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Prenatal Household Air Pollution is Associated with Impaired Infant Lung Function with Sex-Specific Effects: Evidence from GRAPHS, a Cluster Randomized Cookstove Intervention Trial.
American Journal of Respiratory and Critical Care Medicine 2018 September 27
RATIONALE: Approximately 2.8 billion people are exposed daily to household air pollution from polluting cookstoves. The effects of prenatal household air pollution on lung development are unknown.
OBJECTIVES: We prospectively examined associations between prenatal household air pollution and infant lung function and pneumonia in rural Ghana.
METHODS: Prenatal household air pollution exposure was indexed by serial maternal carbon monoxide personal exposure measurements. Using linear regression, we examined associations between average prenatal carbon monoxide and infant lung function at age 30 days, first in the entire cohort (N=384) and then stratified by sex. Quasi-Poisson generalized additive models explored associations between infant lung function and pneumonia.
MEASUREMENTS AND MAIN RESULTS: Multivariable linear regression models showed that average prenatal carbon monoxide exposure was associated with reduced time to peak tidal expiratory flow to expiratory time (β = -0.004, p=0.01), increased respiratory rate (β = 0.28, p=0.01), and increased minute ventilation (β = 7.21, p=0.05), considered separately, per 1ppm increase in average prenatal carbon monoxide. Sex-stratified analyses suggested that girls were particularly vulnerable (time to peak tidal expiratory flow to expiratory time β=-0.003, p=0.05, respiratory rate β=0.36, p=0.01, minute ventilation β=11.25, p=0.01, and passive respiratory compliance normalized for body weight β=0.005, p=0.01). Increased respiratory rate at age 30 days was associated with increased risk for physician-assessed pneumonia (RR 1.02, 95% CI 1.00-1.04) and severe pneumonia (RR 1.04, 95% CI 1.00-1.08) in the first year of life.
CONCLUSIONS: Increased prenatal household air pollution exposure is associated with impaired infant lung function. Altered infant lung function may increase risk for pneumonia in the first year of life. These findings have implications for future respiratory health.
OBJECTIVES: We prospectively examined associations between prenatal household air pollution and infant lung function and pneumonia in rural Ghana.
METHODS: Prenatal household air pollution exposure was indexed by serial maternal carbon monoxide personal exposure measurements. Using linear regression, we examined associations between average prenatal carbon monoxide and infant lung function at age 30 days, first in the entire cohort (N=384) and then stratified by sex. Quasi-Poisson generalized additive models explored associations between infant lung function and pneumonia.
MEASUREMENTS AND MAIN RESULTS: Multivariable linear regression models showed that average prenatal carbon monoxide exposure was associated with reduced time to peak tidal expiratory flow to expiratory time (β = -0.004, p=0.01), increased respiratory rate (β = 0.28, p=0.01), and increased minute ventilation (β = 7.21, p=0.05), considered separately, per 1ppm increase in average prenatal carbon monoxide. Sex-stratified analyses suggested that girls were particularly vulnerable (time to peak tidal expiratory flow to expiratory time β=-0.003, p=0.05, respiratory rate β=0.36, p=0.01, minute ventilation β=11.25, p=0.01, and passive respiratory compliance normalized for body weight β=0.005, p=0.01). Increased respiratory rate at age 30 days was associated with increased risk for physician-assessed pneumonia (RR 1.02, 95% CI 1.00-1.04) and severe pneumonia (RR 1.04, 95% CI 1.00-1.08) in the first year of life.
CONCLUSIONS: Increased prenatal household air pollution exposure is associated with impaired infant lung function. Altered infant lung function may increase risk for pneumonia in the first year of life. These findings have implications for future respiratory health.
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