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Arsenic exposure alters lung function and airway inflammation in children: A cohort study in rural Bangladesh
AbstractExposure to arsenic has been associated with increased risk of reduced lung function in adults, but the adverse impacts in early life are unclear. We aim to examine whether prenatal and childhood arsenic exposure is associated with reduced lung function and increased airway inflammation in school-aged children. Children born in the MINIMat cohort in rural Bangladesh were evaluated at 9years of age (n=540). Arsenic exposure was assessed in urine (U-As) that was collected from mothers during early pregnancy and their children aged 4.5 and 9years. In the 9-year-old children, lung function was assessed using spirometry and airway inflammation was assessed by the NIOX MINO system. C-reactive protein (CRP) and Clara cell secretory protein (CC16) concentrations were measured in plasma by immunoassays. The U-As concentrations in 9-year-old children were lower (median 53μg/l) compared to their mothers (median 76μg/l). Maternal U-As (log2 transformed) was inversely associated with forced vital capacity (FVC) and forced expiratory volume at 1s (FEV1) (β=−12; 95% CI: −22, −1.5; p=0.031 and β=−12; 95% CI: −22, −1.9; p=0.023, respectively) in all children, and the associations were stronger in boys and among children with adequate height and weight, as well as among those whose mothers had higher percentages of methylarsonic acid (MMA) and lower percentages of dimethylarsinic acid (DMA). U-As (log2 transformed) at 4.5 and 9years was positively associated with fractional exhaled nitric oxide (FENO) concentrations in boys (β=0.89; 95% CI: 0.13, 1.66; p=0.022 and β=0.88; 95% CI: 0.16, 1.61; p=0.017, respectively) but not in girls. Increased CC16 concentrations were associated with higher lung function indices. In conclusion, our findings suggest that prenatal arsenic exposure is related to impaired lung function, while childhood exposure may increase airway inflammation, particularly in boys.
HighlightsPrenatal arsenic exposure tends to reduce lung function in older children.Childhood arsenic exposure is associated with increased airway inflammation.Stronger associations are noted in boys compared to girls.
Arsenic exposure alters lung function and airway inflammation in children: A cohort study in rural Bangladesh
AbstractExposure to arsenic has been associated with increased risk of reduced lung function in adults, but the adverse impacts in early life are unclear. We aim to examine whether prenatal and childhood arsenic exposure is associated with reduced lung function and increased airway inflammation in school-aged children. Children born in the MINIMat cohort in rural Bangladesh were evaluated at 9years of age (n=540). Arsenic exposure was assessed in urine (U-As) that was collected from mothers during early pregnancy and their children aged 4.5 and 9years. In the 9-year-old children, lung function was assessed using spirometry and airway inflammation was assessed by the NIOX MINO system. C-reactive protein (CRP) and Clara cell secretory protein (CC16) concentrations were measured in plasma by immunoassays. The U-As concentrations in 9-year-old children were lower (median 53μg/l) compared to their mothers (median 76μg/l). Maternal U-As (log2 transformed) was inversely associated with forced vital capacity (FVC) and forced expiratory volume at 1s (FEV1) (β=−12; 95% CI: −22, −1.5; p=0.031 and β=−12; 95% CI: −22, −1.9; p=0.023, respectively) in all children, and the associations were stronger in boys and among children with adequate height and weight, as well as among those whose mothers had higher percentages of methylarsonic acid (MMA) and lower percentages of dimethylarsinic acid (DMA). U-As (log2 transformed) at 4.5 and 9years was positively associated with fractional exhaled nitric oxide (FENO) concentrations in boys (β=0.89; 95% CI: 0.13, 1.66; p=0.022 and β=0.88; 95% CI: 0.16, 1.61; p=0.017, respectively) but not in girls. Increased CC16 concentrations were associated with higher lung function indices. In conclusion, our findings suggest that prenatal arsenic exposure is related to impaired lung function, while childhood exposure may increase airway inflammation, particularly in boys.
HighlightsPrenatal arsenic exposure tends to reduce lung function in older children.Childhood arsenic exposure is associated with increased airway inflammation.Stronger associations are noted in boys compared to girls.
Arsenic exposure alters lung function and airway inflammation in children: A cohort study in rural Bangladesh
Ahmed, Sultan (author) / Akhtar, Evana (author) / Roy, Adity (author) / von Ehrenstein, Ondine S. (author) / Vahter, Marie (author) / Wagatsuma, Yukiko (author) / Raqib, Rubhana (author)
Environmental International ; 101 ; 108-116
2017-01-18
9 pages
Article (Journal)
Electronic Resource
English
Prenatal exposure to arsenic and lung function in children from the New Hampshire Birth Cohort Study
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