Development of an environmental health tool linking chemical exposures, physical location and lung function

Rohlman, Diana; Dixon, Holly M.; Kincl, Laurel; Larkin, Andrew; Evoy, Richard; Barton, Michael; Phillips, Aaron; Peterson, Elena S.; Scaffidi, Christopher; Herbstman, Julie B.; Waters, Katrina M.; Anderson, Kim A.

doi:10.1186/s12889-019-7217-z

Cited by 25 publications

(28 citation statements)

References 64 publications

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Section: Discussionmentioning

confidence: 99%

“…Spirometry is often used to evaluate lung physiology instead of X-rays and CAT scans because it can detect abnormalities in lung function even when no signs or symptoms of a disease are evident. When assessing lung function and the potential effects of environmental exposures, spirometry generates multiple parameters for comparison [ 19 , 20 , 21 ]. The main values utilized from spirometry assessments include, but are not limited to, FEV 1 (forced expiratory volume in the first second), FVC (forced vital capacity), and PEF (peak expiratory flow).…”

Section: Discussionmentioning

confidence: 99%

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Sustained Effects on Lung Function in Community Members Following Exposure to Hazardous PM2.5 Levels from Wildfire Smoke

Orr

Buford

Ballou

et al. 2020

Toxics

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Extreme wildfire events are becoming more common and while the immediate risks of particulate exposures to susceptible populations (i.e., elderly, asthmatics) are appreciated, the long-term health effects are not known. In 2017, the Seeley Lake (SL), MT area experienced unprecedented levels of wildfire smoke from July 31 to September 18, with a daily average of 220.9 μg/m3. The aim of this study was to conduct health assessments in the community and evaluate potential adverse health effects. The study resulted in the recruitment of a cohort (n = 95, average age: 63 years), for a rapid response screening activity following the wildland fire event, and two follow-up visits in 2018 and 2019. Analysis of spirometry data found a significant decrease in lung function (FEV1/FVC ratio: forced expiratory volume in first second/forced vital capacity) and a more than doubling of participants that fell below the lower limit of normal (10.2% in 2017 to 45.9% in 2018) one year following the wildfire event, and remained decreased two years (33.9%) post exposure. In addition, observed FEV1 was significantly lower than predicted values. These findings suggest that wildfire smoke can have long-lasting effects on human health. As wildfires continue to increase both here and globally, understanding the health implications is vital to understanding the respiratory impacts of these events as well as developing public health strategies to mitigate the effects.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Sustained Effects on Lung Function in Community Members Following Exposure to Hazardous PM2.5 Levels from Wildfire Smoke

Orr

Buford

Ballou

et al. 2020

Toxics

View full text Add to dashboard Cite

show abstract

“…Spirometry is often used to evaluate lung physiology instead of x-rays and CAT scans because it can detect abnormalities in lung function even when no signs or symptoms of a disease are evident. When assessing lung function and the potential effects of environmental exposures, spirometry generates multiple parameters for comparison (22)(23)(24). The main values utilized from spirometry assessments include, but are not limited to, FEV 1 (forced expiratory volume one-second), FEV 6 (forced volume six-seconds), FVC (forced vital capacity), and PEF (peak expiratory ow).…”

Section: Discussionmentioning

confidence: 99%

Sustained Effects on Lung Function in Community Members Following Exposure to Hazardous PM2.5 Levels from Wildfire Smoke

Orr

Buford

Dykstra

et al. 2020

Preprint

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Background: Extreme wildfire events are becoming more common and while the immediate risks to susceptible populations (i.e. elderly, asthmatics) are appreciated, the long-term health effects are not known. Historically, wildfire smoke exposure studies have consisted almost exclusively of retroactive health reports, including emergency department visits, hospital admissions, provider visits with emphasis on specific ICD codes. In 2017, the Seeley Lake, MT area experienced unprecedented levels of wildfire smoke from July 31 to September 18, with a daily average of 220.9 mg/m3. The aim of this study was to provide health assessments in the community as temporally close to the fires as possible and evaluate potential adverse health effects with multiple visits over two years. Additionally, the members of the community of Thompson Falls, MT were evaluated in 2018 as a comparison, due to their Northern Rockies location and 5-fold less smoke exposure during the same time period.Methods: Using the IPHARM (Improving Health Among Rural Montanans) infrastructure and experience to perform mobile health screenings, the Seeley Lake community was visited following the fires. The study resulted in the recruitment of a cohort (n=95, average age: 63 years), for a rapid response screening activity shortly following the wildland fire event, and two follow-up visits in 2018 and 2019. Results: The community experienced 35 of 49 days with >150 mg/m3 of PM2.5 which fell within the range of the Environmental Protection Agency designation of “very unhealthy”. Analysis of spirometry data found a significant decrease in lung function (FEV1/FVC ratio: forced expiratory volume in first second/forced vital capacity) and a more than doubling of participants that fell below the lower limit of normal (13.2% in 2017 to 41.7% in 2018) one year following the wildfire event, and remained decreased two years (35.9%) post exposure. In addition, observed FEV1 was significantly lower than predicted values. Conclusion: These findings suggest that wildfire smoke can have long-lasting effects on human health. As wildfires continue to increase both here and globally, understanding the health implications is vital to understanding the respiratory impacts of these events as well as developing public health strategies to mitigate the effects.

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“…Study participants can wear these samplers as a wristband, lapel, dog tag, or other configuration ( Dixon et al 2020 ; O'Connell et al 2014; Poutasse et al 2020 ). Since silicone wearables were first reported on in 2014, they have been used in over 30 exposure assessment studies and have been worn by thousands of people on six continents ( Bullock et al, 2020 , Craig et al, 2019 , De Vecchi et al, 2019 , Dixon et al, 2020 , Hammel et al, 2020 , Hendryx et al, 2020 , Reche et al, 2020 , Reddam et al, 2020 , Rohlman et al, 2019 ; Wang et al 2019a; Wang et al 2019b; Wise et al, 2020 , Zuy et al, 2020 ). Silicone wearables are passive sampling devices, which sequester the fraction of chemicals that are available to transport across cellular membranes ( Anderson and Hillwalker 2008 ; O'Connell et al 2014).…”

Section: Introductionmentioning

confidence: 99%

Evaluating predictive relationships between wristbands and urine for assessment of personal PAH exposure

Dixon

Bramer

Scott

et al. 2022

Environment International

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Development of an environmental health tool linking chemical exposures, physical location and lung function

Cited by 25 publications

References 64 publications

Sustained Effects on Lung Function in Community Members Following Exposure to Hazardous PM2.5 Levels from Wildfire Smoke

Sustained Effects on Lung Function in Community Members Following Exposure to Hazardous PM2.5 Levels from Wildfire Smoke

Sustained Effects on Lung Function in Community Members Following Exposure to Hazardous PM2.5 Levels from Wildfire Smoke

Evaluating predictive relationships between wristbands and urine for assessment of personal PAH exposure

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