U. Alkner scite author profile

A great variety of provocations of the airway mucosa produce extravasation of plasma from the abundant subepithelial microvessels. A plasma exudate has important actions through its volume, its specific and unspecific binding proteins, its enzyme systems, and its potent peptides (of kinin, complement, coagulation, fibrinolysis and other systems). If allowed to operate on the surface of an intact mucosa the plasma exudate would have important roles in normal airway defence. Recent observations in guinea-pig tracheobronchial airways and in human nasal airways suggest that the mucosal exudation of plasma into the airway lumen is a non-injurious fully reversible process. Threshold exudative responses thus resulted in the appearance of an 'unfiltered' plasma exudate not only in the lamina propria but also on the surface of an undisrupted mucosa. Even after extensive luminal entry of exudate the epithelial lining was intact, as judged by light, fluorescence and electron microscopy. Hence, the epithelial barrier was reversibly permeable when approached from beneath by the plasma exudate. This was a distinct increase in outward permeability, because even during the exudation of plasma the mucosa remained a barrier to luminal solutes. It is possible that the exudate itself, by a slight compressive action on the basolateral aspect of epithelial cells, creates intercellular pathways for its entry into the lumen. Contrary to current beliefs, we propose that plasma exudation should be considered a first line respiratory defence mechanism operating together with other systems of the mucosal surface.

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The‘nasal pool’device applies controlled concentrations of solutes on human nasal airway mucosa and samples its surface exudations/secretions

Greiff

Pipkorn

Alkner³

et al. 1990

Clin Experimental Allergy

165

120

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A 'nasal pool' (NP) device, a compressible plastic container with an adapted nozzle, was used to perform a continuous 10-min nasal provocation and lavage. This novel technique brings known concentrations of agents into contact with a large and defined area of the nasal mucosal surface for extended periods of time. Simultaneously, the surface exudations/secretions of the same nasal mucosa are effectively sampled by the NP fluid. A concentration-response study of histamine (80, 400 and 2000 micrograms/ml) was performed in 12 normal subjects on three different occasions. Exudation of plasma albumin into the lavage fluid was measured to quantitate the histamine-induced airway inflammation. The effect of the dwell time on exudation was examined using histamine (400 micrograms/ml) instilled in the nasal cavity for time periods from 10 sec to 10 min. The time course of histamine-induced plasma exudation response was studied by exposing the mucosa to histamine (400 micrograms/ml) for 12 min, with the NP renewed every minute. Allergen-provocations were performed in subjects with hay fever and TAME-esterase activity in the returned lavage fluid was determined to indicate the degree of response. Histamine produced a concentration-dependent increase in albumin levels in the NP fluid; 123.3 +/- 25.6, 213.8 +/- 19.7 and 430.2 +/- 32.0 micrograms/ml (mean +/- s.e.m.), respectively. The time-course study demonstrated that plasma exudation into the lumen occurred promptly and that the exudation response reached a maximum after exposure to histamine for 6-10 min. The dwell-time experiments supported this finding. After 10 min the exudation appeared to decline despite the continued presence of histamine.(ABSTRACT TRUNCATED AT 250 WORDS)

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The use of the nose to study the inflammatory response of the respiratory tract.

Persson¹,

Svensson²,

Greiff³

et al. 1992

Thorax

100

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Albumin, bradykinins, and eosinophil cationic protein on the nasal mucosal surface in patients with hay fever during natural allergen exposure

Svensson¹,

Andersson²,

Persson³

et al. 1990

Journal of Allergy and Clinical Immunology

123

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Reversibility and reproducibility of histamine induced plasma leakage in nasal airways.

Svensson

Baumgarten

Pipkorn

et al. 1989

Thorax

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Plasma exudation is one cardinal factor in airways defence and inflammation. In inflammatory airway diseases such as rhinitis and asthma, however, plama leakage may also have a pathogenetic role. Experimental data from animals indicate that highly sensitive, active, and reversible processes regulate the vascular and mucosal permeability to macromolecules. With the use ofa nasal lavage model for the recovery ofliquids on the mucosal surface the effect ofhistamine on the macromolecular permeability of the airway endothelial-epithelial barriers was studied in normal subjects. The concentrations ofalbumin, kinins, and N-a-fl-tosyl-L-arginine-methyl esterase (TAME) in nasal lavage fluid were measured and nasal symptoms assessed by a scoring technique. The reproducibility of three repeated challenges with 30 minute intervals on the same day was studied in 12 subjects and compared with the same procedure (three challenges) on a different day. Sneezing decreased significantly (p < 0-05) after the first histamine challenge but was maintained thereafter. Otherwise, the mean values for symptoms and for markers of vascular leakage were very similar both for the three challenges in the same session and for the two challenge sessions on a different day. Sneezing, blockage, and secretions were associated with increased concentrations of TAME esterase (maximum 9000 cpm/ml), kinins (I 4 ng/ml), and albumin (0-3 g/1) in lavage fluid. Both the symptoms and the measures of plasma exudation were reversible and reproducible in the three repeat histamine challenges and at two challenge sessions on different days. These findings support the view that non-injurious, active processes regulate the inflammatory flow ofmacromolecules across airways endothelial-epithelial barriers. The present experimental approach would be suitable for studies of the modulatory effects of inflammatory stimulus induced plasma leakage and symptoms in human airways.

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Intranasal Administration of Peptides: Nasal Deposition, Biological Response, and Absorption of Desmopressin

Harris

Nilsson

Wagner³

et al. 1986

Journal of Pharmaceutical Sciences

145

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Exudative hyperresponsiveness of the airway microcirculation in seasonal allergic rhinitis

Svensson

Andersson²,

Greiff³

et al. 1995

Clin Experimental Allergy

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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.

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Airway permeability

Persson¹,

Andersson²,

Greiff³

et al. 1995

Clin Experimental Allergy

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U. Alkner

Plasma exudation as a first line respiratory mucosal defence

The‘nasal pool’device applies controlled concentrations of solutes on human nasal airway mucosa and samples its surface exudations/secretions

The use of the nose to study the inflammatory response of the respiratory tract.

Albumin, bradykinins, and eosinophil cationic protein on the nasal mucosal surface in patients with hay fever during natural allergen exposure

Reversibility and reproducibility of histamine induced plasma leakage in nasal airways.

Intranasal Administration of Peptides: Nasal Deposition, Biological Response, and Absorption of Desmopressin

Exudative hyperresponsiveness of the airway microcirculation in seasonal allergic rhinitis

Airway permeability

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