View clinical trials related to Allergic Asthma.
Filter by:Primary goal of this non-interventional study is to evaluate the change in level of allergen-specific IgE (EAST class) after allergen-specific immunotherapy with Pollinex Quattro with tree and/or grass pollen extracts and their mixtures under medial routine at adults with tree- and/or grass-medicated pollinosis.
Double-blind, randomized, two-way cross-over study with two treatment periods. 28 subjects with asthma will be randomized in 1:1 ratio to treatment A) Indacaterol/Mometasone 150/160 μg once daily and treatment B) Indacaterol/Glycopyrronium/Mometasone 150/50/80 μg once daily for period 1. For period 2, subjects will be crossed over to the other treatment arm. Subjects will be screened during the first visit. After inclusion subjects will be seen for 3 visits during the Run-in period, 3 visits during treatment period 1 and 3 visits during treatment period 2. During these visits patients will be clinically characterized and exposed to allergen challenge tests.
Food allergy is a common chronic condition in childhood. Recent studies have suggested that the natural history of food allergy has changed during the last two decades, with an increased prevalence, severity of clinical manifestations, and risk of persistence into later ages. The increased food allergy prevalence in children has an important economic impact, with significant direct costs for the healthcare system and even larger costs for the families of food-allergic patients. In addition, children with food allergies are at increased risk to develop other allergic manifestations later in life. According to a recent study, children with a food allergy are 2 to 4 times more likely to develop other atopic manifestations such as asthma (4.0 times), atopic eczema (2.4 times), and respiratory allergies (3.6 times), compared to children without a food allergy. Cow's milk allergy is among the most common food allergy in early childhood, with an estimated prevalence of 2% to 3%. It has been previously showed that in children with cow milk allergy, an extensively hydrolysed casein formula supplemented with the probiotic Lactobacillus rhamnosus GG induced higher tolerance rates compared to extensively hydrolysed casein formula without Lactobacillus rhamnosus GG and other formulas. These findings were consistent with those of a 1-year follow-up study performed in the US that showed better outcomes using an extensively hydrolysed casein formula+Lactobacillus rhamnosus GG vs. an extensively hydrolysed casein formula or amino acid-based formula for the first-line dietary management of cow milk allergy. In addition it has been recently demonstrated that extensively hydrolysed casein formula + Lactobacillus rhamnosus GG reduces the incidence of other atopic manifestations and hastens the development of oral tolerance in children with IgE-mediated cow milk allergy. The present randomized controlled trial (RCT) was designed to test whether different dietary interventions could influence the occurrence of other atopic manifestations in children with IgE-mediated cow milk allergy.
The CSMS was defined by the European Academy of Allergy and Immunology Taskforce as a standardised tool to assess clinical effects of allergen-specific immunotherapy (AIT). The aim of this study is to validate the CSMS as a tool to assess the clinical effects of Depigoid AIT, so that the CSMS can be used in future studies as a primary endpoint as well as a comparative parameter.
It has been demonstrated that allergic rhinitis (AR) reduces sleep quality by some components such as nasal obstruction. Pollution and allergen exposure worsening AR, sleep quality is deteriorated. Sleep is associated to physical and mental health, alterations in sleep could explain the link between AR and work productivity diminution, impairment in daily activities or emotional problems. However, interactions between air pollution, sleep and allergic diseases are insufficiently understood. The main objective of this study is to determine the impact of pollution and pollens on sleep parameters.
The environment during the prenatal period and in early life is a major contributor to the risk of developing childhood asthma. Birth cohort studies from single research centers have identified several factors that affect the risk for developing childhood asthma, including being exposed in early life to allergens, pollutants, viruses and bacteria, and psychosocial stress. Despite such advances, further progress in understanding the root causes of asthma have been hampered by the small size of previous studies, which makes it difficult to: 1) identify asthma risk factors with certainty, 2) know how environmental factors across the United States (U.S.) affect asthma, and 3) whether there are critical ages when pregnant mothers, infants and young children are particularly susceptible to these influences. Furthermore, different research groups tend to use different methods to study asthma, making it difficult to either compare or pool findings. One other challenge is that there are several types (i.e. phenotypes, endotypes) of childhood asthma, but these are poorly understood. To help overcome these challenges, investigators leading 12 asthma birth cohorts across the U.S. have established the Children's Respiratory Research Workgroup (CREW) consortium. CREW proposes to identify specific types of childhood asthma, develop an understanding of what early life environmental influences cause these different types of asthma and when, and identify targets for future efforts aimed at preventing childhood asthma.
To study the effects of 1200mg gamma tocopherol, a form of vitamin E, given daily on the response of the airway in mild asthmatics after exposure to ozone (O3)
The prevalence of allergic diseases (atopic dermatitis, asthma, rhinitis, conjunctivitis and food allergy) has increased dramatically in industrialized countries over the last 20-30 years. Allergic diseases are present especially in children and young adults, but all age groups are affected, with variations across countries and age. To propose new therapies, the investigators must first understand the physiopathology. Since their discovery the regulatory T cells have continued to be the subject of work to understand their role in maintaining immune homeostasis in the human body but also their involvement in autoimmune diseases, inflammatory diseases, transplants of solid organs or fluids and allergic diseases. It was identified two broad classes of regulatory T cells: - T cells = natural regulators acquisition of a phenotype and a regulatory function right out of the thymus ( CD25 + / CD127 + low / FoxP3 +). - T cells induced regulators = acquisition of a phenotype and a regulatory function on the periphery depending on the cytokine micro-environment. Phenotypic characterization of these is less obvious and even more so than during the last ten years several induced regulatory T cell populations have been described ( eg, Tr1 ). A new subpopulation of T cells induced in patients with inflammatory bowel disease recently identified have a particular phenotype as bearing the CD4 and CD8 double marking with a regulatory phenotype. These regulatory T cells are also induced a specific of a commensal intestinal bacterium (Faecalibacterium prausnitzii). Regarding allergies, it has been widely demonstrated a relationship between changes of the intestinal microbiota and the occurrence of allergic diseases. The investigators would therefore propose a cross-sectional study, single-center, controlled, single blinded to study the role of T cells called double positive induced regulators DP8 to compare the frequency and the regulatory function of specific DP8 of Faecalibacterium prausnitzii in atopic dermatitis, asthma and allergic rhinitis compared to control samples.
The investigators have identified areas of the brain that are activated in response to disease-related emotional information, following whole lung allergen challenge in asthma. They propose that activity in these central nervous system locations, as measured by fMRI, is associated with the intensity of allergic inflammation, provoked by segmental bronchial challenge, in the absence of significant airflow obstruction. The investigators predict that this relationship will be mediated by changes in expression of genes in the IL-1β/IL-17 pathway.
Asthma is a chronic, inflammatory disease of the lung characterized by intermittent airway obstruction, airway hyperresponsiveness, presence of activated inflammatory cells, inflammatory mediators, and airway structural changes. Airway smooth muscle (ASM) cells actively participate in the remodelling and inflammatory processes through proliferation, release of proinflammatory cytokines, chemokines, and extracellular matrix (ECM) proteins. Eosinophils as essential inflammatory cells may be of importance in ASM remodelling. It is known that eosinophil induces ASM cells proliferation via the secretion of cysteinyl leukotrienes in asthmatics. However there is a possible direct eosinophil-ASM cells functional interaction by adhesion processes. It has been shown that integrins modulate ASM proliferation and contractile protein expression demonstrating allergen-induced ASM remodelling in an animal model of allergic asthma. Wingless/integrase-1 (WNT) signaling regulates not only a wide range of developmental processes, but its aberrant activation can lead to disease. Recently, it was confirmed that genes polymorphisms in the WNT signaling pathway are associated with impaired lung function in childhood asthma. It was also found for the first time a relevant role of noncanonical WNT signaling in TGFβ-induced ECM expression by ASM cells and identified WNT-5A is the most abundant WNT ligand with increased expression in asthmatics. It demonstrates that WNT-5A could contribute to remodelling of the airways. Unfortunately, the effect of eosinophil on WNT secretion by ASM cells at present is unknown. Despite the widely acknowledged significance of eosinophils in asthma pathogenesis, the mechanism of eosinophil induced ASM remodelling is unsolved.