View clinical trials related to Pneumonia.
Filter by:The primary objective of this study is to assess the safety and effectiveness of Human Multigene Methylation Detection Kit (Fluorescent PCR Method) for help diagnose lung cancer by comparing with clinical standard method (includes chest CT examination or pathological examination).
This is an observational study of pooled population-based samples in three Nordic countries. Country-specific data has already been analysed in previous studies in Sweden, Finland, and Norway. The primary objective is to examine the association between tobacco use, the risk of SARS-CoV-2 infection, and adverse Outcomes using pooled population-based samples.
This study was conducted in a randomized, double-blind, placebo-controlled, multicenter clinical trial design. Two groups were designed, the experimental group and the placebo control group. Patients in both groups received basic treatment with vitamin C effervescent tablets. Tanreqing capsule was added to basic treatment in the experimental group, and placebo was added to basic treatment in the control group. The treatment course was 7 days, and the observation period was set to 7 days, with a daily visit.
Exercise intolerance and fatigue are the most common symptoms in patients with chronic COVID after hospital discharge. Muscle deconditioning, dysautonomia, and exercise hyperventilation have been proposed as potential mechanisms contributing to exercise functional capacity limitation in Long-COVID. Along this line, combined exercise training or inspiratory muscle training (IMT) alone have already been demonstrated to be feasible therapeutic options for Long-COVID patients. However, we do not have evidence about the effects of a home-based IMT program for 12-week on peak oxygen consumption (peakVO2). in patients chronic COVID (>3 months) after hospital discharge. This is a prospective study, blinded for the evaluator, randomized (1:1) to receive standard management alone or combined with a program of IMT that will be carried out in a single center. After randomization, patients will be clinically evaluated. The primary endpoint (peakVO2) will be assessed by cardiopulmonary exercise testing (CPET) at 12-week. Patients with chronic COVID (>3 months) after hospital discharge will be enrolled. A sample size estimation [alfa: 0.05, power: 80%, a 15% loss rate, and at least a delta change of mean peakVO2: +3 mL/kg/min (SD±2.5)] of 26 patients (13 per arm) would be necessary to test our hypothesis.
This is a human randomized controlled cross-over study where we investigate the effects of heated tobacco products (HTP) on lung function and on assessing volatile organic compounds in exhaled air.
COVID-19, caused by severe acute respiratory syndrome corona virus 2 (SARS-CoV-2), is a multisystem disease which primarily involves the respiratory tract. The first case of COVID-19 was identified in late 2019 in the province of Wuhan, China which was followed by the rapid spread of the disease globally, becoming a present-day pandemic. Objectives: The aim of this study was to describe the clinical characteristics, comorbidities and outcome of the critically sick patients with COVID-19 pneumonia admitted in ICU of a tertiary care hospital in Lahore.
This is a randomised controlled experiment in the form of a web based survey study which randomly exposes participants to different forms of public health messages, after which participants will be assessed on their intent to take up the COVID-19 vaccine, recommend the vaccine, and also willingness to propagate the exposed message.
Background: Feasibility and acceptability of bubble continuous positive airway pressure (CPAP) were not evaluated in childhood severe pneumonia in developing countries at a larger scale. Objective: 1. To describe prevailing structural and functional conditions and other operational challenges in nontertiary hospitals in Bangladesh that would need to be addressed in order to introduce bubble CPAP as part of the management of children with severe pneumonia enabling a successful interventional trial. 2. To develop and test bubble CPAP training materials of relevance to clinical staff providing care for children with severe pneumonia in district general hospitals. 3. To determine the prevalence of hypoxaemia among hospitalised children with severe pneumonia in non-tertiary/district hospitals, current practices with regard to management and clinical outcome, to support power calculations of a future interventional trial of bubble CPAP for children with severe pneumonia. 4. To document the early experience, particularly the feasibility and acceptability of introducing bubble CPAP in selected non-tertiary/district hospitals. Methodology: Feasibility/demonstration phase will be done as an internal pilot in 2 hospitals. Current treatment practice, facilities, and operational challenges will be evaluated for the introduction, clinical use and maintenance of bubble CPAP. Outcome: 1. To describe the structural and functional conditions and operational challenges that may influence the introduction of bubble CPAP. 2. To have bubble CPAP training materials that can be delivered cheaply and repeatedly to a level of comprehension of staff providing care to children with pneumonia in district general hospitals in Bangladesh. 3. A quantitative analysis of the incidence of hypoxaemia among hospitalised children with severe pneumonia, current management practices and clinical outcomes. 4. A qualitative assessment of the feasibility of introducing bubble CPAP. Number of children to be enrolled: 20 children in 2 hospitals as an internal pilot (i.e. 10 in each hospital) Main inclusion criteria: Age between 2 months and 24 months with severe pneumonia and hypoxemia and guardian/parent gives written informed consent to participate in the study. Statistical Analysis: For feasibility and acceptability study, a descriptive analysis will be performed. Study duration: 44 months
Statins with their powerful anti-inflammatory, immunomodulatory, and antioxidant properties make them candidate members to be used in the management of sepsis and different types of infections including pneumonia. This study aims to determine whether adjunctive statin therapy decreased day- 28 mortality among ICU patients with ventilator-associated pneumonia (VAP) & number of ventilator-free days (after successful weaning) between day 1 and both day 28.
COVID-19 is a disease that has multiple facets including an inflammatory storm, it promotes blood clotting and causes kidney damage, mucinous secretions in the lung are of great importance to outcome. Increasingly sticky sputum is associated with critical illness, with considerably raised levels of a specific type of mucous protein (MUC5AC) in sputum in COVID-19 patients. There is a strong link between viral infection and mucus production via multiple inter-cellular signalling pathways including Interleukin (IL)6, IL10 and Tumour Necrosis Factor (TNF) whereby the inflammatory storm causes sudden secretion of high volumes of dense mucus. An Australian pharmaceutical company has developed BromAc (Bromelain & Acetylcysteine) for the palliative treatment of highly mucinous tumors of the appendix and lung. During pre-clinical development, they found that BromAc® rapidly dissolved and removed tumour mucin, making it a potent mucolytic. In combination, bromelain and acetylcysteine disrupt the architecture of the SARS-COV-2 virus in a way that renders it non-infective, reduced cytokines and chemokines in COVID-19 sputum and is a highly effective respiratory mucolytic. The aim of this study is to assess whether BromAc delivered into the respiratory tract as a nebulised aerosol is tolerated and safe at three specific concentrations in healthy volunteer participants. The investigators will further assess the safety of nebulised BromAc and efficacy of the drug product as a mucolytic and anti-inflammatory, and whether this improves clinical outcome in participants with COVID-19. The hypothesis is that BromAc will be tolerated by patients and will result in mucus clearance, improving oxygenation and compliance in those that are ventilated. This is a phase I study on the safety of BromAc, where 12 healthy volunteers will receive BromAc as a nebulised aerosol into the respiratory tract. BromAc is a product that combines two existing products to be delivered into the respiratory tract via nebulised aerosol delivery through a mask. The participant will be assessed for symptoms and side effects. The participant will receive nebulised BromAc at the allocated dose level for a total of 3 days. The hypothesis is that nebulised airway delivery of BromAc will be safe at the concentrations assessed.