A review on the role of dispersion and receptor models in asthma research

There is substantial evidence that air pollution exposure is associated with asthma prevalence that affects millions of people worldwide. Air pollutant exposure can be determined using dispersion models and refined with receptor models. Dispersion models offer the advantage of giving spatially distr...

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Published inEnvironmental pollution (1987) Vol. 287; p. 117529
Main Authors de Ferreyro Monticelli, Davi, Santos, Jane Meri, Goulart, Elisa Valentim, Mill, José Geraldo, Kumar, Prashant, Reis Jr, Neyval Costa
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 15.10.2021
Subjects
air pollutants
Air pollution
air quality
Asthma
chemical speciation
chemical species
Epidemiology
Exposure
Human health
indoor air pollution
model validation
odds ratio
relative risk
Source apportionment
traffic
working conditions
Air pollution
Human health
Exposure
Source apportionment
Epidemiology
Asthma
Online AccessGet full text
ISSN0269-7491
1873-6424
1873-6424
DOI10.1016/j.envpol.2021.117529

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Abstract There is substantial evidence that air pollution exposure is associated with asthma prevalence that affects millions of people worldwide. Air pollutant exposure can be determined using dispersion models and refined with receptor models. Dispersion models offer the advantage of giving spatially distributed outdoor pollutants concentration while the receptor models offer the source apportionment of specific chemical species. However, the use of dispersion and/or receptor models in asthma research requires a multidisciplinary approach, involving experts on air quality and respiratory diseases. Here, we provide a literature review on the role of dispersion and receptor models in air pollution and asthma research, their limitations, gaps and the way forward. We found that the methodologies used to incorporate atmospheric dispersion and receptor models in human health studies may vary considerably, and several of the studies overlook features such as indoor air pollution, model validation and subject pathway between indoor spaces. Studies also show contrasting results of relative risk or odds ratio for a health outcome, even using similar methodologies. Dispersion models are mostly used to estimate air pollution levels outside the subject's home, school or workplace; however, very few studies addressed the subject's routines or indoor/outdoor relationships. Conversely, receptor models are employed in regions where asthma incidence/prevalence is high or where a dispersion model has been previously used for this assessment. Road traffic (vehicle exhaust) and NOx are found to be the most targeted source and pollutant, respectively. Other key findings were the absence of a standard indicator, shortage of studies addressing VOC and UFP, and the shift toward chemical speciation of exposure. [Display omitted] •More asthma studies using dispersion/receptor models for VOC exposure are needed•Receptor models were used in regions of high asthma prevalence•Traffic is the most targeted source in asthma studies using dispersion models•Similar methodologies give contrasting risks between air pollution and asthma•Receptor and dispersion models coupling were not explored at its full potential Studies display contrasting results of the association between air pollution and an asthma-related outcome, even using similar methodologies.
AbstractList There is substantial evidence that air pollution exposure is associated with asthma prevalence that affects millions of people worldwide. Air pollutant exposure can be determined using dispersion models and refined with receptor models. Dispersion models offer the advantage of giving spatially distributed outdoor pollutants concentration while the receptor models offer the source apportionment of specific chemical species. However, the use of dispersion and/or receptor models in asthma research requires a multidisciplinary approach, involving experts on air quality and respiratory diseases. Here, we provide a literature review on the role of dispersion and receptor models in air pollution and asthma research, their limitations, gaps and the way forward. We found that the methodologies used to incorporate atmospheric dispersion and receptor models in human health studies may vary considerably, and several of the studies overlook features such as indoor air pollution, model validation and subject pathway between indoor spaces. Studies also show contrasting results of relative risk or odds ratio for a health outcome, even using similar methodologies. Dispersion models are mostly used to estimate air pollution levels outside the subject's home, school or workplace; however, very few studies addressed the subject's routines or indoor/outdoor relationships. Conversely, receptor models are employed in regions where asthma incidence/prevalence is high or where a dispersion model has been previously used for this assessment. Road traffic (vehicle exhaust) and NOx are found to be the most targeted source and pollutant, respectively. Other key findings were the absence of a standard indicator, shortage of studies addressing VOC and UFP, and the shift toward chemical speciation of exposure.There is substantial evidence that air pollution exposure is associated with asthma prevalence that affects millions of people worldwide. Air pollutant exposure can be determined using dispersion models and refined with receptor models. Dispersion models offer the advantage of giving spatially distributed outdoor pollutants concentration while the receptor models offer the source apportionment of specific chemical species. However, the use of dispersion and/or receptor models in asthma research requires a multidisciplinary approach, involving experts on air quality and respiratory diseases. Here, we provide a literature review on the role of dispersion and receptor models in air pollution and asthma research, their limitations, gaps and the way forward. We found that the methodologies used to incorporate atmospheric dispersion and receptor models in human health studies may vary considerably, and several of the studies overlook features such as indoor air pollution, model validation and subject pathway between indoor spaces. Studies also show contrasting results of relative risk or odds ratio for a health outcome, even using similar methodologies. Dispersion models are mostly used to estimate air pollution levels outside the subject's home, school or workplace; however, very few studies addressed the subject's routines or indoor/outdoor relationships. Conversely, receptor models are employed in regions where asthma incidence/prevalence is high or where a dispersion model has been previously used for this assessment. Road traffic (vehicle exhaust) and NOx are found to be the most targeted source and pollutant, respectively. Other key findings were the absence of a standard indicator, shortage of studies addressing VOC and UFP, and the shift toward chemical speciation of exposure.
There is substantial evidence that air pollution exposure is associated with asthma prevalence that affects millions of people worldwide. Air pollutant exposure can be determined using dispersion models and refined with receptor models. Dispersion models offer the advantage of giving spatially distributed outdoor pollutants concentration while the receptor models offer the source apportionment of specific chemical species. However, the use of dispersion and/or receptor models in asthma research requires a multidisciplinary approach, involving experts on air quality and respiratory diseases. Here, we provide a literature review on the role of dispersion and receptor models in air pollution and asthma research, their limitations, gaps and the way forward. We found that the methodologies used to incorporate atmospheric dispersion and receptor models in human health studies may vary considerably, and several of the studies overlook features such as indoor air pollution, model validation and subject pathway between indoor spaces. Studies also show contrasting results of relative risk or odds ratio for a health outcome, even using similar methodologies. Dispersion models are mostly used to estimate air pollution levels outside the subject's home, school or workplace; however, very few studies addressed the subject's routines or indoor/outdoor relationships. Conversely, receptor models are employed in regions where asthma incidence/prevalence is high or where a dispersion model has been previously used for this assessment. Road traffic (vehicle exhaust) and NOx are found to be the most targeted source and pollutant, respectively. Other key findings were the absence of a standard indicator, shortage of studies addressing VOC and UFP, and the shift toward chemical speciation of exposure.
There is substantial evidence that air pollution exposure is associated with asthma prevalence that affects millions of people worldwide. Air pollutant exposure can be determined using dispersion models and refined with receptor models. Dispersion models offer the advantage of giving spatially distributed outdoor pollutants concentration while the receptor models offer the source apportionment of specific chemical species. However, the use of dispersion and/or receptor models in asthma research requires a multidisciplinary approach, involving experts on air quality and respiratory diseases. Here, we provide a literature review on the role of dispersion and receptor models in air pollution and asthma research, their limitations, gaps and the way forward. We found that the methodologies used to incorporate atmospheric dispersion and receptor models in human health studies may vary considerably, and several of the studies overlook features such as indoor air pollution, model validation and subject pathway between indoor spaces. Studies also show contrasting results of relative risk or odds ratio for a health outcome, even using similar methodologies. Dispersion models are mostly used to estimate air pollution levels outside the subject's home, school or workplace; however, very few studies addressed the subject's routines or indoor/outdoor relationships. Conversely, receptor models are employed in regions where asthma incidence/prevalence is high or where a dispersion model has been previously used for this assessment. Road traffic (vehicle exhaust) and NOx are found to be the most targeted source and pollutant, respectively. Other key findings were the absence of a standard indicator, shortage of studies addressing VOC and UFP, and the shift toward chemical speciation of exposure. [Display omitted] •More asthma studies using dispersion/receptor models for VOC exposure are needed•Receptor models were used in regions of high asthma prevalence•Traffic is the most targeted source in asthma studies using dispersion models•Similar methodologies give contrasting risks between air pollution and asthma•Receptor and dispersion models coupling were not explored at its full potential Studies display contrasting results of the association between air pollution and an asthma-related outcome, even using similar methodologies.
ArticleNumber 117529
Author Kumar, Prashant
de Ferreyro Monticelli, Davi
Mill, José Geraldo
Santos, Jane Meri
Goulart, Elisa Valentim
Reis Jr, Neyval Costa
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  givenname: Jane Meri
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  fullname: Santos, Jane Meri
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  organization: Department of Environmental Engineering, Federal University of Espirito Santo (UFES), Vitória, Espirito Santo, Brazil
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  givenname: Elisa Valentim
  orcidid: 0000-0002-0051-0778
  surname: Goulart
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  organization: Department of Environmental Engineering, Federal University of Espirito Santo (UFES), Vitória, Espirito Santo, Brazil
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  givenname: José Geraldo
  surname: Mill
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  organization: Global Centre for Clean Air Research (GCARE), Department of Civil and Environmental Engineering, Faculty of Engineering and Physical Sciences, University of Surrey, Guildford, GU2 7XH, United Kingdom
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  givenname: Neyval Costa
  orcidid: 0000-0002-6159-4063
  surname: Reis Jr
  fullname: Reis Jr, Neyval Costa
  organization: Department of Environmental Engineering, Federal University of Espirito Santo (UFES), Vitória, Espirito Santo, Brazil
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Exposure
Source apportionment
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Snippet There is substantial evidence that air pollution exposure is associated with asthma prevalence that affects millions of people worldwide. Air pollutant...
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SubjectTerms air pollutants
Air pollution
air quality
Asthma
chemical speciation
chemical species
Epidemiology
Exposure
Human health
indoor air pollution
model validation
odds ratio
relative risk
Source apportionment
traffic
working conditions
Title A review on the role of dispersion and receptor models in asthma research
URI https://dx.doi.org/10.1016/j.envpol.2021.117529
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