{Reference Type}: Journal Article
{Title}: Clinical and inflammatory features of traffic-related diesel exposure in children with asthma.
{Author}: Fitzpatrick AM;Mohammad AF;Desher K;Mutic AD;Stephenson ST;Dallalio GA;Grunwell JR;
{Journal}: Ann Allergy Asthma Immunol
{Volume}: 0
{Issue}: 0
{Year}: 2024 Jul 27
{Factor}: 6.248
{DOI}: 10.1016/j.anai.2024.07.019
{Abstract}: BACKGROUND: Epidemiologic studies have revealed associations between traffic-related pollutants such as diesel particulate matter (PM) and asthma outcomes in children, but the inflammatory features associated with diesel PM exposure in children with asthma are not understood.
OBJECTIVE: To evaluate symptoms, exacerbations, and lung function measures in children with uncontrolled asthma and their associations with residential proximity to major roadways and to determine associations between diesel PM exposure and systemic inflammatory cytokines, circulating markers of T-cell activation and exhaustion, and metabolomic features using biomarker studies.
METHODS: Children 5 to 17 years of age with physician-diagnosed, uncontrolled asthma despite treatment with an asthma controller medication completed a research visit involving questionnaires, lung function testing, and venipuncture for biomarker studies. Geocoding was performed to quantify residential proximity to major roadways and pollutant exposure.
RESULTS: A total of 447 children with uncontrolled asthma were enrolled. Children living closer to highly trafficked roadways were more disadvantaged and had more exposure to diesel PM, more exacerbations prompting an emergency department visit, and lower lung function measures. Children with the highest diesel PM exposure, compared with children with the lowest diesel PM exposure, also had blunted cytokine secretion and evidence of T-cell exhaustion, including disturbances in several metabolites associated with glutathione formation and oxidative stress.
CONCLUSIONS: Traffic-related diesel PM exposure in children with poorly controlled asthma is associated with poorer clinical outcomes and unique patterns of inflammation and oxidative stress. These findings argue for continued mitigation efforts to improve traffic-related air quality and health equity in children with asthma.