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Clinical Trial Summary

Allergic rhinitis is an under diagnosed global health problem which affects up to 25% of the population worldwide. It has been reported as being one of the 10 most common causes for attendance to primary care clinics. It is clinically defined as a symptomatic disorder of the nose induced by an IgE mediated inflammation following allergen exposure of the membranes lining the nose and is characterized by varying combinations of nasal symptoms including sneezing, nasal blockage, rhinorrhoea and itching. Intra nasal corticosteroids form the cornerstone of anti-inflammatory therapy in allergic rhinitis and there is increasing interest in the role of intranasal beta 2 agonists in the management of allergic rhinitis. The question therefore arises as to whether salmeterol exhibits such synergistic activity in the nose in terms of potentiating the steroid response of fluticasone.


Clinical Trial Description

In vitro and ex vitro data have suggested that salmeterol may exhibit ligand independent activation of glucocorticoid receptors, which might result in potentiation of fluticasone by salmeterol when given in combination.

Although no such evidence of synergy was reported with fluticasone salmeterol combination in the nose with allergen challenge, no data are available on nasal AMP challenge in the nose.

This study compares the single and long term dosing effects of intranasal fluticasone alone, salmeterol alone and fluticasone salmeterol combination on nasal AMP challenge in persistent allergic rhinitis sufferers.

Nasal corticosteroid,leukotriene receptor antagonist and anti histamine stopped for one week before the start of randomized treatment during the run in phase and wash out periods. Intransal sodium cromoglycate spray provided for rescue use throughout the study but witheld for at least twenty four hours before challenge.

Nasal AMP challenges performed at baseline, after run-in and each washout, and 12 hours after the first and last evening dose of the study medication. A Zerostat Antistatic spacer (Cipla, Mumbai, India) used to administer the randomized treatments, adapted with a nasal olive for intranasal use instead of the conventional mouthpiece.

The randomized treatments given once daily at night time as follows: placebo hydrofluoroalkane, 2 puffs (Cipla, Mumbai,India) salmeterol-hydrofluoroalkane, 2 puffs of 25 g (Serevent Evohaler Allen and Hanburys, Middlesex, United Kingdom) fluticasone- salmeterol hydrofluoroalkane, 2 puffs of 250/25 g (Seretide Evohaler, Allen and Hanburys) and fluticasone-hydrofluoroalkane,2 puffs of 250 g (Flixotide Evohaler, Allen and Hanburys).

The double-blind randomization process computer generated from www.randomization.com. Trial drug randomization performed under the direct supervision of the clinical trial pharmacist at Ninewells University Hospital.

Active fluticasone,salmeterol, and fluticasone-salmeterol combination procured from GlaxoSmithKline (Allen and Hanburys) by the clinical trial pharmacy and matched placebo provided by Cipla.

Following Informed Consent and screening visit, participants provided with randomized, labeled treatment packs with a single inhaler, either active or placebo at each study treatment visit.

Blinding of patients and investigators ensured by using identical colored actuators for each treatment and labeling of active or placebo canisters with trial-specific labels.

Measurements made at 12 hours after the first and last dose of each randomized treatment.

At initial screening, nasal endoscopy performed to exclude significant nasal polyp disease (greater than grade 1), concha bullosa, and septal deviation.

A Niox Flex nitric oxide analyzer (Aerocrine AB, Solna, Sweden) used to measure nasal nitric oxide. The standard aspiration technique recommended by the American Thoracic Society/European Respiratory Society guidelines used with a unilateral,nasal olive, breath-holding, and velum closure.

For nasal AMP challenge, PNIF measured before and every 5 minutes for 60 minutes after 4 squirts of 0.1 mL per actuation in each nostril of 400 mg/mL of AMP (ie, 320-mg total dose) delivered to the nose. The maximum decrease in PNIF measured using an In-check Nasal Inspiratory Flow Meter (Clement Clarke International Ltd, Harlow, United Kingdom).

It has been shown that measuring PNIF (PEAK NASAL INSPIRATORY FLOW) response is more sensitive than measuring nasal airway resistance and is also more reproducible.PNIF correlates well vs symptoms in response to treatment in allergic rhinitis patients and has been shown to have a minimal clinically important difference of 5 L/min.

At screening, patients instructed in the correct technique with particular attention to horizontal positioning of the meter, a closed mouth with maximal peak nasal inspiratory effort, and an adequate mask seal around the mouth and nose.

Nasal impulse oscillometry measurements for nasal airway resistance at 5 Hz performed using a Jaeger MasterScreen impulse oscillometry system (Erich Jaeger, Hoechberg, Germany).

The total nasal symptom 4 (TNS4) scores recorded at all visits, with a total score of 12 for the sum of the 4 separate domains for nasal blockage, run, itch, and sneeze, each rated from 0 to 3.

The Juniper Mini Rhinoconjunctivitis Quality of Life Questionnaire (Mini-RQLQ) completed by the participant immediately before and a week after each randomized treatment. The global RQLQ is the mean of the 5 individual domains, with individual domains scored from 0 to 6.

Serum eosinophilic cationic protein measured using an enzyme-linked immunoassay technique (UniCAP; Sweden Diagnostics UK Ltd, Milton Keyes, United Kingdom). ;


Study Design


Related Conditions & MeSH terms


NCT number NCT01388595
Study type Interventional
Source University of Dundee
Contact
Status Completed
Phase Phase 4
Start date November 2006
Completion date October 2010

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