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Rhinitis clinical trials

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NCT ID: NCT05908721 Not yet recruiting - Allergic Rhinitis Clinical Trials

Study of CM310 in Patients With Allergic Rhinitis

Start date: October 30, 2023
Phase: Phase 2
Study type: Interventional

This study is a multicenter, single arm, open-label phase II clinical study mainly evaluating the safety of CM310 in patients with allergic rhinitis.

NCT ID: NCT05908032 Active, not recruiting - Allergic Rhinitis Clinical Trials

Study of CM310 in Subjects With Allergic Rhinitis

PHECDA
Start date: August 10, 2023
Phase: Phase 3
Study type: Interventional

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.

NCT ID: NCT05907733 Recruiting - Allergic Rhinitis Clinical Trials

Brain-derived Neurotrophic Factor (BDNF) Single Nucleotide Gene Polymorphism and Nerve Growth Factor as Risk Factors That Increase Severity of Allergic Rhinitis

Start date: June 1, 2023
Phase:
Study type: Observational

Allergic diseases such as asthma, allergic rhinitis (AR) and atopic dermatitis affect more than 25% of the world population and are the leading cause of illness in children. The complex interplay between genetic, environmental and immunological risk factors results in the manifestation of allergic diseases . The pathological presentation of allergic disease involves the activation of both the innate and adaptive immune systems, resulting in a multifaceted response in specific target tissues such as the airways . This response results in the recruitment of inflammatory cells to target tissues and the production of specific IgE antibodies, cytokines and other inflammatory mediators [11], [12]. It is well established that allergic inflammation triggers neuronal dysfunction, which activates specific inflammatory mechanisms, potentially leading to structural changes in the diseased tissue . Neurotrophins are a family of structurally related proteins initially discovered to be involved in regulating neuronal development and now known to govern both peripheral and central nerve growth. BDNF is a secretory protein belonging to the neurotrophin family and is involved in a range of neural processes during human development [19], [20]. In the early stages of development BDNF is essential for neurogenesis, survival and maturation of neuronal pathways. In the adult, alongside neurotransmitters, hormones and other neurotrophins, BDNF maintains synaptic plasticity, dendritic growth and the consolidation of long-term memory. The biological effect of BDNF is mediated via its binding to the trkB receptor. The activation of these receptors on eosinophils may be important in regulating the inflammatory cascade leading to allergic disease [15], [24]. Neurotrophin mediated activation of bronchial eosinophils might therefore play a role in the regulation of eosinophilic inflammation in allergic asthma . The BDNF gene is located on chromosome 11p13 and is alternatively spliced resulting in several different transcripts [26]. Genetic polymorphisms in BDNF have been associated with allergic phenotypes such atopic dermatitis [27] and asthma [28], [29], [30], [31] in different populations. The functional polymorphism rs6265 (Val66Met) has been shown to regulate intracellular trafficking and affect the secretion of BDNF [32]. Nerve growth factor (NGF), a neurotrophin that is expressed in the glandular, nasal epithelium, and peripheral nerves in the nasal mucosa, has been shown to induce biochemical and structural changes in nerves that can lead to hyper-responsiveness [33], [34], [35] The biological effects of neurotrophins are mediated by binding either to the high-affinity tyrosine kinase (trk) receptors or to the low-affinity receptors known as pan-neurotrophin receptor p-75.

NCT ID: NCT05901532 Completed - Rhinitis, Allergic Clinical Trials

Nasal Irrigation With Chinese Herbal Medicine as an Adjunctive Treatment in Allergic Rhinitis

Start date: November 1, 2020
Phase: Phase 2
Study type: Interventional

In allergic rhinitis patients with severe symptoms, control of severe allergic reactions is limited with saline nasal irrigation. Therefore, there have been several attempts to use saline nasal irrigation in combination with other treatments to treat allergic rhinitis. This study tries to explore the effect of nasal irrigation with Chinese herbal medicines on allergic rhinitis.

NCT ID: NCT05896241 Recruiting - Allergic Rhinitis Clinical Trials

EVALUATION OF THE EFFECTIVENESS AND SAFETY OF DOSPRAY® NAZAL SPRAY IN THE SYMPTOMATIC TREATMENT OF PERSISTENT ALLERGIC RHINITIS: A POST-REGISTRATION OBSERVATION STUDY

Start date: May 15, 2023
Phase:
Study type: Observational [Patient Registry]

The combined use of dexamethasone and oxymetazoline has a vasoconstrictive, anti-inflammatory and anti-allergic effect when applied topically in diseases of the upper respiratory tract. The main goal of this research is Evaluation of the effectiveness of Dospray® nasal spray in the treatment of persistent allergic rhinitis. The study will involve 126 patients diagnosed with allergic rhinitis: 1. Patients taking Dospray = 63 2. Patients on other alternative treatment = 63 Duration of Patient Participation - 7-10 days (duration of treatment for an individual patient).

NCT ID: NCT05887843 Terminated - Clinical trials for Seasonal Allergic Rhinitis

Study to Compare the Pharmacokinetics of Fixed-Dose Combination of Mometasone + Azelastine Nasal Spray to Mometasone and Azelastine Nasal Sprays in Adolescents and Young Adults With Seasonal Allergic Rhinitis

Start date: June 8, 2023
Phase: Phase 1
Study type: Interventional

This study will compare the PK parameters of the combination test formulation to monotherapy reference products (mometasone furoate and azelastine hydrochloride) in adolescents and young adult patients with seasonal allergic rhinitis.

NCT ID: NCT05881577 Recruiting - Allergic Rhinitis Clinical Trials

The Effect of Allergic Rhinitis on Educational Outcomes

Start date: February 15, 2023
Phase:
Study type: Observational [Patient Registry]

The study will assess the the burden of living with allergic rhinitis (AR) and the effect of AR on school performance for children and adolescents in Denmark.

NCT ID: NCT05880134 Completed - Neurectomy Clinical Trials

Graft Reinforcement for Posterior Nasal Nerve Neurectomy in Allergic Rhinitis Surgeries

Start date: March 12, 2022
Phase: N/A
Study type: Interventional

Rhinitis is defined clinically as having two or more symptoms of anterior or posterior rhinorrhea, sneezing, nasal blockage and/or itching of the nose during two or more consecutive days for more than 1 h on most days. Allergic rhinitis is diagnosed when these symptoms are caused by allergen exposure leading to an IgE mediated reaction. The inflammatory mediators produced because of this IgE mediated reaction causes the classical symptoms of allergic rhinitis. Nerve irritation causes sneezing and itching, the loss of mucosal integrity causes rhinorrhea, and the vascular engorgement leads to nasal blockage. Based on the nasal symptoms the prevalence of allergic rhinitis in the Indian population is 20-30%. Allergic rhinitis significantly affects the quality of life, it contributes to missed or unproductive time at school or work, disturbed sleep pattern and daytime somnolence. The most popular and widely accepted treatment strategy for allergic rhinitis is pharmacotherapy, this includes antihistamines, leukotriene receptor antagonist and intranasal corticosteroids. These medical modalities are symptomatically effective in mild cases, with temporary relief and addressable adverse effects. Prolonged treatment with allergy immunotherapy causes a sustainable financial burden while remaining inaccessible at smaller towns. Rhinorrhea is a frequent symptom reported amongst patients with allergic and vasomotor rhinitis. Most of these patients usually respond well to medical treatment. Indications for surgical treatment are warranted only when medical treatment fails, or a patient wants a permanent solution. In 1961, Golding-Wood first described vidian neurectomy for the treatment of allergic and vasomotor rhinitis. There was a high incidence of post-operative complications, such as disturbed lacrimal secretion and numbness of the cheek and gums. In 2007, Kikawada reported an endoscopic technique involving resection of the posterior nasal nerve near the sphenopalatine artery. With this technique, any intra-operative bleeding can be controlled under direct vision. In 2008, Ikeda et al. described submucosal reduction of the inferior turbinate and resection of the posterior nasal nerve. This resulted in significant improvements in nasal symptoms for patients with resistant chronic rhinitis (rhinorrhea). The posterior nasal nerve is a peripheral branch of the sphenopalatine ganglion. It enters the nasal cavity through a separate foramen, 4-5 mm below the sphenopalatine foramen, after bifurcation of the nerve into the lacrimal nerve. The posterior superior nasal nerves innervate the superior and middle turbinates, and the superior and middle meatus. Other parasympathetic nerve fibres of the nose branch off and joins the greater palatine nerve and enters the nasal cavity through the canaliculi in the perpendicular plate of the palatine bone as the posterior inferior nasal nerves. These nerves innervate the inferior turbinate and the inferior meatus.

NCT ID: NCT05870644 Completed - Allergic Rhinitis Clinical Trials

Acute Effects of Exercise at Different Temperatures in Allergic Rhinitis Patient

Start date: August 1, 2022
Phase: N/A
Study type: Interventional

The purpose of this study was to determine the effects of exercise at different temperatures on nasal blood flow and symptoms in allergic rhinitis patients.

NCT ID: NCT05869071 Recruiting - Asthma Clinical Trials

Assessment of Oral and Nasal Breathing With Sensors Analyzing Algorithm

Start date: May 23, 2023
Phase:
Study type: Observational [Patient Registry]

The goal of this observational study is to learn about the agreement between sensors analyzing algorithm and body plethysmography in measuring oral and nasal breathing in healthy adults, and in patients with chronic rhinosinusitis, asthma and chronic obstructive pulmonary disease. The main question it aims to answer is: • Is the algorithm-based method accurate enough in analyzing respiratory obstruction as compared to body plethysmography (reference method)? Participants will perform a short breathing protocol (oral and nasal breathing with different masks) during which time their breathing is monitored with both methods.