Active clinical trials for "Pneumonia"

The primary purpose of this study is to assess the efficacy and safety of Huashibaidu granule for the treatment of community-acquired pneumonia in children compared with placebo and to demonstrate the efficacy of Huashibaidu granule in improving clinical symptoms, removing pathogens, and shortening clinical course.

Sunnybrook Veterans Centre (VC) is a long-term care (LTC) facility with many elderly residents living with swallowing disorders who are at high risk of developing pneumonia from aspirating food/liquid into their lungs. Expiratory muscle strength training (EMST) using a hand-held resistance device over a four week intensive program has been shown to have promising results in improving cough function and reducing aspiration during swallowing in older, community-dwelling adults. The purpose of this study is to explore whether a modified slow-stream protocol of EMST over eight weeks is an effective therapy for improving swallowing safety and lung clearance in elderly VC residents with swallowing disorders. Before and after the eight week therapy program, we will measure participants' cough under spirometry, swallowing under videofluoroscopy, and their swallowing-related quality of life and diet texture modification. A three month follow-up visit will measure swallowing-related quality of life again, as well as record incidence of respiratory tract infections requiring antibiotics in the last three months, to be compared with broader institutional data.

Oxygen is the most commonly administered therapy in critical illness. Accumulating evidence suggests that patients often achieve supra-physiological levels of oxygenation in the critical care environment. Furthermore, hyperoxia related complications following cardiac arrest, myocardial infarction and stroke have also been reported. The underlying mechanisms of hyperoxia mediated injury remain poorly understood and there are currently no human in vivo studies exploring the relationship between hyperoxia and direct pulmonary injury and inflammation as well as distant organ injury. The current trial is a mechanistic study designed to evaluate the effects of prolonged administration of high-flow oxygen (hyperoxia) on pulmonary and systemic inflammation. The study is a randomised, double-blind, placebo-controlled trial of high-flow nasal oxygen therapy versus matching placebo (synthetic medical air). We will also incorporate a model of acute lung injury induced by inhaled endotoxin (LPS) in healthy human volunteers. Healthy volunteers will undergo bronchoalveolar lavage (BAL) at 6 hours post-intervention to enable measurement of pulmonary and systemic markers of inflammation, oxidative stress and cellular injury.

Dyspnea (i.e. breathlessness) and exercise intolerance are common symptoms for patients with interstitial lung disease (ILD), yet it is not known why. It has been suggested that muscle dysfunction may contribute to dyspnea and exercise intolerance in ILD. Our study aims to: i) examine differences in the structure and function of the leg muscles in ILD patients, ii) determine if leg muscle fatigue contributes to dyspnea and exercise limitation in patients with ILD, and iii) determine the effects of breathing extra oxygen on leg muscle fatigue, as well as ability to exercise in ILD patients.

International and national clinical guidelines recommend short antibiotic regimens in patients with non-severe community-acquired pneumonia (CAP) who have reached clinical stability. However, adherence to these recommendations remains unclear. The goals of this quasi-experimental trial are: 1) to assess adherence to clinical guidelines in relation to the duration of antibiotic treatment in patients hospitalized for non-severe CAP who have reached clinical stability; 2) increase adherence to clinical guidelines and reduce the use of antibiotics in patients hospitalized for non-severe CAP who have achieved clinical stability after at least 5 days of antibiotic treatment. To this end, a multicenter prospective study will be carried out over 2 years and divided into 2 phases: i) during the first year (observational phase), patients with CAP hospitalized in the participating centers will be recorded to assess objective 1; ii) to achieve objective 2, at the beginning of the second year (quasi-experimental trial) the centers will be randomized into 2 groups of hospitals, one of them a control group and the other an intervention group. The intervention will consist in automatic reminders through pop-up windows in the computerized prescription software, reminding the clinician responsible for each patient of the need to adhere to clinical guidelines regarding the duration of antibiotic treatment in patients with clinical stability.

The aim of the work will be to assess the combined effect of enteral or parenteral nutrition enriched with immunonutrition on the outcome of critically ill patients with pneumonia in comparison with patients who received standard care of nutrition in intensive care unit.

Severe pneumonia has a high morbidity and mortality. Humidified oxygen therapy, mechanical ventilation, and removal of airway secretions are the main non-drug treatments. However, mechanical ventilation leads to a high economic burden, and ventilator-associated pneumonia may increase patient mortality. Therefore, it is necessary to conduct in-depth research on early release from the ventilator and oxygen therapy. Studies have shown that high-flow nasal oxygen therapy (HFNC) improves airway humidification and oxygenation in patients. The respiratory humidification therapy device (AIRVOTM2) is mainly used internationally, but clinical studies on artificial airway patients are limited. In the previous study, we improved the "New Artificial Airway High Flow Humidification Oxygen Therapy Device" (NTHF) to improve the accuracy of gas flow rate, and unified the baseline with AIRVOTM2. The status quo of the obvious differences in the airway humidification effect of patients. The pre-experiment again found that the gas flow rate consumption was significantly lower than that of AIRVOTM2 after the NTHF exhalation port was optimized, and the gas flow rate was proportional to the inhaled gas humidity. Based on this, we hypothesized that the flow rate of the optimized expiratory port of NTHF is more stable than that of AIRVOTM2, which can improve the airway humidification effect of patients. We intend to adopt a randomized controlled clinical study design, by comparing the application of two oxygen therapy devices in patients with severe pneumonia artificial airway, to explore whether NTHF can promote the clearance of airway secretions in patients with severe pneumonia and improve the therapeutic effect of severe pneumonia. Oxygen therapy nursing mode in patients with severe pneumonia artificial airway.

Progressive destruction of the lungs is the main cause of shortened life expectancy in people with cystic fibrosis (pwCF). Inflammation and respiratory infections play a key role in CF lung disease. Previous studies have shown that an increase in inflammatory markers predicts structural lung damage. Close monitoring of pwCF is crucial to adequately provide optimal care. Pulmonary management for pwCF involves treating infections and exacerbations and promoting exercise and mucociliary clearance to slow or prevent structural lung damage. To evaluate the treatment and incite timely interventions it is important for the pulmonary physician to be well-informed about the condition of the lungs. The main monitoring tools in regular CF care are lung function, sputum cultures, symptom reporting and more recently imaging by chest computed tomography (CT-scan) or magnetic resonance imaging (MRI). Strangely enough, there are currently no monitoring tools used in clinics to measure inflammation in the lung, although this is a main factor for progressive lung disease. New highly effective modulator therapy (HEMT) such as elexacaftor/tezacaftor/ivacaftor [ETI, Kaftrio®] is transforming CF treatment, vastly improving lung function and reducing exacerbations. Initial CFTR modulators like ivacaftor and lumacaftor/ivacaftor also improved lung function and reduced exacerbations, but studies showed that lung inflammation was still present. The long-term impact of ETI and its effect on inflammation is not yet known. Thus, monitoring pwCF on HEMT may be different from before, as lung damage seen on chest CT will be less apparent and lung function will improve considerably, therefore not being adequate markers for subtle changes in the lungs. Thus, the focus of monitoring in the era of highly effective CFTR modulators needs to change preferably focusing on measuring lung inflammation. An ideal monitoring tool for lung inflammation in pwCF should be non-invasive, efficient, and provide accurate and sensitive results. Currently, sputum and BAL are the most common methods for assessing inflammation, but BAL is invasive and sputum may not always be available. Exhaled breath analysis by the electronic nose (eNose) or gas chromatography-mass spectrometry (GC-MS) of volatile organic compounds (VOCs) shows promise as a non-invasive monitoring tool. Other promising markers and techniques are inflammatory markers in the blood (cytokines and micro-RNA (miRNA)) and urine. Thus, the objective of this project is to design novel, minimally invasive monitoring techniques capable of identifying lung inflammation in pwCF undergoing highly effective CFTR modulator therapy (ETI) compared to those not using CFTR modulators. The efficacy of these innovative techniques will be evaluated and verified against inflammatory markers in sputum, spirometry, and validated symptom and quality of life scores.

This is a Phase IV randomized, double-blinded, placebo-controlled study in 1000 individuals aged 18 years or older, with community acquired pneumonia (CAP) who meet all eligibility criteria in endemic regions. This study is designed to provide data on the effectiveness of early antifungal treatment (Fluconazole, 400 mg/day) for coccidioidomycosis pneumonia (also referred to as Valley Fever (VF) Pneumonia or acute onset valley fever) vs. placebo in subjects with coccidioidomycosis pneumonia. Patients who are prescribed antibacterials by their health care provider for acute CAP will be randomized to receive either placebo or 400 mg/day of fluconazole for 42 days. The primary objective is to assess the clinical response of early empiric antifungal therapy with fluconazole at Day 22 in subjects with coccidioidomycosis pneumonia and are compliant with the study intervention.

Patients are being offered participation in this pirfenidone trial because They have been diagnosed with fibrotic hypersensitivity pneumonitis (FHP), a type of interstitial lung disease (ILD). This is a disease where scarring of lung tissue occurs as the result of inhaling substances called antigens. These antigens can be substances such as molds, chemicals or dust. As a result of this scarring the lungs are is not able to move oxygen into the bloodstream to reach other organs. Currently over 1400 subjects have been treated with pirfenidone in 15 clinical trials. This drug has been approved by the Food and Drug Administration (FDA) for use in Idiopathic Pulmonary Fibrosis, a different type of ILD, but requires special permission for use in your condition. The use of pirfenidone has not been approved for the treatment of FHP. It is considered experimental treatment in this study.