Particulate air pollution and panel studies in children: a systematic review

Background: Panel studies have been used to investigate the short term effects of outdoor particulate air pollution across a wide range of environmental settings. Aims: To systematically review the results of such studies in children, estimate summary measures of effect, and investigate potential so...

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Published inOccupational and environmental medicine (London, England) Vol. 61; no. 4; p. e13
Main Authors Ward, D J, Ayres, J G
Format Journal Article
LanguageEnglish
Published England BMJ Publishing Group Ltd 01.04.2004
BMJ Publishing Group LTD
BMJ Group
Subjects
Air Pollutants - analysis
Air Pollutants - toxicity
Air pollution
Asthma
Bias
Child
childhood asthma
Children & youth
Clinical trials
Electronic Paper
Environmental conditions
Estimates
fixed effects
GEE
generalised estimating equations
Heterogeneity
Humans
Hypothesis testing
odds ratio
Outdoor air quality
Ozone
panel study
Particle Size
particulate air pollution
Particulate matter
particulate strong acidity
peak expiratory flow
Peak Expiratory Flow Rate - physiology
PEF
PSA
random effects
Respiration Disorders - etiology
Respiration Disorders - physiopathology
Studies
Time series
Online AccessGet full text
ISSN1351-0711
1470-7926
1470-7926
DOI10.1136/oem.2003.007088

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Abstract Background: Panel studies have been used to investigate the short term effects of outdoor particulate air pollution across a wide range of environmental settings. Aims: To systematically review the results of such studies in children, estimate summary measures of effect, and investigate potential sources of heterogeneity. Methods: Studies were identified by searching electronic databases to June 2002, including those where outcomes and particulate level measurements were made at least daily for ⩾8 weeks, and analysed using an appropriate regression model. Study results were compared using forest plots, and fixed and random effects summary effect estimates obtained. Publication bias was considered using a funnel plot. Results: Twenty two studies were identified, all except two reporting PM10 (24 hour mean) >50 μg.m−3. Reported effects of PM10 on PEF were widely spread and smaller than those for PM2.5 (fixed effects summary: −0.012 v −0.063 l.min−1 per μg.m−3 rise). A similar pattern was evident for symptoms. Random effects models produced larger estimates. Overall, in between-study comparisons, panels of children with diagnosed asthma or pre-existing respiratory symptoms appeared less affected by PM10 levels than those without, and effect estimates were larger where studies were conducted in higher ozone conditions. Larger PM10 effect estimates were obtained from studies using generalised estimating equations to model autocorrelation and where results were derived by pooling subject specific regression coefficients. A funnel plot of PM10 results for PEF was markedly asymmetrical. Conclusions: The majority of identified studies indicate an adverse effect of particulate air pollution that is greater for PM2.5 than PM10. However, results show considerable heterogeneity and there is evidence consistent with publication bias, so limited confidence may be placed on summary estimates of effect. The possibility of interaction between particle and ozone effects merits further investigation, as does variability due to analytical differences that alter the interpretation of final estimates.
AbstractList Background: Panel studies have been used to investigate the short term effects of outdoor particulate air pollution across a wide range of environmental settings. Aims: To systematically review the results of such studies in children, estimate summary measures of effect, and investigate potential sources of heterogeneity. Methods: Studies were identified by searching electronic databases to June 2002, including those where outcomes and particulate level measurements were made at least daily for ⩾8 weeks, and analysed using an appropriate regression model. Study results were compared using forest plots, and fixed and random effects summary effect estimates obtained. Publication bias was considered using a funnel plot. Results: Twenty two studies were identified, all except two reporting PM10 (24 hour mean) >50 μg.m−3. Reported effects of PM10 on PEF were widely spread and smaller than those for PM2.5 (fixed effects summary: −0.012 v −0.063 l.min−1 per μg.m−3 rise). A similar pattern was evident for symptoms. Random effects models produced larger estimates. Overall, in between-study comparisons, panels of children with diagnosed asthma or pre-existing respiratory symptoms appeared less affected by PM10 levels than those without, and effect estimates were larger where studies were conducted in higher ozone conditions. Larger PM10 effect estimates were obtained from studies using generalised estimating equations to model autocorrelation and where results were derived by pooling subject specific regression coefficients. A funnel plot of PM10 results for PEF was markedly asymmetrical. Conclusions: The majority of identified studies indicate an adverse effect of particulate air pollution that is greater for PM2.5 than PM10. However, results show considerable heterogeneity and there is evidence consistent with publication bias, so limited confidence may be placed on summary estimates of effect. The possibility of interaction between particle and ozone effects merits further investigation, as does variability due to analytical differences that alter the interpretation of final estimates.
Background: Panel studies have been used to investigate the short term effects of outdoor particulate air pollution across a wide range of environmental settings. Aims: To systematically review the results of such studies in children, estimate summary measures of effect, and investigate potential sources of heterogeneity. Methods: Studies were identified by searching electronic databases to June 2002, including those where outcomes and particulate level measurements were made at least daily for ⩾8 weeks, and analysed using an appropriate regression model. Study results were compared using forest plots, and fixed and random effects summary effect estimates obtained. Publication bias was considered using a funnel plot. Results: Twenty two studies were identified, all except two reporting PM 10 (24 hour mean) >50 μg.m −3 . Reported effects of PM 10 on PEF were widely spread and smaller than those for PM 2.5 (fixed effects summary: −0.012 v −0.063 l.min −1 per μg.m −3 rise). A similar pattern was evident for symptoms. Random effects models produced larger estimates. Overall, in between-study comparisons, panels of children with diagnosed asthma or pre-existing respiratory symptoms appeared less affected by PM 10 levels than those without, and effect estimates were larger where studies were conducted in higher ozone conditions. Larger PM 10 effect estimates were obtained from studies using generalised estimating equations to model autocorrelation and where results were derived by pooling subject specific regression coefficients. A funnel plot of PM 10 results for PEF was markedly asymmetrical. Conclusions: The majority of identified studies indicate an adverse effect of particulate air pollution that is greater for PM 2.5 than PM 10 . However, results show considerable heterogeneity and there is evidence consistent with publication bias, so limited confidence may be placed on summary estimates of effect. The possibility of interaction between particle and ozone effects merits further investigation, as does variability due to analytical differences that alter the interpretation of final estimates.
Panel studies have been used to investigate the short term effects of outdoor particulate air pollution across a wide range of environmental settings.BACKGROUNDPanel studies have been used to investigate the short term effects of outdoor particulate air pollution across a wide range of environmental settings.To systematically review the results of such studies in children, estimate summary measures of effect, and investigate potential sources of heterogeneity.AIMSTo systematically review the results of such studies in children, estimate summary measures of effect, and investigate potential sources of heterogeneity.Studies were identified by searching electronic databases to June 2002, including those where outcomes and particulate level measurements were made at least daily for > or =8 weeks, and analysed using an appropriate regression model. Study results were compared using forest plots, and fixed and random effects summary effect estimates obtained. Publication bias was considered using a funnel plot.METHODSStudies were identified by searching electronic databases to June 2002, including those where outcomes and particulate level measurements were made at least daily for > or =8 weeks, and analysed using an appropriate regression model. Study results were compared using forest plots, and fixed and random effects summary effect estimates obtained. Publication bias was considered using a funnel plot.Twenty two studies were identified, all except two reporting PM10 (24 hour mean) >50 microg x m(-3). Reported effects of PM10 on PEF were widely spread and smaller than those for PM2.5 (fixed effects summary: -0.012 v -0.063 l x min(-1) per microg x m(-3) rise). A similar pattern was evident for symptoms. Random effects models produced larger estimates. Overall, in between-study comparisons, panels of children with diagnosed asthma or pre-existing respiratory symptoms appeared less affected by PM10 levels than those without, and effect estimates were larger where studies were conducted in higher ozone conditions. Larger PM10 effect estimates were obtained from studies using generalised estimating equations to model autocorrelation and where results were derived by pooling subject specific regression coefficients. A funnel plot of PM10 results for PEF was markedly asymmetrical.RESULTSTwenty two studies were identified, all except two reporting PM10 (24 hour mean) >50 microg x m(-3). Reported effects of PM10 on PEF were widely spread and smaller than those for PM2.5 (fixed effects summary: -0.012 v -0.063 l x min(-1) per microg x m(-3) rise). A similar pattern was evident for symptoms. Random effects models produced larger estimates. Overall, in between-study comparisons, panels of children with diagnosed asthma or pre-existing respiratory symptoms appeared less affected by PM10 levels than those without, and effect estimates were larger where studies were conducted in higher ozone conditions. Larger PM10 effect estimates were obtained from studies using generalised estimating equations to model autocorrelation and where results were derived by pooling subject specific regression coefficients. A funnel plot of PM10 results for PEF was markedly asymmetrical.The majority of identified studies indicate an adverse effect of particulate air pollution that is greater for PM2.5 than PM10. However, results show considerable heterogeneity and there is evidence consistent with publication bias, so limited confidence may be placed on summary estimates of effect. The possibility of interaction between particle and ozone effects merits further investigation, as does variability due to analytical differences that alter the interpretation of final estimates.CONCLUSIONSThe majority of identified studies indicate an adverse effect of particulate air pollution that is greater for PM2.5 than PM10. However, results show considerable heterogeneity and there is evidence consistent with publication bias, so limited confidence may be placed on summary estimates of effect. The possibility of interaction between particle and ozone effects merits further investigation, as does variability due to analytical differences that alter the interpretation of final estimates.
Panel studies have been used to investigate the short term effects of outdoor particulate air pollution across a wide range of environmental settings. To systematically review the results of such studies in children, estimate summary measures of effect, and investigate potential sources of heterogeneity. Studies were identified by searching electronic databases to June 2002, including those where outcomes and particulate level measurements were made at least daily for > or =8 weeks, and analysed using an appropriate regression model. Study results were compared using forest plots, and fixed and random effects summary effect estimates obtained. Publication bias was considered using a funnel plot. Twenty two studies were identified, all except two reporting PM10 (24 hour mean) >50 microg x m(-3). Reported effects of PM10 on PEF were widely spread and smaller than those for PM2.5 (fixed effects summary: -0.012 v -0.063 l x min(-1) per microg x m(-3) rise). A similar pattern was evident for symptoms. Random effects models produced larger estimates. Overall, in between-study comparisons, panels of children with diagnosed asthma or pre-existing respiratory symptoms appeared less affected by PM10 levels than those without, and effect estimates were larger where studies were conducted in higher ozone conditions. Larger PM10 effect estimates were obtained from studies using generalised estimating equations to model autocorrelation and where results were derived by pooling subject specific regression coefficients. A funnel plot of PM10 results for PEF was markedly asymmetrical. The majority of identified studies indicate an adverse effect of particulate air pollution that is greater for PM2.5 than PM10. However, results show considerable heterogeneity and there is evidence consistent with publication bias, so limited confidence may be placed on summary estimates of effect. The possibility of interaction between particle and ozone effects merits further investigation, as does variability due to analytical differences that alter the interpretation of final estimates.
Aims: To systematically review the results of such studies in children, estimate summary measures of effect, and investigate potential sources of heterogeneity. Methods: Studies were identified by searching electronic databases to June 2002, including those where outcomes and particulate level measurements were made at least daily for ⩾8 weeks, and analysed using an appropriate regression model. Study results were compared using forest plots, and fixed and random effects summary effect estimates obtained. Publication bias was considered using a funnel plot. Results: Twenty two studies were identified, all except two reporting PM 10 (24 hour mean) >50 µg.m -3 . Reported effects of PM 10 on PEF were widely spread and smaller than those for PM 2.5 (fixed effects summary: -0.012 v -0.063 l.min -1 per µg.m -3 rise). A similar pattern was evident for symptoms. Random effects models produced larger estimates. Overall, in between-study comparisons, panels of children with diagnosed asthma or pre-existing respiratory symptoms appeared less affected by PM 10 levels than those without, and effect estimates were larger where studies were conducted in higher ozone conditions. Larger PM 10 effect estimates were obtained from studies using generalised estimating equations to model autocorrelation and where results were derived by pooling subject specific regression coefficients. A funnel plot of PM 10 results for PEF was markedly asymmetrical. Conclusions: The majority of identified studies indicate an adverse effect of particulate air pollution that is greater for PM 2.5 than PM 10 . However, results show considerable heterogeneity and there is evidence consistent with publication bias, so limited confidence may be placed on summary estimates of effect. The possibility of interaction between particle and ozone effects merits further investigation, as does variability due to analytical differences that alter the interpretation of final estimates.
Background: Panel studies have been used to investigate the short term effects of outdoor particulate air pollution across a wide range of environmental settings. Aims: To systematically review the results of such studies in children, estimate summary measures of effect, and investigate potential sources of heterogeneity. Methods: Studies were identified by searching electronic databases to June 2002, including those where outcomes and particulate level measurements were made at least daily for [= or >, slanted]8 weeks, and analysed using an appropriate regression model. Study results were compared using forest plots, and fixed and random effects summary effect estimates obtained. Publication bias was considered using a funnel plot. Results: Twenty two studies were identified, all except two reporting PM10 (24 hour mean) >50 μg.m-3 . Reported effects of PM10 on PEF were widely spread and smaller than those for PM2.5 (fixed effects summary: -0.012 v -0.063 l.min-1 per μg.m-3 rise). A similar pattern was evident for symptoms. Random effects models produced larger estimates. Overall, in between-study comparisons, panels of children with diagnosed asthma or pre-existing respiratory symptoms appeared less affected by PM10 levels than those without, and effect estimates were larger where studies were conducted in higher ozone conditions. Larger PM10 effect estimates were obtained from studies using generalised estimating equations to model autocorrelation and where results were derived by pooling subject specific regression coefficients. A funnel plot of PM10 results for PEF was markedly asymmetrical. Conclusions: The majority of identified studies indicate an adverse effect of particulate air pollution that is greater for PM2.5 than PM10 . However, results show considerable heterogeneity and there is evidence consistent with publication bias, so limited confidence may be placed on summary estimates of effect. The possibility of interaction between particle and ozone effects merits further investigation, as does variability due to analytical differences that alter the interpretation of final estimates.
Author Ward, D J
Ayres, J G
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  fullname: Ward, D J
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  givenname: J G
  surname: Ayres
  fullname: Ayres, J G
  organization: Dept of Environmental and Occupational Medicine, University of Aberdeen, Foresterhill Road, Aberdeen AB25 2ZP, UK
BackLink https://www.ncbi.nlm.nih.gov/pubmed/15031404$$D View this record in MEDLINE/PubMed
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Copyright Occupational and Environmental Medicine
Copyright: 2004 (c) Occupational and Environmental Medicine
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Correspondence to:
 Professor J G Ayres
 Dept of Environmental and Occupational Medicine, University of Aberdeen, Foresterhill Road, Aberdeen AB25 2ZP, UK; j.g.ayres@abdn.ac.uk
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Snippet Background: Panel studies have been used to investigate the short term effects of outdoor particulate air pollution across a wide range of environmental...
Background: Panel studies have been used to investigate the short term effects of outdoor particulate air pollution across a wide range of environmental...
Panel studies have been used to investigate the short term effects of outdoor particulate air pollution across a wide range of environmental settings. To...
Panel studies have been used to investigate the short term effects of outdoor particulate air pollution across a wide range of environmental...
Aims: To systematically review the results of such studies in children, estimate summary measures of effect, and investigate potential sources of...
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SubjectTerms Air Pollutants - analysis
Air Pollutants - toxicity
Air pollution
Asthma
Bias
Child
childhood asthma
Children & youth
Clinical trials
Electronic Paper
Environmental conditions
Estimates
fixed effects
GEE
generalised estimating equations
Heterogeneity
Humans
Hypothesis testing
odds ratio
Outdoor air quality
Ozone
panel study
Particle Size
particulate air pollution
Particulate matter
particulate strong acidity
peak expiratory flow
Peak Expiratory Flow Rate - physiology
PEF
PSA
random effects
Respiration Disorders - etiology
Respiration Disorders - physiopathology
Studies
Time series
Title Particulate air pollution and panel studies in children: a systematic review
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