View clinical trials related to Allergic Rhinitis.
Filter by:Dymista, a combined product containing the antihistamine azelastine and the intranasal steroid fluticasone, provides superior clinical efficacy to both fluticasone propionate and azelastine hydrochloride in the treatment of seasonal allergic rhinitis. The superiority of efficacy not only occurs at the initiation of treatment, but persists for its duration. The mechanism underlying the superior efficacy of Dymista is not known. This trial focuses on examining the effects of Dymista on the dynamics of the allergic response in man using nasal provocation with antigen. The investigators will study the relationship between symptoms, physiology, cells and mediators.
"Studio Nava" is a National Study aiming to assess allergic rhinitis and asthma outcomes on Quality of Life and Quality of Sleep in adolescent patients by means of Web Survey. "Studio Nava" also proposes the innovative use of a web platform ("http://nava.ibim.cnr.it/") that contains all standardized tools (medical-healthcare web form, ACT, Asthma control test; PSQI, Pittsburgh Sleep Quality Index; T5SS, Total Symptom Score; modified SIDRIA for adolescents; Rhinasthma; VAS scale), that will be available for the doctors after the registration to the web platform. Downloaded questionnaires will be delivered to case-patient, asking him/her to fill them during the waiting time of the visit.
The purpose of this study is to determine whether treating upper airway with intranasal corticosteroids in children with allergic rhinitis and no asthma may bring favors in reducing lower airway inflammation and improving small airway function.
The EEU has proven effective in multiple studies evaluating various aspects of seasonal allergic rhinitis. All previous EEU clinical trials have utilized ragweed or grass pollen as the allergen of choice for dispersal, due to the local population, but many emerging treatments for allergic rhinitis are allergen specific, thus it is desirable to expand the repertoire of pollen selection for use in the EEU. Ragweed, grass and birch pollen have differing appearances and sizes but essentially, both have characteristics which promote the ability to keep the pollen grains suspended and hence, the ability to maintain proper concentrations within the EEU. Preliminary validation studies conducted in the EEU, absent of human volunteers, have confirmed our ability to release, disperse and maintain birch pollen concentrations in the EEU using the existing technology. This study aims to validate the use of birch pollen on a clinical scale. By adding non- allergic participants into the EEU, the investigators hope to determine if non-allergic persons exhibit differences at baseline in their "epigenetic biomarkers" from those who have pre-existing and established allergic airways inflammation.
The investigators performed open-labeled pilot study which evaluates the efficacy and safety of allergen-specific intralymphatic immunotherapy (ILIT) for allergens including Dermatophagoides farinae (Df), Dermatophagoides pteronyssinus (Dp), cat, and dog that are sensitized and provoke rhinitis-related symptoms in patients with allergic rhinitis.
We will perform double-blinded placebo-controlled randomized clinical trial which evaluates the efficacy and safety of allergen-specific intralymphatic immunotherapy (ILIT) for allergens including Dermatophagoides farinae (Df), Dermatophagoides pteronyssinus (Dp), cat, and dog that are sensitized and provoke rhinitis-related symptoms in patients with allergic rhinitis.
Comparative analysis of the efficacy of intranasal MP29-02 (a novel formulation of azelastine and FP) has already been conducted in patients with moderate-to-severe seasonal AR. The combination formulation appeared to be superior in these patients with better symptomatic relief. However, objective analysis of the effect of this treatment on nasal mediators and/or nasal hyperreactivity has not yet been performed and would help in understanding the additional benefit of the combination treatment over monotherapy with nasal corticosteroids.
The purpose of this study is to assess the effectivity of using hypertonic nasal solutions alone on the symptom scores and nasal eosinophil levels of allergic rhinitis patients, retrospectively.
This clinical study will use the Environmental Exposure Unit (EEU) to generate allergic rhinitis symptoms in participants under controlled conditions, to collect well-characterized biological samples (urine and blood) before and after they develop these symptoms. The EEU provides the ability to control the timing, duration and levels of allergen exposure, and also other outside environmental factors, yielding ideal biologic samples for analysis with novel, cutting-edge molecular techniques. Results from the analysis of these unique allergic rhinitis samples should help determine if the technique of urine Nuclear Magnetic Resonance analysis could be a useful diagnostic tool in allergic rhinitis. IgE testing will be done on blood samples and compared to spin prick testing and symptoms of allergic rhinitis.
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.