Wind-induced mechanical rupture of birch pollen: Potential implications for allergen dispersal

Wind-induced mechanical rupture of birch pollen: Potential implications for allergen dispersal

Mechanical rupture of pollen grains after a mechanical shock against a solid surface was tested as a new approach to one of the mechanisms related to the release of allergen loaded particles from pollen. Birch pollen was aerosolized and sent into an impactor to mimic a shock against a surface (trees...

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Bibliographic Details
Published in:Journal of aerosol science Vol. 89; pp. 77 - 84
Main Authors: Visez, Nicolas, Chassard, Guillaume, Azarkan, Najiha, Naas, Oumsaad, Sénéchal, Hélène, Sutra, Jean-Pierre, Poncet, Pascal, Choël, Marie
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-11-2015
Elsevier
Subjects:
Aerobiology
Bioaerosol
Chemical Sciences
or physical chemistry
Pollen Allergy
Theoretical and
Thunderstorm-related Asthma
Aerobiology
Thunderstorm-related Asthma
Bioaerosol
Pollen Allergy
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Summary:Mechanical rupture of pollen grains after a mechanical shock against a solid surface was tested as a new approach to one of the mechanisms related to the release of allergen loaded particles from pollen. Birch pollen was aerosolized and sent into an impactor to mimic a shock against a surface (trees, soil, walls, etc.) at wind speeds of atmospheric-relevance. Small particles in the range of 1–2.5µm were released subsequently to pollen impaction. The number of particles released increased with the velocity of impaction and with the water content of pollen. Damaged grains were observed by transmission electron microscopy and released particles are most likely cytoplasmic granules. This mechanism of pollen rupture and/or discharge may be of great importance in urban environment and may significantly contribute to thunderstorm-related allergic asthma and other associated pollen subparticles IgE mediated diseases. [Display omitted] •Pollen rupture was induced after a mechanical shock.•Released particles were in the 1–2.5µm range.•Higher wind velocities increased the extend of pollen rupture.•Increase in pollen water content also increased the number of grains ruptured.
ISSN:0021-8502
1879-1964
DOI:10.1016/j.jaerosci.2015.07.005