Respiratory function declines in children with asthma associated with chemical species of fine particulate matter (PM2.5) in Nagasaki, Japan

Kim, Yoonhee; Park, Eun Ha; Ng, Chris Fook Sheng; Chung, Yeonseung; Hashimoto, Kunio; Tashiro, Kasumi; Hasunuma, Hideki; Doi, Mami; Tamura, Kazutoshi; Moriuchi, Hiroyuki; Nishiwaki, Yuji; Kim, Hwajin; Yi, Seung‐Muk; Kim, Ho; Hashizume, Masahiro

doi:10.21203/rs.3.rs-618954/v1

Cited by 1 publication

(1 citation statement)

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“…In addition, since our cohort was of moderate size and longitudinal follow up was not available on all participants due COVID-19 pandemic related study disruptions, power to detect associations between exposures and asthma outcomes was reduced, particularly for exposures with high proportions of measurements below the LOD. Additionally, although our assessment of PM was limited to PM10 in order to collect sufficient sample for constituent analyses, we acknowledge a likely role for PM2.5 (particles less than 2.5 microns in diameter) exposures in driving asthma outcomes, as has been reported 70,[100][101][102] .…”

Section: Discussionmentioning

confidence: 99%

Breathing zone pollutant levels are associated with asthma exacerbations in high-risk children

Moore,

Thornburg,

Secor

et al. 2023

Preprint

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Background: Indoor and outdoor air pollution levels are associated with poor asthma outcomes in children. However, few studies have evaluated whether breathing zone pollutant levels associate with asthma outcomes. Objective: Determine breathing zone exposure levels of NO2, O3, total PM10 and PM10 constituents among children with exacerbation-prone asthma, and examine correspondence with in-home and community measurements and associations with outcomes. Methods: We assessed children's personal breathing zone exposures using wearable monitors. Personal exposures were compared to in-home and community measurements and tested for association with lung function, asthma control, and asthma exacerbations. Results: 81 children completed 219 monitoring sessions. Correlations between personal and community levels of PM10, NO2, and O3 were poor, whereas personal PM10 and NO2 levels correlated with in-home measurements. However, in-home monitoring underdetected brown carbon (Personal:79%, Home:36.8%) and ETS (Personal:83.7%, Home:4.1%) personal exposures, and detected black carbon in participants without these personal exposures (Personal: 26.5%, Home: 96%). Personal exposures were not associated with lung function or asthma control. Children experiencing an asthma exacerbation within 60 days of personal exposure monitoring had 1.98, 2.21 and 2.04 times higher brown carbon (p<0.001), ETS (p=0.007), and endotoxin (p=0.012), respectively. These outcomes were not associated with community or in-home exposure levels. Conclusions: Monitoring pollutant levels in the breathing zone is essential to understand how exposures influence asthma outcomes, as agreement between personal and in-home monitors is limited. Inhaled exposure to PM10 constituents modifies asthma exacerbation risk, suggesting efforts to limit these exposures among high-risk children may decrease their asthma burden.

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Section: Discussionmentioning

confidence: 99%