View clinical trials related to Acute Respiratory Infection.
Filter by:Study to assess the efficacy and safety of XC8, film-coated tablets, 10 mg in comparison with placebo in patients with dry non-productive cough against acute respiratory infection.
Study to assess the efficacy and safety of XC8, film-coated tablets, 10 mg in comparison with placebo in patients with dry non-productive cough against acute respiratory infections, and to determine the dosing regimen of XC8, film-coated tablets, 10 mg for treatment of dry non-productive cough against acute respiratory infections.
The study is planned to evaluate the therapeutic efficacy and safety of Ingavirin®, syrup, 30 mg/5 ml, in the treatment of influenza or other acute respiratory infections in children from 6 months to 2 years compared with placebo.
The purpose of this study is to evaluate the positivity rate of respiratory syncytial virus (RSV), influenza virus and severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) in high-risk participants presenting with acute respiratory infections (ARIs) in outpatient settings during the influenza/RSV season and to evaluate the association between lower respiratory tract disease (LRTD) and ARI-related hospitalization in participants positive for RSV.
Appropriate use of antibiotics reduces resistance and protects patients from unnecessary harm. Important advances in antibiotic stewardship have been achieved in outpatient settings, but little is known about stewardship in the rapidly growing telehealth sector. Prior pragmatic randomized trials have shown that Centers for Disease Control (CDC) Core Element interventions constructed using insights from decision and social psychology can greatly reduce inappropriate prescribing in outpatient settings. In a randomized trial, the investigators will adapt and test two aspects of CDC Core Elements in a telehealth environment (Teladoc®), each with two levels of intensity. Teladoc® clinicians will be randomized to the following interventions: 1) Performance Feedback (Trending, Benchmark Peer Comparison), 2) Commitment (Private, Public), or 3) Control. All randomization occurs at the provider level, with the exception of the Public Commitment arm, which requires patient-facing content that is determined by patient state. Clinicians and members will see the same messages across all pages, all channels & all consults during the 12-month study period. The primary outcome is to assess change in antibiotic prescribing rate for qualifying acute respiratory infection visits (ARIs).
Last Mile Health (LMH) has partnered with the Liberian Ministry of Health (MOH) to support the design and implementation of the National Community Health Assistant Program (NCHAP). In collaboration with MOH, LMH is planning to conduct an impact evaluation in Grand Bassa to assess the effect of the National Community Health Assistant Program (NCHAP) on health outcomes, as well as to learn lessons around program operations and implementation. Our central hypothesis is that Community Health Assistants (CHAs) within the NCHAP will reduce under 5 mortality, as a result of expanding access to and uptake of health care utilization in remote communities. We will use a mixed effects discrete survival model, taking advantage of the staggered program implementation in Grand Bassa districts over a period of 4 years to compare the incidence of under-5 child mortality between the pre- and post-CHW program implementation periods.
Capnodynamic monitoring has the potential to offer continuous and non-invasive measurements of heart and lung function in patients requiring ventilation in an intensive care setting. Since mechanical ventilation with full patient synchronization is commonly used in ICU, capnodynamic monitoring can be immediately embedded in clinical care and compared to current methods of monitoring cardiac output, lung volumes and oxygen delivery. This observational study will explore capnodynamic monitoring in mechanically ventilated patients with a range of cardiorespiratory compromise.
Early identification and Severity prediction of Acute Respiratory infectious disease has become a top priority for clinicians at department of infectious and respiratory diseases after COVID-19 broke out. This is a multicenter, prospective, and randomized study, which aims to figure out the best way of early identification and severity prediction of acute respiratory infectious diseases. Patients with suspected acute respiratory infectious diseases will be enrolled into this study and received two different diagnostic pathways.
The purpose of this study is to assess the efficacy of Bacille Calmette-Guérin (BCG) vaccination compared to placebo against acute respiratory infections in the elderly who are less protected by standard vaccines against influenza than other age groups. The investigators hypothesize that BCG vaccination can reduce incidence of infection and severity of a range of acute respiratory infections. Patients who are residents of participating long-term care facilities (LTCFs), who agree to participate in the study, or with a legal guardian who agrees on their behalf, will be randomly assigned to receive BCG vaccination or a placebo. Participants will be followed for up to six months to assess the incidence of infection and the severity of a range of acute respiratory infections.
The Apple Respiratory Study, a collaboration between researchers at Apple Inc. (the "Study Sponsor" or "Sponsor") and the Seattle Flu Study team at the University of Washington (UW) (the "UW Study Team"), is a prospective, longitudinal cohort, low risk Study to collect certain data from Apple Watch and iPhone to determine whether such data can detect physiologic and non-physiologic changes in individuals associated with respiratory illnesses due to influenza, SARS-CoV-2 and other respiratory pathogens (the "Study").