Lung function may recover after coal mine fire smoke exposure: a longitudinal cohort study

Abstract

ABSTRACTBackground and objectiveThe 2014 Hazelwood coalmine fire exposed residents in nearby Morwell to high concentrations of particulate matter <2·5 µm (PM2·5) for approximately 6 weeks. This analysis aimed to evaluate the long-term impact on respiratory health.MethodsAdults from Morwell and the unexposed town of Sale completed validated respiratory questionnaires and performed spirometry, gas transfer and oscillometry 3·5-4 years (Round 1) and 7·3-7·8 years (Round 2) after the fire. Individual PM2·5exposure levels were estimated using chemical transport models mapped onto participant-reported time-location data. Mixed-effects regression models were fitted to analyse associations between PM2·5exposure and outcomes, controlling for key confounders.ResultsFrom 519 (346 exposed) Round 1 participants, 329 (217 exposed) participated in Round 2. Spirometry and gas transfer in Round 2 were mostly lower compared with Round 1, excepting FVC (increased) and FEV1(minimal change). The effect of mine fire-related PM2·5exposure changed from a negative effect in Round 1 to no effect in Round 2 for both pre-(p=0·005) and post-bronchodilator FVC (p=0·032). PM2·5was not associated with gas transfer in either round. For post-bronchodilator reactance and area under the curve, a negative impact of PM2·5in Round 1 showed signs of recovery in Round 2 (both p<0·001).ConclusionIn this novel study evaluating long-term respiratory outcomes after medium-duration high concentration PM2·5exposure, the attenuated associations between exposure and respiratory function may indicate some recovery in lung function. With increased frequency and severity of landscape fires observed globally, these results inform public health policies and planning.KEY MESSAGESEvidence is currently lacking on the long-term sequelae of high concentration PM2·5exposure, from extreme wildfire events lasting weeks to months, on lung physiology and function. We found that previously observed deficits in adult lung function, measured using spirometry, gas transfer and oscillometry 3.5 years after a prolonged coal mine fire, may recover in the longer-term. With increased frequency of prolonged landscape fires observed globally, these results inform public health policies and planning.