View clinical trials related to Asthma.
Filter by:This is a hypothesis-generating project to investigate a) infective etiology and b) inflammatory profile of the exacerbations of asthma in severe asthmatic patients treated with the humanized monoclonal antibody against interleukin-5 Mepolizumab. Under these treatment conditions the study will inform on the relationship between these two axes: infection & innate immunity Vs inflammatory profile changes occurring during exacerbation events. In addition, the study will also explore the effect of Mepolizumab treatment on airway microbial composition and on airway/systemic immune response both at stable state and at the exacerbation.
The objective of this study is to evaluate the pharmacodynamic (PD) bioequivalence (BE) of albuterol inhalers, test formulation: Albuterol Sulfate HFA inhalation aerosol 108 mcg (equal to albuterol base 90 mcg) per actuation and reference formulation: ProAir HFA (albuterol sulfate) or FDA authorized generic: Albuterol Sulfate HFA (Teva Pharmaceutical USA, Inc.) Inhalation Aerosol 108 mcg (equal to albuterol base 90 mcg) per actuation manufactured by two different manufacturers using methacholine bronchoprovocation challenge test in patients with stable mild asthma.
This study is a phase 1 single dose escalation study of SHR-1905 in healthy subjects and subjects with mild asthma. The purpose of the study is to evaluate the safety, tolerability and pharmacokinetics of SHR-1905 in healthy subjects and subjects with mild asthma.
A Randomized, Double-Blinded, Placebo-Controlled, Prospective, Multicenter Clinical Trial to Evaluate the Efficacy and Safety of Subcutaneous Immunotherapy in Patients With Rhinitis With or Without Mild to Moderate Asthma Sensitized to cupressaceae and grasses.
Prospective, multicenter, randomized, double-blind, placebo-controlled clinical trial of efficacy and safety with subcutaneous immunotherapy in patients with mild to moderate rhinitis / rhinoconjunctivitis with or without mild to moderate asthma sensitized to grasses and olive
Asthma is a highly prevalent chronic airway inflammatory disease characterized by airway hyper-responsiveness, reversible airflow obstruction and increased mucus secretion, involving large and small airways. An emerging sub-phenotype of severe asthma is the late onset disease associated with nasal polyposis, a frequent co-morbidity that significantly impacts lung function and symptom control. On the basis of the infiltrate found in the sputum, asthma can be divided into four distinct phenotypes: eosinophilic, neutrophilic, mixed granulocytic and pauci-granulocytic. The majority of patients with eosinophilic asthma are sensitive to corticosteroids, and biological therapies targeting eosinophils (anti-Interleukin (IL)-5 and anti-IL5R) have been recently approved. However, it is known that some asthmatics, particularly those who have severe disease and are resistant to corticosteroids, have elevated neutrophil counts in the airway where they play a vital role in the exacerbation of the disease. However, the precise role of neutrophils in severe asthma and the mechanisms involved in neutrophil-induced tissue damage have not been clarified yet. The hypothesis of the study is that neutrophils and eosinophils can contribute to the severity of asthma by changing their phenotypes according to the airway environment. Thus, a better understanding of the roles of neutrophils and eosinophils in severe asthma may lead to the identification of novel biomarkers and the development of new therapeutic approaches in different phenotypes of severe asthma.
The study is a pilot/laboratory study comparing the effects of MSC conditioned media on samples of airway cells in 3 participant groups with mild/moderate asthma (5 participants), severe asthma (5 participants), or no asthma (5 participants).
Lung magnetic resonance imaging (MRI) with proton and inhaled inert gases has demonstrated a clinical ability to provide valuable structural and functional information in lung disease. Advances in lung MRI methods have led to the STH department handling clinical imaging referrals from local and national respiratory units. Hyperpolarised Xenon-129 gas MRI is now the gold-standard MRI modality used in clinical practice for asthma and COPD in Sheffield. In this new study, the investigators will use Xenon gas MR imaging and 19F gas MR imaging to obtain physiological, structural, and functional information about patients with known respiratory disease, namely asthma and COPD. Up to 20 patients with asthma and up to 20 patients with COPD will be recruited. Study visits will involve lung function tests and imaging using proton MRI, hyperpolarised xenon gas MRI, and 19F perfluoropropane MRI. After initial baseline assessments, patients will be followed up after 3 and 6 years to investigate the utility of MRI and lung function measurements in tracking disease progression over time. In addition, during the COVID-19 pandemic will also be studying the long term effects of this novel disease. The investigators will use Xenon gas MR imaging and pulmonary vascular 1H MR imaging to obtain physiological, structural, and functional information about patients with COVID-19, including hospitalised patients and mild, non-hospitalised COVID-19 patients. Participants may be invited for baseline assessments during the symptomatic phase of the disease and/or be followed up after 6, 12, 24 and 52 weeks (in line with clinical follow up for hospitalised patients) to investigate long term effects of this novel disease. This novel approach will provide mechanistic insight in to clinical observations such as : (i) why previously healthy patients can respond so poorly to oxygen/ventilation therapy, (ii) why patients respond to proning, and (iii) whether this is caused by alveolar-capillary interstitial changes and /or microvascular clotting in the pulmonary vasculature (leading to V/Q mismatch), and (iv) whether these acute changes lead to long term interstitial lung disease.
Effect of Electronic Monitoring and Feedback on Adherence to Easyhaler Controller Medication in Patients with Asthma
To identify asthma-related physiological changes observed by wearable devices in real-world conditions by monitor multiple sensing modalities (e.g., heart rate (HR), heart rate variability (HRV), activity level, spirometry, coughing sounds) in order to find reliable signatures of impending asthma exacerbation and systematically explore any challenges on the use of wearable technologies.