Recent versus chronic exposure to particulate matter air pollution in association with neurobehavioral performance in a panel study of primary schoolchildren

Children's neuropsychological abilities are in a developmental stage. Recent air pollution exposure and neurobehavioral performance are scarcely studied. In a panel study, we repeatedly administered to each child the following neurobehavioral tests: Stroop Test (selective attention) and Continu...

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Veröffentlicht in:	Environment international 2016-10, Vol.95, p.112-119
Hauptverfasser:	Saenen, Nelly D., Provost, Eline B., Viaene, Mineke K., Vanpoucke, Charlotte, Lefebvre, Wouter, Vrijens, Karen, Roels, Harry A., Nawrot, Tim S.
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Sprache:	eng
Schlagworte:	Air Pollutants Air Pollution Air Pollution, Indoor - adverse effects Air Pollution, Indoor - analysis Child Children Environmental Exposure - adverse effects Environmental Exposure - analysis Female Humans Male Memory, Short-Term - drug effects Neurobehavior Noise, Transportation Particulate matter Particulate Matter - administration & dosage Particulate Matter - adverse effects Particulate Matter - analysis Psychomotor Performance - drug effects Repeated measures Soot - administration & dosage Soot - adverse effects Soot - analysis Stroop Test
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container_title	Environment international
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description	Children's neuropsychological abilities are in a developmental stage. Recent air pollution exposure and neurobehavioral performance are scarcely studied. In a panel study, we repeatedly administered to each child the following neurobehavioral tests: Stroop Test (selective attention) and Continuous Performance Test (sustained attention), Digit Span Forward and Backward Tests (short-term memory), and Digit-Symbol and Pattern Comparison Tests (visual information processing speed). At school, recent inside classroom particulate matter ≤2.5 or 10μm exposure (PM2.5, PM10) was monitored on each examination day. At the child's residence, recent (same day up to 2days before) and chronic (365days before examination) exposures to PM2.5, PM10 and black carbon (BC) were modeled. Repeated neurobehavioral test performances (n=894) of the children (n=310) reflected slower Stroop Test (p=0.05) and Digit-Symbol Test (p=0.01) performances with increasing recent inside classroom PM2.5 exposure. An interquartile range (IQR) increment in recent residential outdoor PM2.5 exposure was associated with an increase in average latency of 0.087s (SE: ±0.034; p=0.01) in the Pattern Comparison Test. Regarding chronic exposure at residence, an IQR increment of PM2.5 exposure was associated with slower performances in the Continuous Performance (9.45±3.47msec; p=0.007) and Stroop Tests (59.9±26.5msec; p=0.02). Similar results were obtained for PM10 exposure. In essence, we showed differential neurobehavioral changes robustly and adversely associated with recent or chronic ambient exposure to PM air pollution at residence, i.e., with recent exposure for visual information processing speed (Pattern Comparison Test) and with chronic exposure for sustained and selective attention. •Recent particulate matter (PM) exposure and neurobehavior scarcely studied.•We conducted a panel study with repeated measurements in primary schoolchildren.•We explored effect-sizes between recent/chronic PM and neurobehavioral performance.•Recent PM exposure is inversely associated with visual information processing speed.•Chronic PM exposure is negatively associated with sustained and selective attention.
doi_str_mv	10.1016/j.envint.2016.07.014
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Recent air pollution exposure and neurobehavioral performance are scarcely studied. In a panel study, we repeatedly administered to each child the following neurobehavioral tests: Stroop Test (selective attention) and Continuous Performance Test (sustained attention), Digit Span Forward and Backward Tests (short-term memory), and Digit-Symbol and Pattern Comparison Tests (visual information processing speed). At school, recent inside classroom particulate matter ≤2.5 or 10μm exposure (PM2.5, PM10) was monitored on each examination day. At the child's residence, recent (same day up to 2days before) and chronic (365days before examination) exposures to PM2.5, PM10 and black carbon (BC) were modeled. Repeated neurobehavioral test performances (n=894) of the children (n=310) reflected slower Stroop Test (p=0.05) and Digit-Symbol Test (p=0.01) performances with increasing recent inside classroom PM2.5 exposure. An interquartile range (IQR) increment in recent residential outdoor PM2.5 exposure was associated with an increase in average latency of 0.087s (SE: ±0.034; p=0.01) in the Pattern Comparison Test. Regarding chronic exposure at residence, an IQR increment of PM2.5 exposure was associated with slower performances in the Continuous Performance (9.45±3.47msec; p=0.007) and Stroop Tests (59.9±26.5msec; p=0.02). Similar results were obtained for PM10 exposure. In essence, we showed differential neurobehavioral changes robustly and adversely associated with recent or chronic ambient exposure to PM air pollution at residence, i.e., with recent exposure for visual information processing speed (Pattern Comparison Test) and with chronic exposure for sustained and selective attention. •Recent particulate matter (PM) exposure and neurobehavior scarcely studied.•We conducted a panel study with repeated measurements in primary schoolchildren.•We explored effect-sizes between recent/chronic PM and neurobehavioral performance.•Recent PM exposure is inversely associated with visual information processing speed.•Chronic PM exposure is negatively associated with sustained and selective attention.</description><identifier>ISSN: 0160-4120</identifier><identifier>EISSN: 1873-6750</identifier><identifier>DOI: 10.1016/j.envint.2016.07.014</identifier><identifier>PMID: 27575366</identifier><language>eng</language><publisher>Netherlands: Elsevier Ltd</publisher><subject>Air Pollutants ; Air Pollution ; Air Pollution, Indoor - adverse effects ; Air Pollution, Indoor - analysis ; Child ; Children ; Environmental Exposure - adverse effects ; Environmental Exposure - analysis ; Female ; Humans ; Male ; Memory, Short-Term - drug effects ; Neurobehavior ; Noise, Transportation ; Particulate matter ; Particulate Matter - administration & dosage ; Particulate Matter - adverse effects ; Particulate Matter - analysis ; Psychomotor Performance - drug effects ; Repeated measures ; Soot - administration & dosage ; Soot - adverse effects ; Soot - analysis ; Stroop Test</subject><ispartof>Environment international, 2016-10, Vol.95, p.112-119</ispartof><rights>2016</rights><rights>Copyright © 2016. 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An interquartile range (IQR) increment in recent residential outdoor PM2.5 exposure was associated with an increase in average latency of 0.087s (SE: ±0.034; p=0.01) in the Pattern Comparison Test. Regarding chronic exposure at residence, an IQR increment of PM2.5 exposure was associated with slower performances in the Continuous Performance (9.45±3.47msec; p=0.007) and Stroop Tests (59.9±26.5msec; p=0.02). Similar results were obtained for PM10 exposure. 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Recent air pollution exposure and neurobehavioral performance are scarcely studied. In a panel study, we repeatedly administered to each child the following neurobehavioral tests: Stroop Test (selective attention) and Continuous Performance Test (sustained attention), Digit Span Forward and Backward Tests (short-term memory), and Digit-Symbol and Pattern Comparison Tests (visual information processing speed). At school, recent inside classroom particulate matter ≤2.5 or 10μm exposure (PM2.5, PM10) was monitored on each examination day. At the child's residence, recent (same day up to 2days before) and chronic (365days before examination) exposures to PM2.5, PM10 and black carbon (BC) were modeled. Repeated neurobehavioral test performances (n=894) of the children (n=310) reflected slower Stroop Test (p=0.05) and Digit-Symbol Test (p=0.01) performances with increasing recent inside classroom PM2.5 exposure. An interquartile range (IQR) increment in recent residential outdoor PM2.5 exposure was associated with an increase in average latency of 0.087s (SE: ±0.034; p=0.01) in the Pattern Comparison Test. Regarding chronic exposure at residence, an IQR increment of PM2.5 exposure was associated with slower performances in the Continuous Performance (9.45±3.47msec; p=0.007) and Stroop Tests (59.9±26.5msec; p=0.02). Similar results were obtained for PM10 exposure. 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subjects	Air Pollutants Air Pollution Air Pollution, Indoor - adverse effects Air Pollution, Indoor - analysis Child Children Environmental Exposure - adverse effects Environmental Exposure - analysis Female Humans Male Memory, Short-Term - drug effects Neurobehavior Noise, Transportation Particulate matter Particulate Matter - administration & dosage Particulate Matter - adverse effects Particulate Matter - analysis Psychomotor Performance - drug effects Repeated measures Soot - administration & dosage Soot - adverse effects Soot - analysis Stroop Test
title	Recent versus chronic exposure to particulate matter air pollution in association with neurobehavioral performance in a panel study of primary schoolchildren
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