoxin (LPS). University of Washington conducted a small NIH-funded pilot trial of IC14 treatment in 13 patients with ARDS, which suggested that IC14 treatment reduced alveolar inflammation and decreased BAL cytokines. IC14 was also the subject of IND 105803 for a phase 2 study of ARDS from all causes which we propose to revise for the COVID-19 indication. A dosing regimen for IC14 with favorable pharmacokinetics supporting once daily intravenous dosing has been defined, making this an acceptable treatment for hospitalized patients. Two pharmacodynamic biomarkers can be used that are related to CD14, measurements of sCD14 (serum at baseline; urine at baseline and follow up) as well as a CD14 fragment (sCD14-ST; presepsin). A CD14 target engagement assay is available. Therefore, because of the central role of CD14 in the amplification of lung inflammatory responses leading to severe lung injury and the safety record of IC14 in humans, we propose to have an open-label protocol to test the safety and potential efficacy of IC14 treatment in preventing the progression of severe respiratory disease in patients hospitalized with COVID-19.
Background: Oropharyngeal dysphagia (OD) is a common complication in/post ICU patients that have been with intubation/mechanical ventilation or with tracheotomies or NG tubes, in patients with acute respiratory infection/pneumonia/respiratory insufficiency with a severe disease needing high concentration of oxygen or noninvasive mechanical ventilation and also in patients discharged from acute hospitals to rehabilitation centers, nursing homes or other facilities. All these situations are common for COVID-19 patients that are currently filling our hospitals due to the pandemic expansion of SARS-CoV-2. OD is associated to prolonged hospitalization, dehydration and severe nutritional and respiratory complications -aspiration pneumonia-, hospital readmissions and mortality. Aim: to assess the prevalence of OD and nutritional risk in these patients and to know their needs of compensatory treatment following the application of an early intervention, and to assess whether OD and malnutrition are indicators of poor prognosis for COVID-19 patients. Methods: prospective study in which we will use the volume-viscosity swallowing test (V-VST) to assess the prevalence of OD, and NRS2002 to assess the nutritional risk in admitted patients with confirmed COVID-19 at the Consorci Sanitari del Maresme, Catalonia, Spain. We will register also results of the EAT-10, nutritional status, the needs of compensatory treatments of these patients following an early intervention with fluid and nutritional adaptation and use of nutritional supplements. We will also collect other clinical variables from medical history of the patient related to hospitalization and we will follow the clinical complications and nutritional status at 3 and 6 months follow up.