Particulate and ozone pollutant effects on the respiratory function of children in southwest Mexico City

Citation
Dr. Gold et al., Particulate and ozone pollutant effects on the respiratory function of children in southwest Mexico City, EPIDEMIOLOG, 10(1), 1999, pp. 8-16
Citations number
23
Categorie Soggetti
Envirnomentale Medicine & Public Health","Medical Research General Topics
Journal title
EPIDEMIOLOGY
ISSN journal
10443983 → ACNP
Volume
10
Issue
1
Year of publication
1999
Pages
8 - 16
Database
ISI
SICI code
1044-3983(199901)10:1<8:PAOPEO>2.0.ZU;2-H
Abstract
We assessed the contributions of particulate matter with aerodynamic diamet ers less than or equal to 10 and less than or equal to 2.5 mu m (PM2.5 and PM10) and ozone (O-3) to peak expiratory flow (PEF) and respiratory symptom s in 40 schoolchildren 8-11 years of age for 59 days during three periods i n 1991 at a school in southwest Mexico City. We measured peak expiratory fl ow in the morning on the children's arrival at school and in the afternoon before their departure from school. Separately for morning and afternoon, w e normalized each child's daily measurement of peak flow by subtracting his or her mean peak flow from the daily measurement. Child-specific deviation s were averaged to obtain a morning and afternoon mean deviation (Delta PEF ) for each day. Mean 24-hour O-3 level was 52 parts per billion (ppb; maxim um 103 ppb); mean 24-hour PM2.5 and PM10 were 30 mu g/m(3) (maximum 69 mu g /m(3)) and 49 mu g/m(3) (maximum 81 mu g/m(3)), respectively. We adjusted m oving average and polynomial distributed lag multiple regression analyses o f Delta PEF us pollution for minimum daily temperature, trend, and season. We examined effects of PM2.5, PM10, and O-3, on Delta PEF separately and in joint models. The models indicated a role for both particles and O-3 in th e reduction of peak expiratory flow, with shorter lags between exposure and reduction in peak expiratory flow for O-3 than for particle exposure (0-4 vs 4-7 days). The joint effect of 7 days of exposure to the interquartile r ange of PM2.5 (17 mu g/m(3)) and O-3 (25 ppb) predicted a 7.1% (95% confide nce interval = 11.0-3.9) reduction in morning peak expiratory flow. Polluta nt exposure also predicted higher rates of phlegm; colinearity between poll utants limited the potential to distinguish the relative contribution of in dividual pollutants. In an area with chronically high ambient O-3 levels, s chool children responded with reduced lung function to both O-3 and particu late exposures within the previous 1 to 2 weeks.