FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2469836583> ?p ?o ?g. }

• W2469836583 endingPage "70" @default.
• W2469836583 startingPage "60" @default.
• W2469836583 abstract "Traffic-related air pollution exposure may influence brain development and function and thus be related to neurobehavioral problems in children, but little is known about windows of susceptibility.Examine associations of gestational and childhood exposure to traffic-related pollution with executive function and behavior problems in children.We studied associations of pre- and postnatal pollution exposures with neurobehavioral outcomes in 1212 children in the Project Viva pre-birth cohort followed to mid-childhood (median age 7.7years). Parents and classroom teachers completed the Behavior Rating Inventory of Executive Function (BRIEF) and the Strengths and Difficulties Questionnaire (SDQ). Using validated spatiotemporal models, we estimated exposure to black carbon (BC) and fine particulate matter (PM2.5) in the third trimester of pregnancy, from birth to 3years, from birth to 6years, and in the year before behavioral ratings. We also measured residential distance to major roadways and near-residence traffic density at birth and in mid-childhood. We estimated associations of BC, PM2.5, and other traffic exposure measures with BRIEF and SDQ scores, adjusted for potential confounders.Higher childhood BC exposure was associated with higher teacher-rated BRIEF Behavioral Regulation Index (BRI) scores, indicating greater problems: 1.0 points (95% confidence interval (CI): 0.0, 2.1) per interquartile range (IQR) increase in birth-age 6BC, and 1.7 points (95% CI: 0.6, 2.8) for BC in the year prior to behavioral ratings. Mid-childhood residential traffic density was also associated with BRI score (0.6, 95% CI: 0.1, 1.1). Birth-age 3BC was not associated with BRIEF or SDQ scores. Third trimester BC exposure was not associated with teacher-rated BRI scores (-0.2, 95% CI: -1.1, 0.8), and predicted lower scores (fewer problems) on the BRIEF Metacognition Index (-1.2, 95% CI: -2.2, -0.2) and SDQ total difficulties (-0.9, 95% CI: -1.4, -0.4). PM2.5 exposure was associated with teacher-rated BRIEF and SDQ scores in minimally adjusted models but associations attenuated with covariate adjustment. None of the parent-rated outcomes suggested adverse effects of greater pollution exposure at any time point.Children with higher mid-childhood exposure to BC and greater near-residence traffic density in mid-childhood had greater problems with behavioral regulation as assessed by classroom teachers, but not as assessed by parents. Prenatal and early childhood exposure to traffic-related pollution did not predict greater executive function or behavior problems; third trimester BC was associated with lower scores (representing fewer problems) on measures of metacognition and behavioral problems." @default.
• W2469836583 created "2016-07-22" @default.
• W2469836583 creator A5001456321 @default.
• W2469836583 creator A5011530980 @default.
• W2469836583 creator A5012005963 @default.
• W2469836583 creator A5030667666 @default.
• W2469836583 creator A5031058330 @default.
• W2469836583 creator A5045303930 @default.
• W2469836583 creator A5046557560 @default.
• W2469836583 creator A5062504375 @default.
• W2469836583 creator A5062911071 @default.
• W2469836583 creator A5064827852 @default.
• W2469836583 creator A5064846814 @default.
• W2469836583 creator A5065934506 @default.
• W2469836583 creator A5067313286 @default.
• W2469836583 creator A5076094247 @default.
• W2469836583 creator A5077350027 @default.
• W2469836583 creator A5079107220 @default.
• W2469836583 date "2016-09-01" @default.
• W2469836583 modified "2023-10-14" @default.
• W2469836583 title "Prenatal and childhood traffic-related air pollution exposure and childhood executive function and behavior" @default.
• W2469836583 cites W1544873741 @default.
• W2469836583 cites W1653360437 @default.
• W2469836583 cites W1658932340 @default.
• W2469836583 cites W1899193005 @default.
• W2469836583 cites W1903457033 @default.
• W2469836583 cites W1972924751 @default.
• W2469836583 cites W1988321361 @default.
• W2469836583 cites W1997908919 @default.
• W2469836583 cites W2002869598 @default.
• W2469836583 cites W2008398629 @default.
• W2469836583 cites W2010453317 @default.
• W2469836583 cites W2014671803 @default.
• W2469836583 cites W2025128905 @default.
• W2469836583 cites W2025802167 @default.
• W2469836583 cites W2031009551 @default.
• W2469836583 cites W2035599443 @default.
• W2469836583 cites W2046925648 @default.
• W2469836583 cites W2050639240 @default.
• W2469836583 cites W2051700498 @default.
• W2469836583 cites W2066348236 @default.
• W2469836583 cites W2074657597 @default.
• W2469836583 cites W2078706344 @default.
• W2469836583 cites W2078732381 @default.
• W2469836583 cites W2082117755 @default.
• W2469836583 cites W2091169576 @default.
• W2469836583 cites W2092294529 @default.
• W2469836583 cites W2098063426 @default.
• W2469836583 cites W2100770662 @default.
• W2469836583 cites W2102923534 @default.
• W2469836583 cites W2111854344 @default.
• W2469836583 cites W2112285262 @default.
• W2469836583 cites W2124697836 @default.
• W2469836583 cites W2128437801 @default.
• W2469836583 cites W2130464298 @default.
• W2469836583 cites W2132989726 @default.
• W2469836583 cites W2133001678 @default.
• W2469836583 cites W2133862271 @default.
• W2469836583 cites W2134843796 @default.
• W2469836583 cites W2145872936 @default.
• W2469836583 cites W2148228932 @default.
• W2469836583 cites W2148390728 @default.
• W2469836583 cites W2155055838 @default.
• W2469836583 cites W2158305156 @default.
• W2469836583 cites W2316257305 @default.
• W2469836583 cites W2319339135 @default.
• W2469836583 cites W2326368503 @default.
• W2469836583 cites W2344772925 @default.
• W2469836583 doi "https://doi.org/10.1016/j.ntt.2016.06.008" @default.
• W2469836583 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/5056808" @default.
• W2469836583 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/27350569" @default.
• W2469836583 hasPublicationYear "2016" @default.
• W2469836583 type Work @default.
• W2469836583 sameAs 2469836583 @default.
• W2469836583 citedByCount "64" @default.
• W2469836583 countsByYear W24698365832016 @default.
• W2469836583 countsByYear W24698365832017 @default.
• W2469836583 countsByYear W24698365832018 @default.
• W2469836583 countsByYear W24698365832019 @default.
• W2469836583 countsByYear W24698365832020 @default.
• W2469836583 countsByYear W24698365832021 @default.
• W2469836583 countsByYear W24698365832022 @default.
• W2469836583 countsByYear W24698365832023 @default.
• W2469836583 crossrefType "journal-article" @default.
• W2469836583 hasAuthorship W2469836583A5001456321 @default.
• W2469836583 hasAuthorship W2469836583A5011530980 @default.
• W2469836583 hasAuthorship W2469836583A5012005963 @default.
• W2469836583 hasAuthorship W2469836583A5030667666 @default.
• W2469836583 hasAuthorship W2469836583A5031058330 @default.
• W2469836583 hasAuthorship W2469836583A5045303930 @default.
• W2469836583 hasAuthorship W2469836583A5046557560 @default.
• W2469836583 hasAuthorship W2469836583A5062504375 @default.
• W2469836583 hasAuthorship W2469836583A5062911071 @default.
• W2469836583 hasAuthorship W2469836583A5064827852 @default.
• W2469836583 hasAuthorship W2469836583A5064846814 @default.
• W2469836583 hasAuthorship W2469836583A5065934506 @default.
• W2469836583 hasAuthorship W2469836583A5067313286 @default.
• W2469836583 hasAuthorship W2469836583A5076094247 @default.

• next