View clinical trials related to Pneumonia.
Filter by:This is a multicenter, prospective randomized controlled trial. At least 2 but no more than 5 centers are expected to participate in the study. The primary objective is to test the hypothesis that the addition of high-dose inhaled nitric oxide therapy to standard treatment has a positive effect on the clinical course of pneumonia and the structure and function of cardiopulmonary system. Number of participants: 200, including the subproject NO-PNEUMONIA-CAP - 100 CAP participants, the subproject NO-PNEUMONIA-NP - 100 NP participants. Number of groups: 4 Inhalation of iNO at a dose of 200 ppm for 30 minutes under the control of methemoglobin level (no more than 5%) three times a day if the patient is allocated to the main group. The general course of iNO therapy will last until the pneumonia resolves, but no more than 7 days. Recording of vital signs and safety assessment will be carried out immediately before the initiation of NO therapy and every 15 minutes after its start (pulse, blood pressure, respiratory rate, SpO2, temperature, MetHb level).
This is a mixed-methods program evaluation from a health systems and policy perspective, involving (i) stakeholder analysis, (ii) policy-implementation gap analysis, and (iii) comparative country case studies. This study aims to understand how national oxygen strategies achieve impact at national, and subnational level, across country contexts, at what cost. The the investigators seek to: 1. Involve policymakers, implementers (including private sector), and medical oxygen users in identifying challenges and understanding potential solutions to medical oxygen access; 2. Generate new data on how medical oxygen systems work and can be improved from multiple perspectives; 3. Draw lessons on medical oxygen that can directly inform national and global practice and policy. This study will be conducted in 6 of the 9 countries participating in the Clinton Health Access Initiative (CHAI) led Medical Oxygen Implementation (MOXY) program (Uganda, Nigeria, Rwanda, Liberia, Lao PDR, Cambodia). Key informants will be selected representing government, non-governmental agencies, professional associations, private sector, and civil society. This study will be completed over 4 years, with timelines varying between country study sites.
This is a Phase 3, randomized, multicenter, double-blind, non-inferiority study to evaluate the efficacy and safety of cefepime-taniborbactam compared to meropenem in patients ≥ 18 years of age with ventilated HABP or VABP.
The primary aim of this single-center, prospective, randomized, controlled, pilot study is to test the hypothesis that inhalation of NO 200 ppm prevents the development of nosocomial pneumonia in patients at risk after cardiac surgery with CPB. The study is interventional. Examination and treatment of patients is carried out in accordance with the approved standards of medical care for the relevant diseases. During the study, no experimental or unregistered (not approved for use) medical or diagnostic procedures in the territory of the Russian Federation will be carried out. The study includes patients admitted to the Cardiac Surgery Department of Cardiology Research Institute of Tomsk National Research Medical Center for elective surgery with CPB.
The primary objective of the study is to show that in Chinese adults with CABP, a course of IV/PO treatment with omadacycline has similar clinical efficacy as the with the comparator antibiotic, IV/PO moxifloxacin. The study is designed as a bridging study, to confirm the results of the pivotal global CABP trial in an ethnically different population of Chinese.
This study intends to use a standardized cohort study to collect biological samples (including throat swabs, sputum and blood) from subjects eligible for inclusion, and use 16s DNA / metagenomic sequencing and metabolome technology to explore the microbial-host interaction relationship of SAP patients.
Aim is to to demonstrate that the ResAppDx v2.0 algorithms provide an accurate diagnosis of respiratory disease in the study's clinical setting compared to a clinical adjudication committee's (CAC) diagnosis; and to establish a baseline for the resource use and cost of current care pathways for respiratory disease diagnosis in an emergency department. Eligible subjects will be consented/enrolled and their subject reported signs/symptoms of respiratory disease will be recorded in the study electronic case report form (eCRF). The enrolled subject's cough sounds will be captured (5 cough sounds are required) using the ResAppDx v2.0 Investigational Device (ID) software installed on a study smartphone; cough sounds may be voluntary and/or involuntary/spontaneous. As this is an observational study the treating team will be blinded to the ResAppDx v2.0 diagnoses. Additional medical information will be collected from the treating team, from the subject and from the subject's medical record. No follow-up/subsequent visits with the subject will be required by the study. As an efficacy comparator, a clinical adjudication committee (CAC) will determine the final clinical diagnosis using the disease case definitions, eCRF data and the subject's medical record. Information on time and scope of tests and consults ordered by the treating team will be recorded to set a baseline for resource use and cost of current standard of care treatment/assessment procedures. This data will allow future health economics analyses to be performed. The blinded ResAppDx v2.0 diagnoses will be unblinded after database lock and sensitivity and specificity will be calculated for the ResAppDx v2.0 diagnoses compared to agreement with the CAC's final clinical diagnoses.
Aim of study is to demonstrate that the ResAppDx v2.0 algorithms provide an accurate diagnosis of paediatric respiratory disease in the study's clinical setting compared to a Clinical Adjudication Committee's (CAC) diagnosis; and to establish a baseline for the resource use and cost of current care pathways for paediatric respiratory disease diagnosis in an emergency department. Eligible subjects/parents will be assented/consented, enrolled and their subject reported signs/symptoms of respiratory disease will be recorded in the study electronic case report form (eCRF).The enrolled subject's cough sounds will be captured (5 cough sounds are required) using the ResAppDx v2.0 Investigational Device (ID) software installed on a study smartphone; cough sounds may be voluntary and/or involuntary/spontaneous. As this is an observational study the treating team will be blinded to the ResAppDx v2.0diagnoses. Additional medical information will be collected from the treating team, from the subject/parent and from the subject's medical record. No follow-up/subsequent visits with the subject will be required by the study. As an efficacy comparator, a CAC will determine the final clinical diagnosis for each enrolled subject using the disease case definitions, eCRF data, the subject's medical record and cough sound recordings.Information on time and scope of tests and consults ordered by the treating team will be recorded to set a baseline for resource use and cost and time of current standard of care treatment/assessment procedures. This data will allow future health economics analyses to be performed.The blinded ResAppDx v2.0diagnoses will be unblinded after database lock and sensitivity and specificity will be calculated for the ResAppDx v2.0diagnoses compared to agreement with the CAC's final clinical diagnoses for this cohort.
Statement of the problem: •Is there an effect of the cough assist device on Hemodynamic status and oxygen saturation for ventilated children? Null hypothesis There will be no effect of cough assist device on hemodynamic status and oxygen saturation for ventilated children.
The goal of this observational study is to compare pulmonary health parameter measurements from the VQm PHM™ to existing clinical measurements. The main questions it aims to answer are: - Confirm the performance of non-invasive pulmonary health parameter shunt fraction value found on the VQm PHM™ when compared to available reference measurements. - Confirm the performance of non-invasive pulmonary health parameter pulmonary blood flow, functional residual capacity and physiological dead space found on the VQm PHM™ when compared to available reference measurements.