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Chronic Rhinitis clinical trials

View clinical trials related to Chronic Rhinitis.

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NCT ID: NCT01364467 Completed - Chronic Rhinitis Clinical Trials

The Effect of Oral Guaifenesin on Pediatric Chronic Rhinitis: A Pilot Study

Start date: May 2011
Phase: Phase 2
Study type: Interventional

This is a 14-day, randomized, placebo-controlled, parallel group, masked clinical trial of oral guaifenesin for the therapy of Chronic Rhinitis (CRS) in 36 children between the ages of 7 and 18 years. The study investigates the effectiveness of guaifenesin in the relief of nasal symptoms in children with CRS using the sinonasal 5 survey (SN-5) in comparison to nasal airway volume, and biophysical properties of nasal secretion. The investigators hypothesize that Guaifenesin use over a period of 14 days improves subjective nasal complaints in pediatric patients with chronic rhinitis and nasal congestion, as measured by the SN-5 survey compared to use of placebo. There will be an observed improvement in nasal volume and cross-sectional area following use of guaifenesin, and nasal secretions will have more favorable mucociliary and sneeze clearability compared to use of placebo.

NCT ID: NCT00737906 Terminated - Chronic Rhinitis Clinical Trials

Surgical Reduction of the Inferior Turbinates for Nasal Obstruction

Start date: October 2007
Phase: Phase 4
Study type: Interventional

The primary goal of this post-marketing surveillance study is to assess whether surgical turbinate reduction performed using a Coblation® device is associated with reduced nasal obstruction symptoms.

NCT ID: NCT00584662 Terminated - Chronic Rhinitis Clinical Trials

Oxymetazoline Hydrochloride in Combination With Nasal Glucocorticosteroid for Perennial Allergic and Non-allergic Rhinitis in Subjects With Persistent Nasal Congestion

Start date: January 2005
Phase: N/A
Study type: Interventional

Nasal glucocorticosteroids (GCS) are considered first-line therapy for both allergic and non-allergic rhinitis.1-3 Nasal congestion can persist despite maximum treatment with intranasal GCS. No other drugs are superior to intranasal GCS in relieving nasal congestion. For example, antihistamines are not effective in relieving congestion.1 Oral decongestants are somewhat beneficial in relieving nasal congestion but can elevate blood pressure, cause restlessness, and cause urinary retention. Oxymetazoline, however, is a potent decongestant and the addition of it to a nasal GCS should add a considerable decongestant benefit. It may also be beneficial in patients with persistent nighttime congestion despite maximum dosages of nasal GCS. Oxymetazoline is currently recommended for three days use because of the proposed risk of rhinitis medicamentosa,4 which is increased nasal congestion caused by prolonged use of nasal decongestant sprays.5-8 The term RM was coined early in the twentieth century after several case reports described patients developing rebound congestion after using first generation intranasal decongestants such as privine hydrochloride and ephedrine for prolonged periods6,7. The histopathology and mechanism of RM has been based on animal models which may not be pertinent to humans.9-13 Studies using oxymetazoline, a newer intranasal decongestant, in individuals without rhinitis have shown conflicting evidence for the development of RM.14-16 For example, normal individuals without rhinitis using oxymetazoline three times daily for four weeks did not develop RM.17 Also, it is unknown the frequency of administration and dosage of oxymetazoline it takes to induce RM or whether RM is just a return to a patient's baseline nasal congestion as present before beginning oxymetazoline. It is also unknown whether RM is more likely or only occurs with older vasoconstrictors such as privine hydrochloride and ephedrine rather than oxymetazoline. Nasal GCS reduce the amount of rebound congestion in patients with perennial allergic rhinitis who have reportedly developed RM.18 Nasal GCS decrease nasal mucosa edema, recruitment of neutrophils and mononuclear cells, cytokine production, and late-phase nasal mediators.19-21 They may offer a protective benefit from the risk of developing RM. Oxymetazoline may also decrease inferior turbinate hypertrophy thereby permitting better adsorption of the nasal GCS. Hypothesis The addition of oxymetazoline to a nasal GCS for fourteen days will decrease the amount of congestion in subjects with allergic or non-allergic rhinitis with persistent congestion despite maximum recommended dosages of a nasal GCS. It is also hypothesized that nasal GCS protect against the development of RM secondary to oxymetazoline.