View clinical trials related to Allergic Rhinitis.
Filter by:This is a multicenter, randomized, double-blind, placebo-controlled phase III clinical study aimed at evaluating the efficacy and safety of CM310 in patients with seasonal allergic rhinitis, and observing the quality of life, PK, PD characteristics, and immunogenicity of subjects.
To assess the impact of SQ SLIT-tablets (SQ Grass SLIT-tablet and SQ HDM SLIT-tablet) in Danish and Swedish allergic rhinitis (AR) patients, with or without asthma, between 2007-2020.
The primary goal is to investigate the efficacy of intralymphatic immunotherapy (ILIT) for the treatment of allergic rhinitis and allergic asthma due to sensitisation to grass pollen allergens. 60 patients with allergic rhinitis will be included and randomized to receive either Polvac (n=30) or placebo (n=30). All patients will receive three injections with 4-8 weeks interval. The injections into a inguinal lymph node is guided by sonography. Patients will record symptoms and medication use in the summer of 2022 and 2023.
450 subjects with moderate-severe persistent allergic rhinitis will be enrolled in the trial and divided into three groups for different treatments. Group A:Subjects with Bencycloquidium Bromide Nasal Spray, Group B:Subjects with Mometasone Furoate Aqueous Nasal Spray, Group C:Subjects with Bencycloquidium Bromide Nasal Spray in combination with Mometasone Furoate Aqueous Nasal Spray.The main purpose of the trial is to evaluate the efficacy of Bencycloquidium Bromide Nasal Spray alone or in combination with Mometasone Furoate Aqueous Nasal Spray in the treatment of moderate-severe persistent allergic rhinitis and rhinorrhea.
Most asthma is allergic in origin. The purpose of this study is to better understand the airway immune response to inhaled allergens in order to identify factors that promote asthma.
Nasal mucus and nasal epithelium are the first defense barriers against allergens. Various proteins are found in nasal mucus that play a role in allergic rhinitis and reflect immune response to allergen exposure. The difference in the proteomic profile of allergic rhinitis patients and healthy controls can give insight about how the response works and which proteins could lead to either enhanced immune reaction or to defense response like augmentation of epithelial integrity. It is also known that the airway epithelium plays a crucial role in the regulation of airway immune responses and inflammation. Gene expression profiling is widely used to analyses complex disease. For the airway epithelium gene expression profile in diseased and healthy state as well as in baseline and provoked state can clarify the mechanism of defense reactions and the course of inflammatory processes. Nasal mucus proteins as consequence of different gene expression can be seen as part of the end products of this complex mechanisms and interactions between allergens and the epithelium. Nasal mucus proteins have different origins and production sites and gene expression does not necessarily result in functional metabolites. The aim of this proposed project is to try and analyze in a holistic proteomic approach the response to allergen on a genetic/genomic level from the nasal epithelium to protein/proteomic level in nasal mucus. This analysis gives us insight of how the different gene expression profiles result in a protein expression and further clarifies which proteins are directly originate from the epithelium and which are result of plasma exudation or underlie different regulatory processes. From allergic rhinitis patients and healthy controls nasal mucus, nasal mucosa, and serum will be obtained. Nasal mucus will be collected with a special suction device equipped with a mucus trap from the middle meatus under endoscopic control without touching the mucosa. Nasal mucosa will be obtained through nasal brushes under local anesthesia and put into primary culture. Serum prepared from blood samples. Patients with grass or tree pollen allergy will be included and allergic state will be determined by skin prick tests and RAST (Radio-Allergo-Sorbent-test). The aimed for sample size will be 15 patients per group. Samples will be obtained in and out of pollen season. Allergic patients will fill out a symptom score and samples will be taken when symptoms are strong (in pollen season) and disappeared (out of pollen season). For healthy controls the time point of sample taking will be correlated to the allergic rhinitis patients to have a similar pollen exposure. Nasal mucus will be sent for Liquid Chromatography Tandem mass spectrometry for proteomic analysis and from nasal epithelial cells RNA will be isolated and send for Microarray analysis. By an integrative omics approach gene and protein expression will be correlated and cross talk between nasal mucus and epithelium will be analysed. The identification of key genes or gene clusters leads to further identification of key proteins or protein groups as biomarkers that could serve for novel therapeutic or diagnostic strategies in allergic rhinitis. The integrative omic approach downsizes the potential candidates since the focus lies on epithelial gene expression and their protein products and excludes proteins that are highly abundant without direct correlation to allergen exposure e.g. through plasma exudation. Moreover, the genomic and proteomic analysis could explain in more detail how the barrier of mucus and epithelium are affected by allergen exposure. The comparison to healthy controls and the longitudinal changes throughout the season further sheds light on how these individuals react upon allergen exposure and how this could lead to prevention of sensitization.
The PRE-AR project is a longitudinal observational study. The primary objective is the assessment of lung function parameters in late preterm preschool children.
The purpose of this study is to determine whether Sanfujiu is effective and safe in the treatment of persistent allergic rhinitis.
The purpose of this study is to determine safety of allergy immunotherapy lymph node injections for grass pollen allergies.
The hypothesis to be proven is that histamine iontophoresis with measurement of microvascular blood flow by laser Doppler flowmetry can be used as a reliable marker to characterize the normal microvascular cutaneous response to histamine.