View clinical trials related to Rhinitis, Allergic, Seasonal.
Filter by:The purpose of this study is to evaluate the efficacy and safety of mometasone furoate (SCH 32088) aqueous nasal spray 200 mcg once daily compared to placebo once daily in the treatment of participants with seasonal allergic rhinitis. Flonase (fluticasone propionate) nasal spray 200 mcg once daily has been chosen as the active control for this study.
The purpose of this study was to identify the lowest dosage of mometasone furoate nasal spray (MFNS) that provided adequate efficacy with an acceptable safety profile for children (ages 6-11) with seasonal allergic rhinitis (SAR). The MFNS dose levels of 25, 100, and 200 mcg QD were compared with beclomethasone dipropionate (BDP), as an active control, and placebo.
This study investigated the onset of symptom relief following initiation of treatment with mometasone furoate (MK-0887/SCH 032088) 200 mcg administered once daily compared with placebo for 14 days.
The purpose of this study is to evaluate the safety and efficacy of mometasone furoate nasal spray (MFNS) with the addition of loratadine vs MFNS alone, loratadine alone, or placebo, in the treatment of patients with seasonal allergic rhinitis.
The objectives of this study are to determine the safety and efficacy in seasonal allergic rhinitis of a four-week course of mometasone furoate compared to beclomethasone dipropionate or placebo.
Iron deficiency and anemia are clearly associated with the onset of allergy and allergic diseases, whereas an improved iron status seems to prevent the onset of allergy in humans. Iron-deficiency can be absolute or functional. Functional iron-deficiency occurs during immune activation and may be reflective for the hyperactive state of atopic subjects. The investigators plan a prophylactic dietary intervention study in atopic/allergic and non-allergic individuals that transport chelated iron to immune cells. Over the course of six months, oral supplementation of placebo or whey protein-bound chelated iron will be given and 1) clinical reactivity 2) iron status and 3) changes in the microflora due to the treatment will be assessed.
Several studies have reported a deficit and/or a defect in regulatory T cells in allergic subjects, which can be correlated with the allergic responses, especially for respiratory allergies. Low-dose IL-2 (ld-IL2) specifically targets and activates regulatory T cells (Tregs), which are cells that regulate immune responses. Thus by stimulating Tregs, ld-IL2 would control allergic responses. This study is designed to evaluate the efficacy of ILT-101 (ld-IL-2), compared to placebo, on the nasal response assessed by Total Nasal Symptom Score (TNSS) during a controlled birch allergen exposure.
The aim of this study is to assess if a physical barrier, created by the nasal gel Nascum®- Plus, is able to prevent or minimize the induction of nasal symptoms during allergen challenge in the Fraunhofer Allergen Challenge Chamber (ACC). Furthermore, the effect on soluble and cellular inflammatory markers induced by the allergic reaction will be assessed. Nascum®-Plus contains no active pharmaceutical ingredient, only monographed pharmaceutical excipients.
Intranasal corticosteroids are accepted as safe and effective first-line therapy for allergic rhinitis, especially in treatment of persistent symptoms. Budesonide, a non-halogenic glucocorticoid, is widely used in the management of inflammatory mucosal diseases like chronic obstructive pulmonary disease, asthma and allergic rhinitis. It is a highly fat-soluble substance with low water solubility and is presented as dispersion in marketed nasal sprays, like Rhinocort aqua 64. The maximum therapeutic efficacy of Rhinocort aqua is obtained after an application period of 7 to 14 days. In Budesolv, the solubility of budesonide is considerably increased suggesting that the same therapeutic efficacy can be reached with a lower dose. Better bioavailability of the dissolved drug promise an earlier onset of therapeutic efficacy. The current trial is undertaken to demonstrate these two effects. Subjects suffering from grass pollen allergic rhinitis will be challenged with grass pollen in a challenge chamber. Allergic subjects will be treated with two actuations (50 μl) of respective study treatment into each nostril once daily for 8 days. The total daily budesonide dose will be 40 μg per subject for Budesolv 10 and 256 μg per subject for Rhinocort® aqua 64. The primary objective of the study is to show non-inferiority of Budesolv 10 to Rhinocort® aqua 64. On day 8 grass pollen allergic patients will be challenged with grass pollen over a period of 6 hours and subjective nasal symptoms (congestion, sneezing, itching, rhinorrhea) as well as objective symptoms (nasal airflow, nasal secretion) will be assessed every 15 minutes. The second objective of the trial is to demonstrate an early on-set of therapeutic efficacy of Budesolv 10 compared to Rhinocort aqua. On day 1, grass pollen allergic patients will be challenged with grass pollen allergen in the challenge chamber over a period of 6 hours. After 1 hour 45 minutes, patients will receive their first dosage of the respective nasal spray treatment. During the 6 hour grass pollen challenge, subjective and objective endpoints will be measured every 15 minutes. To eliminate an individual bias based on expectations, the effect and onset of action is also compared to the effects of a suitable placebo. The same set of study participants will receive all three interventions in three consecutive treatment periods.
The project examines the hypothesis that monoclonal allergen-neutralizing antibodies can be recombinantly produced from B lymphocytes isolated from pollen allergic patients. Patient samples suitable for antibody cloning are selected based on seroprofiling for the respective allergens. The study aims at isolating lymphocytes from patients with potential allergen-neutralizing IgG in serum and to clone antibodies from antibody gene sequences obtained from B cells of those patients.