Affiliation:
1. School of Public Health & Preventive Medicine Monash University Melbourne Victoria Australia
2. Respiratory Medicine Alfred Health Melbourne Victoria Australia
3. Centre for Youth Mental Health (Orygen) University of Melbourne Melbourne Victoria Australia
4. Melbourne School of Health Sciences The University of Melbourne Melbourne Victoria Australia
Abstract
AbstractBackground and ObjectivesThe Hazelwood Health Study was set up to study long‐term health effects of a mine fire that blanketed residents of the Latrobe Valley with smoke for 45 days in 2014. The Respiratory Stream specifically assessed the impact of fine particulate matter <2.5 μm diameter (PM2.5) exposure from mine fire smoke on lung health. The multiple breath nitrogen washout (MBW) test assesses ventilation heterogeneity, which may detect sub‐clinical airways dysfunction not identified using standard tests such as spirometry. This analysis assessed the association of PM2.5 exposure with measures of ventilation heterogeneity.MethodsExposed (Morwell) and unexposed (Sale) participants were recruited 3.5–4 years after the fire from those who had participated in an Adult Survey. MBW was performed to measure lung clearance index (LCI), functional residual capacity (FRC), acinar (Sacin) and conductive (Scond) ventilation heterogeneity. PM2.5 exposure was estimated with emission and chemical transport models. Multivariable linear regression models were fitted controlling for confounders.ResultsWe recruited 519 participants. MBW tests were conducted on 504 participants with 479 acceptable test results (40% male; 313 exposed, 166 unexposed). Exposure to mine fire‐related PM2.5 was associated with increasing Scond (β = 1.57/kL, 95%CI: 0.20–2.95, p = 0.025), which was comparable to the estimated effect on Scond of 4.7 years of aging. No other MBW outcomes were statistically different.ConclusionIncreasing exposure to PM2.5 was associated with increased ventilation heterogeneity in the conductive region of the lungs 4 years after the event.image
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