Exudative hyperresponsiveness of the airway microcirculation in seasonal allergic rhinitis.

BACKGROUND

Mucosal exudation of plasma is a non-injurious, physiological response of the airway microcirculation to different inflammatory processes. The exudative response is similar in the nose and bronchi and exudation occurs in both allergic asthma and rhinitis. The exudative response is a specific end-organ function of the mucosal microcirculation that may be altered in airway diseases.

OBJECTIVE

This study examines the hypothesis of altered responsiveness of the superficial airway microcirculation to vascular permeability-increasing challenges in sustained allergic inflammation.

METHODS

Fourteen patients with birch-pollen induced allergic rhinitis were studied for 7 weeks during a Swedish birch-pollen season. Nasal symptoms (itching, sneezing, blockage, and discharge) were recorded and the occurrence of pollen was determined. The plasma exudation response was examined by topical histamine challenges at the end (May) and well out of (December) the season. Challenge and lavage were carried out concomitantly using a 'nasal pool'-device. The unilateral nasal cavity was filled for consecutive 10 minute periods with saline and two concentrations of histamine (80 micrograms/mL and 400 micrograms/mL). The lavage fluid levels of different-sized plasma proteins (albumin-66,000 D, fibrinogen-340,000 D, and alpha 2-macroglobulin-725,000 D) were determined.

RESULTS

The pollen season was mild resulting in only minor nasal symptoms. Histamine produced exudation of all plasma proteins across the microvascular epithelial barriers with particularly strong correlation between the levels of albumin and alpha 2-macroglobulin (r = 0.98; P < 0.001). The exudative response to histamine was concentration-dependent (P < 0.05) and, furthermore, it was significantly greater late into the season compared with outside the pollen season (albumin: P < 0.05, fibrinogen; P < 0.05, alpha 2-macroglobulin: P < 0.01).

CONCLUSIONS

We conclude that histamine produced concentration-dependent nasal airway exudation of bulk plasma in subjects with seasonal rhinitis and that this response is abnormally great during the pollen season. Whether angiogenesis or increased responsiveness of the microvascular endothelium may explain this phenomenon now remains unknown. We suggest that a microvascular exudative hyperresponsiveness may characterize allergic airway disease.