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High Levels of Airborne Ultrafine and Fine Particulate Matter in Indoor Ice Arenas

The high prevalence of airway dysfunction among ice arena athletes may be related to rink air exposure; in particular, high concentrations of ultrafine and fine particulate matter (0.02-1.0 µm diameter, PM 1) from ice resurfacing machines may enhance airway inflammation and hyperreactivity. The purp...

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Published in:	Inhalation toxicology 2003-03, Vol.15 (3), p.237-250
Main Author:	Rundell, Kenneth W.
Format:	Article
Language:	English
Subjects:	Air Pollutants - analysis Air Pollution, Indoor - analysis Bronchial Hyperreactivity - etiology Environmental Illness - etiology Particle Size Skating Vehicle Emissions - analysis
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creator	Rundell, Kenneth W.
description	The high prevalence of airway dysfunction among ice arena athletes may be related to rink air exposure; in particular, high concentrations of ultrafine and fine particulate matter (0.02-1.0 µm diameter, PM 1) from ice resurfacing machines may enhance airway inflammation and hyperreactivity. The purpose of this study was to identify levels of PM 1 emitted from ice resurfacing machines used in indoor ice arenas, and to compare [PM 1] pre- and post-resurfacing to each other and to outdoor [PM 1] . Multiple one Hz measurements were recorded on 28 different days as 15-s mean of PM 1 ·cm -3 for 2 min at 1-1.5 m "above ice" in 10 rinks pre- and post-resurfacing, with measured airborne PM 1 outside each rink to be used individual rink references. Rink PM 1 ·cm -3 was ~30 times greater than PM 1 ·cm -3 outside the respective rinks (p < .05). Rink values were 104.2 ± 59.3 × 10 3 PM 1 ·cm -3 during prime usage, compared to outdoor values of 3.8 ± 2.5 × 10 3 PM 1 ·cm -3. Ice resurfacing increased PM 1 ·cm -3 4-fold (p < .05). No difference in PM 1 emissions between gasoline and propane powered resurfacing machines was identified. The rate of PM 1 dissipation after resurfacing was highly variable between rinks and probably dependent upon rink ventilation and resurfacing machine engine efficiency. Gas-powered edging increased PM 1 ·cm -3 18-fold and 158-fold versus pre-edging rink and outdoor values, respectively. We conclude that the primary source of airborne indoor rink PM 1 is internal combustion ice-resurfacing machines and that this poor air quality may be causal to the unique and high prevalence of airway dysfunction in ice arena athletes.
doi_str_mv	10.1080/08958370304502
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The purpose of this study was to identify levels of PM 1 emitted from ice resurfacing machines used in indoor ice arenas, and to compare [PM 1] pre- and post-resurfacing to each other and to outdoor [PM 1] . Multiple one Hz measurements were recorded on 28 different days as 15-s mean of PM 1 ·cm -3 for 2 min at 1-1.5 m "above ice" in 10 rinks pre- and post-resurfacing, with measured airborne PM 1 outside each rink to be used individual rink references. Rink PM 1 ·cm -3 was ~30 times greater than PM 1 ·cm -3 outside the respective rinks (p < .05). Rink values were 104.2 ± 59.3 × 10 3 PM 1 ·cm -3 during prime usage, compared to outdoor values of 3.8 ± 2.5 × 10 3 PM 1 ·cm -3. Ice resurfacing increased PM 1 ·cm -3 4-fold (p < .05). No difference in PM 1 emissions between gasoline and propane powered resurfacing machines was identified. The rate of PM 1 dissipation after resurfacing was highly variable between rinks and probably dependent upon rink ventilation and resurfacing machine engine efficiency. Gas-powered edging increased PM 1 ·cm -3 18-fold and 158-fold versus pre-edging rink and outdoor values, respectively. 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The rate of PM 1 dissipation after resurfacing was highly variable between rinks and probably dependent upon rink ventilation and resurfacing machine engine efficiency. Gas-powered edging increased PM 1 ·cm -3 18-fold and 158-fold versus pre-edging rink and outdoor values, respectively. 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The rate of PM 1 dissipation after resurfacing was highly variable between rinks and probably dependent upon rink ventilation and resurfacing machine engine efficiency. Gas-powered edging increased PM 1 ·cm -3 18-fold and 158-fold versus pre-edging rink and outdoor values, respectively. We conclude that the primary source of airborne indoor rink PM 1 is internal combustion ice-resurfacing machines and that this poor air quality may be causal to the unique and high prevalence of airway dysfunction in ice arena athletes.</abstract><cop>England</cop><pub>Informa UK Ltd</pub><pmid>12579455</pmid><doi>10.1080/08958370304502</doi><tpages>14</tpages></addata></record>
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source	Taylor and Francis:Jisc Collections:Taylor and Francis Read and Publish Agreement 2024-2025:Medical Collection (Reading list)
subjects	Air Pollutants - analysis Air Pollution, Indoor - analysis Bronchial Hyperreactivity - etiology Environmental Illness - etiology Particle Size Skating Vehicle Emissions - analysis
title	High Levels of Airborne Ultrafine and Fine Particulate Matter in Indoor Ice Arenas
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