View clinical trials related to Pneumonia.
Filter by:In Pakistan, pneumonia and recurrent wheeze in children under five pose significant threats to children's health. Despite being preventable, more than 90,000 children die each year due to pneumonia in Pakistan, making it one of the top five countries in the world, with the highest pneumonia related childhood mortality. The predisposing factors which lead to these illnesses include lack of hygiene, lack of immunization, overcrowding, household air pollution, smoking, and poverty. Prompt recognition and timely initiation of treatment is imperative in children under five with pneumonia and recurrent wheeze and failure to do so can lead to complications and death. In children under five, among the causes of death due to these diseases, one is delayed care seeking. It has been identified that around 38% of deaths due to respiratory illnesses occur in households due to this delayed care seeking which is defined as delay in care sought for an illness outside home.
Non-commercial depersonalized multi-centered registry study on analysis of chronic non-infectious diseases dynamics after SARS-CoV-2 infection in adults.
Coronavirus is an acute viral disease with prevailing upper respiratory tract infections caused by the RNA-containing virus of the genus Betacoronavirus of the Coronaviridae family. Most patients with severe COVID-19 develop pneumonia in the first week of the disease. As the infection progresses, the infiltration increases, and the affected areas increases. Excessive and uncontrolled immune system response with rapidly developing fatal cytokine storm plays the main role in the pathogenesis of acute respiratory distress syndrome (ARDS) due to SARS-CoV-2 infection. According to available data, exosomes can regulate inflammation and regenerative processes due to the change in the concentration of anti-inflammatory cytokines and switch the immune cell to regenerative secretome. Inhalation of exosomes may reduce inflammation and damage to the lung tissue and stimulate the regenerative processes. This protocol has been developed based on the literature, information about the ongoing tests NCT04276987 (A Pilot Clinical Study on Inhalation of Mesenchymal Stem Cells Exosomes Treating Severe Novel Coronavirus Pneumonia) and NCT04384445 (Organicell Flow for Patients With COVID-19), Patent No 271036826 of 2019. "A method for obtaining and concentrating microRNA-containing exosomal multi-potent mesenchymal-stromal cells for use in cosmetic and pharmaceutical products to stimulate regenerative processes and slow down aging.
In this study, patients with severe coronavirus disease 2019 (COVID-19) infection will be randomized to receive duvelisib or a placebo. Participants will be enrolled at Emory University Hospital and will be identified and recruited by their treating physician and research team.
The research is a prospective, multicentric (Groupe hospitalier Paris Saint-Joseph, Centre Hospitalier de Versailles André Mignot and Centre Hospitalier Victor Dupouy), non-interventional, prospective study. It aims at measuring eicosanoids at different stages of Covid-19 infection.
Preliminary data support the effect of Nitric Oxide (NO) on improving the oxygenation in mechanically ventilated patients and spontaneously breathing patients with COVID-19. In vitro studies showed an antiviral effect of NO against SARS-coronavirus. The optimal therapeutic regimen of NO gas in spontaneously breathing hypoxemic patients with COVID-19 is not known. We hypothesize that high concentration inhaled NO with an adjunct of continuous low dose administration between the high concentration treatments can be safely administered in hypoxemic COVID-19 patients compared to the high dose treatment alone. Prolonged administration of NO gas may benefit the patients in terms of the severity of the clinical course and time to recovery. Together with a clinical effect on ventilation-perfusion matching, a prolonged regimen would allow also an increase in antiviral activity (dose and time-dependent).
Novel coronavirus (SARS-CoV-2: severe acute respiratory coronavirus 2) pneumonia often develop the acute respiratory distress syndrome (ARDS). Lung protective ventilation strategy consisting of low tidal volume and high positive end-expiratory pressure (PEEP) is recommended. However, it is not clear whether injured lungs from SARS-CoV-2 pneumonia have the same mechanical properties, especially response to PEEP as common ARDS. Therefore, the investigators propose an observational study to analyze respiratory mechanics and lung recruitablity using EIT (electrical impedance tomography) in patients with ARDS due to SARS-CoV-2 pneumonia.
Tofacitinib suppresses pro-inflammatory signaling that may be important pathogenetically to progression to more severe lung disease and acute respiratory distress syndrome (ARDS) in patients with COVID-19. The purpose of the study is to assess the safety and efficacy of tofacitinib plus standard pharmacologic and supportive measures in treating hospitalized participants with COVID-19 pneumonia.
The new coronavirus pandemic responsible for the severe acute respiratory syndrome SARS-CoV2 requires, in its severe forms, the use of invasive ventilation in intensive care. The first patients seen in intensive care presented with neurological symptoms and usually not seen in non-viral ARDS or due to other viral causes. These were mainly restless awakenings, attempts at self-extubation and confusional syndromes. Although the data in the literature do not seem to reveal the presence of SARS-CoV2 in the CSF of these patients, certain elements seem to show parenchymal brain damage with the description of hypometabolism of the frontal regions. In addition, most of these patients present a memory complaint after going into intensive care (personal data not published). We do not know to date what is the cognitive and psychic profile of these patients, nor what will be their future evolution. Some patients may require specific neuro-cognitive rehabilitation. The aim of this study is to assess the cognitive profile of patients infected with COVID-19 who have used invasive ventilation in the intensive care unit of Paris Saint-Joseph hospital since April 2020, in order to be able to compare them between them and follow their evolution in the medium term. This work could make it possible to describe the specific cognitive impairment of SARS-CoV2, by trying to evade other causes of cognitive disorders in patients hospitalized in intensive care for respiratory distress (hypoxia, treatments, metabolic disorders, etc.). The main objective is to follow the medium-term evolution between 3 and 6 months of the cognitive profile of patients with severe form of SARS-CoV2 with the use of ventilatory resuscitation.
patients who had >3 on Murray score and >6 on CPIS allocated randomly in two groups 120 patients in each. Group A received 30 mg/kg methyl-prednisolone slowly intravenous in 250 mL normal saline every 8 hours for only 48 hours while group B received 1 mg/kg/day methyl-prednisolone divided to three doses given every 8 hours for two weeks. Duration of the study last 16 days, Morbidity considered if no improvement in any or all clinical parameters of both Murray and CPIS scores and failure of weaning of patients from the ventilator at the studied period.