资源环境科技发展态势分析平台

Background:

Schools are often located near traffic sources, leading to high levels of exposure to traffic-related air pollutants, including black carbon (BC). Thus, the school environment could play in a significant role in the adverse respiratory health of children.

Objectives:

Our objective was to determine associations between personal BC levels at school and airway inflammation [i.e., fractional exhaled nitric oxide (FeNO)] in school-age children. We hypothesized that higher school BC (SBC) would be associated with higher FeNO.

Methods:

Children 9–14 years of age in New York City (NYC) ($n=114$) wore BC monitors for two 24-h periods over a 6-d sampling period, repeated 6 months later. SBC was defined as the average personal BC concentrations measured during NYC school hours (i.e., 0830–1430 hours). FeNO was measured following each 24-h BC monitoring period. Multivariable linear regression in generalized estimating equation models were used to examine associations between SBC and FeNO. Results are presented as percentage difference (PD) in FeNO.

Results:

Personal BC at school was associated with higher FeNO ($\text{PD}=7.47\%$ higher FeNO per $1\text{-}{\mathrm{\mu }\mathrm{g}/\mathrm{m}}^3$ BC (95% CI: 1.31, 13.9), $p=0.02$]. Compared with BC exposure during school, a smaller PD in FeNO was observed in association with BC exposure while commuting to and from school [$\text{PD}=6.82\%$ (95% CI: 0.70, 13.3), $p=0.03$]. Personal BC in non-school environments and residential BC were not associated with FeNO ($p>0.05$). A significant association between personal BC at school and FeNO was observed among children with seroatopy who did not have asthma [$\text{PD}=21.5\%$ (95% CI: 4.81, 40.9), $p=0.01$].

Discussion:

Schools may be important sources of BC exposure that contribute to airway inflammation in school-age children. Our results provide rationale for interventions that target improved air quality in urban schools and classrooms. https://doi.org/10.1289/EHP8985