Affiliation:
1. Department of Public Health and Clinical Medicine, Umeå University
2. Thermochemical Energy Conversion Laboratory, Department of Applied Physics and Electronics, Umeå University
Abstract
Abstract
Background: Exposure to wood smoke has been shown to contribute to adverse respiratory health effects including airway infections, but the underlying mechanisms are yet unclear. A preceding study failed to confirm any acute inflammation or cell influx in bronchial wash (BW) or bronchoalveolar lavage (BAL) 24 h after wood smoke exposure but showed unexpected reductions in leukocyte numbers. The present study was performed to investigate responses at an earlier phase, regarding potential development of acute inflammation, as well as indications of cytotoxicity.
Methods: In a double-blind, randomised crossover study, 14 healthy participants were exposed for 2h to filtered air and diluted wood smoke from incomplete wood log combustion in a common wood stove with a mean particulate matter concentration of 409 µg/m3. Bronchoscopy with BW and BAL was performed 6 hours after exposure. Differential cell counts, assessment of DNA-damage and ex vivo analysis of phagocytic function of phagocytosing BAL cells were performed. Wood smoke particles were also collected for in vitro toxicological analyses using bronchial epithelial cells (BEAS-2B) and alveolar type II cells (A549).
Results: Exposure to wood smoke increased BAL lactate dehydrogenase (LDH) (p=0.04) and reduced the ex vivo alveolar macrophage phagocytic capacity (p=0.03) and viability (p=0.02) vs. filtered air. BAL eosinophil numbers were increased after woodsmoke (p=0.02), while other cell types were unaffected in BW and BAL. In vitro exposure to wood smoke particles confirmed increased DNA-damage, decreased metabolic activity and cell cycle disturbances.
Conclusions: Exposure to wood smoke from incomplete combustion did not induce any acute airway inflammatory cell influx at 6 hours, apart from eosinophils. However, there were indications of a cytotoxic reaction with increased LDH, reduced cell viability and impaired alveolar macrophage phagocytic capacity. These findings are in accordance with earlier bronchoscopy findings at 24 h and may provide evidence for the increased susceptibility to infections by biomass smoke exposure, reported in population-based studies.
Publisher
Research Square Platform LLC
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