View clinical trials related to Pneumonia, Viral.
Filter by:Low radiation doses produce anti-inflammatory effects, which may be useful in the treatment of respiratory complications of COVID-19. This type of treatment is non-invasive and therefore, a priori, it can be used in all types of patients. Main objective: To evaluate the efficacy of low-dose lung irradiation as an adjunctive treatment in interstitial pneumonia in patients with COVID-19 by improving the PAFI O2 by 20% measured 48h after treatment with respect to the pre baseline measurement. -irradiation.
This single-center, prospective, open-label, comparator study, blind for central accessor evaluates the efficacy, safety of inhalations of low-doses of melphalan in patients with pneumonia with confirmed or suspected COVID-19. All patients will receive 0,1 mg of melphalan in 7-10 daily inhalations 1 time per day.
Is Lung Ultrasound really useful in diagnosing COVID19? What can be the usefulness of the Lung Ultrasound in the COVID19 epidemic? In the current state of the art, Sensitivity, Specificity, Positive Predictive Value (PPV) and Negative Predictive Value (NPV) of Lung Ultrasound in the diagnosis of COVID-19 are not yet known. Alveolar-interstitial lung diseases such as viral pneumonia and ARDS seems to have a specific ultrasound pattern that distinguishes them from bacterial pneumonia, preferentially represented by B lines, morphological irregularity of the pleural line, and small subpleural consolidations, but they could share these patterns with other pathologies, reducing specificity. In Italy, the Lung Ultrasound represents a consolidated method for the evaluation and management of all patients who come to the ER, and what we are sure of is its high sensitivity in identifying pathological patterns. Our preliminary data suggest that Lung Ultrasound is highly reliable not to include but to exclude the diagnosis of COVID-19 in patients with respiratory symptoms.
Italy was the first European country affected by a severe outbreak of the Severe Acute Respiratory Syndrome - CoronaVirus-2 (SARS-CoV-2) epidemic emerged from Wuhan region (China), with a high morbidity and mortality associated with the disease. In light of its pandemic spread and the very limited therapeutic options, COronaVIrus Disease 19 (COVID-19) is considered an unprecedented global health challenge. Therefore, the evaluation of new resources, designed in the first instance for other pathologies but potentially active against COVID-19, represents a priority in clinical research. This is an interventional, non-pharmacological, open, randomized, prospective, non-profit study on the adjuvant use of oxygen ozone therapy plus probiotic supplementation in the early control of disease progression in patients with COVID-19. Contextually, all patients are treated with the current standard of care on the basis of the interim guidelines of the Italian Society of Infectious and Tropical Diseases. The main purpose of the study is to evaluate the effectiveness of an ozone therapy-based intervention (accompanied by supplementation with probiotics) in containing the progression of COVID-19 and in preventing the need for hospitalization in intensive care units.
Currently there is a great need for an accurately and rapid assessment of patients suspected for Covid-19. Like CT, Lung Ultrasound (LUS) examination can potentially help with the initial triage of patients but also help track the evolution of the disease. LUS can be used in every setting, including settings with limited infrastructure, allowing the reduction of disparities in trials participation. LUS is also a practical approach that can be used by obstetricians/gynecologists, who are the primary care givers in the labour and delivery room. The International Lung UltraSound Analysis (ILUSA) Study is an international multicenter prospective explorative observational study to assess the predictive value of LUS in Covid-19 suspected and diagnosed pregnant patients.
A phase1/2, open label, dose escalation, safety and early efficacy study of CAStem for the treatment of severe COVID-19 associated with or without ARDS.
This project aims to use artificial intelligence (image discrimination) algorithms, specifically convolutional neural networks (CNNs) for scanning chest radiographs in the emergency department (triage) in patients with suspected respiratory symptoms (fever, cough, myalgia) of coronavirus infection COVID 19. The objective is to create and validate a software solution that discriminates on the basis of the chest x-ray between Covid-19 pneumonitis and influenza
Serious Pneumonia and Critical Pneumonia caused by the 2019-nCOV infection greatly threats patients' life, UC-MSCs treatment has been proved to play a role in curing multiple diseases. And this study is conducted to find out whether or not it will function in 2019-nCOV infection Pneumonia.
The aim of this study is to estimate the burden of disease due to pneumococci, other bacteria and viruses in the African meningitis belt prior to pneumococcal conjugate vaccine introduction and to estimate the population impact of the vaccine after its implementation in 2014. In a defined population of a sanitary district in northern Togo, during the period 2010 to 2017, investigators enroll patients of all ages with suspected pneumonia requiring hospitalization or suspected bacterial meningitis. Patients are evaluated by bacteriology and molecular biology techniques on blood, cerebro-spinal fluid, nasal aspirates and by chest X-ray.
The purpose of the study is to assess the efficacy of an individualized approach to duration of antibiotic therapy based on each subject's clinical response compared to a local standard approach in patients coming from the community and who are hospitalized because of a pneumonia.