Hypertonic saline nasal provocation and acoustic rhinometry

Background Hypertonic saline (HTS) acts as an airway irritant in human nasal mucosa by stimulating nociceptive nerves and glandular secretion. FITS does not change vascular permeability. In asthma, HTS causes airflow obstruction. Objective To determine the effect of FITS on mucosal swelling using acoustic rhinometry (AcRh). Potential vasodilator effects were controlled by maximally constricting mucosal vessels with oxyme-tazoline (Oxy). Method Normal subjects had AcRh before and 30 min after either 0.05% Oxy or saline (0.9% NaCl) nasal treatments. Nasal provocations followed immediately with five step-wise incremental escalating doses of HTS administered at 6-min intervals. AcRh was performed I 3 and 5 min after each HTS administration, and then after blowing the nose at 5 min. The minimum cross-sectional area (Amin), volume of the anterior 6 cm of nasal cavity (V6) and incremental changes from pre-drug treatment baseline levels (Delta, mean +/- SEM) were calculated. Results Oxy increased Amin by 46% (Delta = 0.48 +/- 0.07 cm(2), P=0.0001) and V6 by 53% (Delta = 9.9 +/- 1.5 mL, p< 1 x 10(-7)) during the first 30 min. Saline (vehicle) treatment had no effect. The maximum HTS dose had no effect after 1 or 3 min. However, in the 4th and 5th minutes there were reductions in Amin (Δ = 0.07 +/- 0.03 cm(2), P = 0.035) and V6 (Δ = 1.57 +/- 0.42 mL, P = 0.004) with an increase in the weight of secretions (Δ = 700 +/- 100 mg, P < 0.05). Blowing the nose returned Amin and V6 towards baseline. Oxy had no effect on HTS-induced changes in Amin, V6, pain, rhinorrhea or weight of secretions. Conclusion HTS induced nociceptive nerve stimulation and mucus secretion, and reduced V6 and Amin. Oxy caused vasoconstriction but did not alter HTS-induced effects. HTS may stimulate neurogenic axon response-mediated glandular secretion that contributes to perceptions of nasal obstruction in normal subjects.