BACKGROUND: Air pollution has been associated with respiratory health effects. There is little direct evidence that reductions in air pollution related to abatement policies lead to actual improvement in respiratory health. We assessed whether a reduction in (traffic policy-related) air pollution concentrations was associated with changes in respiratory health. METHODS: Air pollution concentrations and respiratory health were measured in 2008 and 2010 at eight busy urban streets and at four suburban background control locations. Respiratory function was assessed twice in 661 residents by spirometry and measurements of airway resistance. Nitric oxide (NO) in exhaled air was measured as a marker for airway inflammation. RESULTS: Air pollution concentrations were lower in 2010 than in 2008. The declines in pollutants varied among locations, with the largest decline observed in a street with a large reduction in traffic intensity. In regression analyses adjusted for important covariates, reductions in concentrations of soot, NO2, NOx, Cu, and Fe were associated with increases in forced vital capacity (FVC) (∼1% increase per interquartile range [IQR] decline). Airway resistance decreased with a decline in particulate matter (PM10) and PM2.5 (9% per IQR), although these associations were somewhat less consistent. No associations were found with exhaled NO. Results were driven largely by one street where traffic-related air pollution showed the largest reduction. Forced expiratory volume and FVC improved by 3% to 6% in residents of this street compared with suburban background residents. This was accompanied by a suggestive reduction in airway resistance. CONCLUSIONS: Reductions in air pollution may lead to small improvements in respiratory function.
BACKGROUND: Air pollution has been associated with respiratory health effects. There is little direct evidence that reductions in air pollution related to abatement policies lead to actual improvement in respiratory health. We assessed whether a reduction in (traffic policy-related) air pollution concentrations was associated with changes in respiratory health. METHODS: Air pollution concentrations and respiratory health were measured in 2008 and 2010 at eight busy urban streets and at four suburban background control locations. Respiratory function was assessed twice in 661 residents by spirometry and measurements of airway resistance. Nitric oxide (NO) in exhaled air was measured as a marker for airway inflammation. RESULTS: Air pollution concentrations were lower in 2010 than in 2008. The declines in pollutants varied among locations, with the largest decline observed in a street with a large reduction in traffic intensity. In regression analyses adjusted for important covariates, reductions in concentrations of soot, NO2, NOx, Cu, and Fe were associated with increases in forced vital capacity (FVC) (∼1% increase per interquartile range [IQR] decline). Airway resistance decreased with a decline in particulate matter (PM10) and PM2.5 (9% per IQR), although these associations were somewhat less consistent. No associations were found with exhaled NO. Results were driven largely by one street where traffic-related air pollution showed the largest reduction. Forced expiratory volume and FVC improved by 3% to 6% in residents of this street compared with suburban background residents. This was accompanied by a suggestive reduction in airway resistance. CONCLUSIONS: Reductions in air pollution may lead to small improvements in respiratory function.
Authors: Jacob Burns; Hanna Boogaard; Stephanie Polus; Lisa M Pfadenhauer; Anke C Rohwer; Annemoon M van Erp; Ruth Turley; Eva Rehfuess Journal: Cochrane Database Syst Rev Date: 2019-05-20
Authors: Ubiratan Paula Santos; Maria Lúcia Siqueira Bueno Garcia; Alfésio Luís Ferreira Braga; Luiz Alberto Amador Pereira; Chin An Lin; Paulo Afonso de André; Carmen Diva Saldiva de André; Julio da Motta Singer; Paulo Hilário Nascimento Saldiva Journal: PLoS One Date: 2016-10-06 Impact factor: 3.240
Authors: Maribel Parra-Saldías; Jose Castro-Piñero; Antonio Castillo Paredes; Ximena Palma Leal; Ximena Díaz Martínez; Fernando Rodríguez-Rodríguez Journal: Int J Environ Res Public Health Date: 2018-12-26 Impact factor: 3.390