View clinical trials related to Allergic Asthma.
Filter by:The recent interest that the Specific Immunotherapy (ITS) has aroused is due to the positive potential role that could be played, in particular in the forms of allergic asthma, because this method constitute the only intervention (unlike that pharmacologic) able to act on the same causes of the disease, altering the natural history. To achieve this the investigator has tried to use the specific subcutaneous immunotherapy (SCIT), to which there are studies that, with scientific rigor, have demonstrated the benefits.
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.
Purpose: This screening protocol is designed to assess PMN (neutrophil) responsiveness to wood smoke particles (WSP) and the effect of the GSTM1 null genotype on this response. The researches will identify persons responsive and resistant to the inflammatory effect of WSP. It is anticipated that the GSTM1 genotype will be a risk factor for increased response to WSP.
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.
This study evaluate the efficacy of Mechanical Bacterial Lysate (PMBL - Ismigen®) to improve the asthma control level (ACT score) as add-on treatment to routine asthma treatment in children aged 6 to 16 with uncontrolled or partly controlled asthma. Half of the 150 participants will receive Ismigen® and their current asthma therapy while the other half will receive Placebo and their current asthma treatment.
The purpose of this study is to establish the methodology of bronchial provocation tests with house dust mites in China, and to evaluate its safety and effects on upper and lower airways inflammation.
The prevalence of allergic diseases, especially airway allergic diseases, has increased dramatically over the last twenty years all over the world including Lithuania. Allergic diseases are associated with significantly reduced quality of life and can sometimes cause death. Allergic diseases have turned into an important economic and social burden and nowadays take a more and more important place in the health system. Despite all intensive investigations, the pathogenesis of allergic airway diseases still remains unclear. As allergic diseases have a systemic pattern and multicomponent pathogenesis, it is important to investigate not individual cells, but examine various inflammatory cells instead, including their biological products and possible cellular interactions along the course of allergic diseases. This research focuses on the cells that are claimed to be important in the pathogenesis of allergic airway diseases, i.e. a newly found effector T helper cell subset (Th9 cells), which still lacks deeper investigation, and the main inflammatory cell, eosinophil. This study aims at determining the importance the way the Th9 lymphocytes perform, the eosinophil's activity, as well as molecular factors affecting these cells has in the process of prognostication of allergic airway diseases, namely allergic rhinitis and allergic asthma. An allergen challenge test will be performed in order to define the meaning of pathogenetic changes. The results of this research may reveal useful information in the course of allergic diseases and may be valuable when creating strategic principles of prophylaxis. The findings could be used for prevention and early diagnostics of allergic diseases and it could also open doors to discovering new and effective treatment.
In this study patients suffering from Immunoglobulin E (IgE) mediated asthma are treated with a method, called immune apheresis, that removes IgE from blood. In order to achieve this blood is taken continuously from the patient and then separated into plasma and blood cells by centrifuge. The plasma passes the new IgE adsorber where the IgE is specifically bound. The "cleaned" plasma re-joined with the blood cells is given back to the patient. In total each patient randomized to the apheresis group will undergo 3 treatments per week (i.e. 1 cycle) every 4 weeks over a time period of 3 months, that means 9 apheresis treatments in 3 cycles in total. Study hypothesis is that the new IgE adsorber is capable of reducing IgE in plasma/serum by at least 50% measured before the first treatment in the first cycle and after the last treatment in the last treatment cycle. The new adsorber can be safely used in patients. A group of patients with conventional drug treatment and no apheresis treatment serves as control.