View clinical trials related to Asthma.
Filter by:1. Identify the risk factors for frequent acute exacerbations of asthma: establish a retrospective study, classify patients into frequent acute exacerbation group and non-frequent acute exacerbation group based on the number of acute exacerbations, analyze the characteristics of the two groups, provide clinical, pathological, and comorbidity features of the frequent acute exacerbation subtype of asthma, determine the risk factors associated with frequent acute exacerbations, and establish a disease prediction model for frequent acute exacerbations of asthma. 2. Observe the prognosis and treatment outcome of patients with frequent acute exacerbations of asthma, clarify the relevant factors for poor prognosis in this group of patients, and explore individualized treatment plans to improve the prognosis of patients. 3. Investigate the inflammatory mechanism of frequent acute exacerbations of asthma: use omics methods to screen for subtype-specific biomarkers of frequent acute exacerbations and validate them, clarify the pathogenesis of this subtype, and discover new specific treatment targets.
This study aims to investigate the role of IL-5 in suppressing anti-viral immune responses in bronchial epithelial cells (BECs) and in peripheral blood mononuclear cells (PBMCs) from 5 people with asthma.
Asthma remains a serious health problem with increasing prevalence and incidence. There is limited information about severe asthma among Chinese pediatric patients. In this context, we decided to explore the clinical characteristics and risk factors of severe asthma in children. This is a descriptive, observational, retrospective cohort study in children with asthma. The purpose of this retrospective study is: to determine the clinical characteristics of severe asthma of children; to identify the factors associated with severe childhood asthma.
The goal of this observational study is to compare the fluctuation patterns of biomarkers (Spirometry, FeNO, IOS) of responders and non-responders in asthma patients who will start treatment with a biologic. The main question it aims to answer is: Can fluctuation patterns of parameters for spirometry, FeNO and IOS before and after starting treatment with biologics in patients with severe asthma be used to predict a successful intervention. Participants will measure Spirometry, FeNO and IOS twice a day at home for 2 or 3 months starting one month before starting treatment with a biological.
To assess the efficacy and safety of tezepelumab in pediatric participants with severe uncontrolled asthma on medium to high-dose inhaled corticosteroids (ICS) and at least one additional asthma controller medication with or without oral corticosteroids.
Allergy is defined as a specific abnormal and excessive reaction of the immune system to exposed allergen . This reaction is reproducible with each new exposure allergen . A recent study by The European Academy of Allergy and Clinical Immunology" (EAACI) estimates that 30% of the population suffers from allergic rhinitis and/or conjunctivitis, 20% of children suffer from asthma, and 8% of the population suffers from food allergies in Europe, with a clear increase in prevalence. Allergenic immunotherapy (AIT) remains a corner stone in the treatment of allergic diseases. It involves administering an increasing dose of allergens to induce immunological tolerance. The efficacy and safety of ITA have already been demonstrated. However, patient response is highly heterogeneous. This findinf illustrates the value of biomarkers in the selection of patients, enabling prediction of response to ITA and follow-up.
Respiratory viral infections cause significant illness, especially in vulnerable individuals and is a topic of immense significance during the current COVID-19 global pandemic. Respiratory diseases such as asthma involve inflammation of the airways and viruses are a major cause of asthma attacks. The nose is easier to access than the lungs but has similar cells and is therefore useful to study immune responses throughout the respiratory tract. Rather than study the effects of a live virus on the immune system, it is possible to give a component or mimic of a virus to simulate an infection in a similar but more straightforward manner, without causing disease. In this study we will use a nasal spray containing a sterile substance called Resiquimod (also called R848) to mimic a viral infection. Resiquimod does not contain any living organisms and therefore there is no possibility of developing a real infection. Resiquimod works by binding to receptors in cells that line the inside of the nose (epithelial cells) as well as cells that can fight infection (immune cells). These cells respond to Resiquimod and cause mild inflammation in the nose, similar to a mild cold. We can then take samples to measure this response and investigate how it differs between individuals. This will help us better understand how the human immune system responds to viruses, and which cells and molecules the body uses to defend itself against infection.
This is a Phase 2a, multicentre, randomised, placebo-controlled, double-blind, parallel-group study to evaluate the efficacy, safety and PK of AZD4604 administered BID using a dry-powder inhaler at one dose level over a 12-week Treatment period in adult participants with uncontrolled moderate-to-severe asthma.
Primary Objective: - To describe dupilumab health-related quality of life (HRQoL) effectiveness at 52 weeks compared to baseline. Secondary Objectives: - To describe dupilumab HRQoL effectiveness at 12 and 24 weeks compared to baseline. - To assess the safety during the year of treatment in a real-world setting.
Asthma is a common chronic bronchial disease affecting 300 million people worldwide. The disease can be severe when it is not managed properly or when it is not controlled by treatments. Asthma is characterized by bronchial inflammation, bronchial hyperreactivity and tissue remodeling. Symptoms include episodes of coughing, dyspnoea and wheezing in relation with bronchial obstruction. The evolution is marked by the occurrence of exacerbations (increase of symptoms), most often triggered by viral infections, mostly due to rhinoviruses. The treatment of asthma is based on inhaled corticosteroid therapy sometimes combined with other treatments that help control the majority of asthma. However, about 10% of patients suffer from persistent symptoms despite these treatments. Natural killer (NK) cells are important actors of the antiviral innate immune response and are present in high numbers in the lungs. However, their role in severe asthma and its virus-induced exacerbations is unknown. The purpose of this work is to characterize NK cells in severe asthma in order to identify molecules expressed differently from control subjects. The goal is to assess whether these molecules could be potential biomarkers of a severe asthma subtype, also known as the endotype, and/or be the molecular control for exacerbation. The advantage of identifying biomarkers for inflammatory diseases lies in their usefulness in establishing a correct diagnosis, monitoring the progress of the disease and the effectiveness of treatments. The secondary objectives are to characterize the activation of NK cells in response to in vitro rhinovirus infection of different types, in monoculture or in a model of interaction with a bronchial epithelium, and identify one or more molecules involved in the interaction between bronchial epithelial cells and NK cells.