View clinical trials related to Asthma.
Filter by:Τherapeutic equivalence, randomized, multiple-dose, placebo-controlled, observer-blind, parallel group design consisting of a 2-week run-in period followed by a 4-week treatment period with Fluticasone propionate 100 mcg and Salmeterol 50 mcg inhalation powder/Respirent Pharmaceuticals (Test) or ADVAIR DISKUS® 100/50 mcg (Reference) or placebo.
Studies of the importance of the human microbiome have demonstrated that microbial metabolites of fermentation of our dietary products (e.g. dietary fiber) have a multitude of health benefits. The investigators aim to determine whether supplementation of asthmatic children with soluble corn fiber alongside standard of care reduces airway inflammation driven by the gut microbial metabolites acetate, propionate, or butyrate (short chain fatty acids).
An acute study carried out across three acute admissions units within Leicestershire. The study is aimed at discovery and validation of volatile organic compounds (VOCs) in exhaled breath. Participants will be recruited and tested within 24 hours of admission and once recovered, up to 6 months following discharge.
The Safety, Tolerability and Pharmacokinetic Study of Asthma Treatment Drug Litapiprant Tablets in Healthy Male and Female subjects.
Background: Patient education is one of the pillars of asthma treatment according to GINA guidelines. It has considered essential for adherence to treatment and for correct technique of inhaled devices.
The trial aims to demonstrate efficacy of the House Dust Mite SLIT-tablet versus placebo as add-on treatment in children and adolescents (5-17 years) with House Dust Mite allergic asthma based on clinically relevant asthma worsening.
This is a Phase 1, randomized, double-blinded, placebo controlled study. The study consists of 3 parts: Part A is a single ascending dose (SAD) study in healthy subjects, Part B is a multiple ascending dose (MAD) study in subjects with stable, mild asthma, and Part C (Biomarker) is a multiple dose study in subjects with stable, moderate-to-severe asthma.
The main hypothesis of this study is to see if children and adolescents with poorly controlled asthma will find the Propeller electronic monitoring device is feasible and acceptable, and will result in improved medication adherence and asthma control. Preliminary studies indicate that Propeller can improve medication adherence rates in children with asthma and reduce the number of days of reliever medication used. It also has been shown to reduce missed days of school and hospitalizations due to asthma exacerbations. The Propeller device is a sensor that fits over inhalers and uses Bluetooth connection to cell phones to remind patients to take their medication. It also records use of the controller and rescue inhalers, allowing for parents, physicians, and patients to get a fuller and more accurate picture of their adherence to treatment and severity of disease. With improved adherence, asthma control should improve, resulting in a decreased costs and use of services.
To evaluate feasibility, acceptability, safety, and preliminary efficacy of a novel patient-centered, technology-based intervention to improve asthma care in younger adult smartphone users. The program, called TEAMS (Technology Enabled Asthma Management System), uses a combination of smartphone symptom monitoring, guideline-based medication protocols, nursing telemedicine home visits, and Electronic Medical Record (EMR) custom programming. TEAMS is intended to augment primary asthma care as provided at the University of Rochester Medicine Clinic.
This study will investigate the efficacy of a novel air purification technology, Photo Electrochemical Oxidation (PECO), has on pediatric patients hospitalized for respiratory distress. The study will take place at Mercyhealth Hospital - Rockton Avenue where all 23 pediatric rooms will be outfitted with portable PECO air purifying units. The main outcomes are the length of stay and progression to ICU, which will be compared with historical controls.