View clinical trials related to Rhinitis.
Filter by:Clinical Trial to Evaluate the Efficacy and Safety of CKD-342
The proposed study seeks to investigate the effect of intranasal capsaicin treatment in patient with Non-allergic irritant rhinitis (NAIR), as well as evaluate optical rhinometry (ORM) as a means to quantify symptomatic improvement in NAIR patients during and after treatment.
Using Oligonucleotide Chip Analysis, investigators compared gene expression levels in allergic rhinitis patients before and after a series of acupoint herbal plaster and Acupuncture treatment. In the first year, Twenty-three participants with persistent allergic rhinitis each received four acupoint herbal plaster treatments, applied using the moxibustion technique, and clinical outcomes were evaluated using the Rhinitis Quality of Life Questionnaire (RQLQ). Peripheral blood samples were analyzed using an ImmunoCAP Phadiatop test, and patients were classified as phadiatop (Ph)-positive or -negative. Microarray results were examined for genes that were differentially expressed between (1) Ph-positive and -negative patients treated with herbal paste; and (2) before and after herbal paste treatment in the Ph-positive patient group. In the second year, Twenty-seven participants with persistent allergic rhinitis each received four acupoint herbal plaster treatments and 8 courses of acupuncture treatment over 4 weeks in the same time.
The purpose of this study is to assess the efficacy and safety of short ragweed pollen allergen extract (MK-3641, SCH 039641, RAGWITEK™) sublingual immunotherapy tablets in children aged 5 to 17 years with ragweed-induced allergic rhinitis/rhinoconjunctivitis with or without asthma. The primary hypothesis of this study is that administration of short ragweed pollen allergen extract sublingual immunotherapy tablets to children 5 to 17 years of age, compared with placebo, will result in a significant reduction in the combination of rhinoconjunctivitis symptoms and medication use over the peak ragweed season (RS).
The purpose of this study is to evaluate the safety and tolerability of multiple administrations of Birch-SPIRE. To make a preliminary assessment on pharmacodynamic parameters and clinical outcomes.
The purpose of this study is to evaluate the safety and effectiveness of Hyeonggaeyeongyo-Tang for chronic rhinitis according to pattern identification in Korean medicine.
Introduction: Rhinitis, sinonasal polyposis (SP) and asthma are diseases whose pathogenesis is based on inflammation. This will determine the presence of disease, its evolution and its treatment. It is therefore very important to develop and validate methodologies that allow us to noninvasively detect inflammation of the airways. Thus, just as exhaled nitric oxide (FeNO) has been studied as an important non-invasive marker of inflammation of the lower airways, nasal nitric oxide (nNO) may be a good marker of nasal inflammation. Furthermore, the electronic nose is an electronic nanosensor device capable of detecting specific volatile organic compounds (VOCs) that can be used as a non-invasive biomarker of biochemical processes in different diseases whose pathophysiology is also based on inflammation. Objective: To determine reference values of nNO and different patterns of VOCs in healthy individuals, individuals with allergic rhinitis (AR) and non-allergic rhinitis and individuals with SP and asthma. Methodology: Prospective, controlled study. Four groups will be included: Healthy subjects, patients with AR, non-allergic rhinitis and patients with SP and asthma (n=252). Prick-test to pneumoallergens will be performed. Determination of FeNO, nNO, lung function tests, measurement of VOCs by the electronic nose and blood samples will be taken. Bilateral nasal endoscopy and sample collection using the technique of brushing of mucosa and the placement of filter papers, for the study of nasal cytology and mediators of inflammation.
The aim of this study is to investigate the efficacy and safety of Tian Jiu in the treatment of allergic rhinitis compared with placebo and waitlist patients in Hong Kong.
Recently, a critical role in the development of allergic rhinitis (AR) has been attributed to the nasal epithelium. The airway epithelium forms a physical barrier, protecting the nasal mucosa and underlying organs from damage from contact with exogenous particles. The nasal epithelial barrier is primarily determined by the integrity of the airway epithelium, in which epithelial cells are connected to each other by complex network structures like tight junctions (TJs), ultimately sealing off the paracellular space. TJs consist of different transmembrane proteins including occludin, tricellulin, the claudin family, and junctional adhesion molecules. TJ form intercellular homodimers/heterodimers between neighboring cells. Scaffold adaptor proteins like cingulin and the zonula occludens family connect the transmembrane proteins to the actin cytoskeleton. Disturbed TJ function can facilitate the entrance of foreign pathogens and antigens into the submucosal layer, giving raise to allergic sensitization via increased access of allergens to the dendritic cells and/or inducing persistent inflammation via activation of mast cells and other inflammatory cells residing in the upper airways. Chronic disorders like allergic asthma, inflammatory bowel disease and atopic dermatitis have been linked to defective or altered TJ function. Recently, an impaired epithelial barrier function was found in patients with chronic rhinosinusitis with nasal polyps (CRSwNP), suggesting changes in TJ arrangement in the nasal cavity. CRSwNP presents a similar inflammation of the sinonasal cavities as found in AR patients, i.e. a Th2 cytokine driven inflammation with tissue eosinophilia. Nevertheless, the role of TJs and its regulation has not been investigated in AR.
The primary objective is of the PreventADALL study is to test if primary prevention of allergic diseases is possible by simple and low cost strategies, and secondary to asses the impact of xenobiotic exposure and microbiota in and on the body and the environment on allergic disease development. The secondary objective is an exploratory focus to investigate early life risk factors for development of non-communicable diseases, including asthma and allergic diseases as well as for diseases that may share common risk factors, including cardiovascular disease, obesity and diabetes. Design: A multi-national population-based prospective birth cohort with a factorial designed randomized controlled intervention trial of two clinical interventions; skin care 0-9 months and early food introduction by 3-4 months, thereafter observation only. Recruitment in three cities (Oslo, Ostfold and Stockholm) of approximately 2500 mother-child pairs is done in two steps; first pregnant women are recruited and enrolled at the 18-weeks ultrasound investigation (n=approximately 2700) and thereafter their new-born babies are included. Randomization into four groups is done by the postal code or "township" to ensure all four intervention-groups within each "township". Visits for biological and environmental sampling, observations and investigations will be at the relevant pediatric departments (at 3-6-12-24-36 months of age) and through childhood into adulthood thereafter, provided sufficient funding.