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Nasal Contribution to Breathing and Fine Particle Deposition in Children Versus Adults
Citation:
BENNETT, W., K. ZEMAN, AND A. M. JARABEK. Nasal Contribution to Breathing and Fine Particle Deposition in Children Versus Adults. JOURNAL OF TOXICOLOGY AND ENVIRONMENTAL HEALTH - PART A: CURRENT ISSUES. Taylor & Francis, Inc., Philadelphia, PA, 71(3):227-37, (2008).
Impact/Purpose:
This is a summary article of a workshop sponsored by the Office of Children’s Health in Washington DC in June 2006. Its purpose was to evaluate different approaches (e.g., at EPA and California EPA) and the state-of-the-science (e.g., different models of gas uptake and particle distribution) with respect to whether they are adequately addressing issues that may make children more at risk from such inhaled agents.
Description:
Both the route of breathing, nasal versus oral, and the effectiveness of the nose to filter inhaled, fine particles may differ between children and adults. This study compared (1) the nasal contribution to breathing at rest and during mild to moderate exercise in children (age 6–10 yr) versus young adults and (2) the nasal deposition efficiency (NDE) of fine particles (1 and 2 mm MMAD, GSD < 1.2) under resting and light exercise breathing conditions in the same children and adults. Nasal contribution to breathing was assessed by respiratory inductance plethysmography and a nasal mask with flow meter during incremental exercise on a bicycle ergometer. Fine particle deposition fractions for nasal and oral breathing were assessed by inhalation of monodisperse carnauba wax particles and laser photometry to determine inhaled/exhaled concentrations. There was a trend for children to have a lesser nasal contribution to breathing at rest and during exercise, but the differences from adults were not statistically significant. Children did, however, have significantly decreased NDE for 2-mm particles under light exercise breathing conditions compared to adults, suggesting less efficient nasal filtering for larger particles and higher flow conditions. These results suggest that the lungs of children may be exposed to higher concentrations of inhaled, ambient particles than adults.
