Fine Particulate Matter in Urban Environments: A Trigger of Respiratory Symptoms in Sensitive Children

Dunea, Daniel; Iordache, Ştefania; Pohoata, Alin

doi:10.3390/ijerph13121246

Cited by 35 publications

(23 citation statements)

References 51 publications

(65 reference statements)

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“…Multiple factors, including air pollution, are contributing to increased asthma morbidity. Recent studies performed in two Romanian cities indicated that the prevalence of asthma in children is increasing at a rate of 8-11% per year [19].…”

Section: Introductionmentioning

confidence: 99%

A Review of Airborne Particulate Matter Effects on Young Children’s Respiratory Symptoms and Diseases

et al. 2018

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Exposure to airborne fine particulate matter (PM 2.5) carries substantial health risks, particularly for younger children (0-10 years). Epidemiological evidence indicates that children are more susceptible to PM health effects than adults. We conducted a literature review to obtain an overview of existing knowledge regarding the correlation of exposure to short-and long-term PM concentrations with respiratory symptoms and disease in children. A collection of scientific papers and topical reviews were selected in cooperation with two experienced paediatricians. The literature review was performed using the keywords "air pollution", "particulate matter", "children's health" and "respiratory" from 1950 to 2016, searching the databases of Scopus, Google Scholar, Web of Science, and PubMed. The search provided 45,191 studies for consideration. Following the application of eligibility criteria and experts' best judgment to titles and abstracts, 28 independent studies were deemed relevant for further detailed review and knowledge extraction. The results showed that most studies focused mainly on the effect of short-term exposure in children, and the reported associations were relatively homogeneous amongst the studies. Most of the respiratory diseases observed in outdoor studies were related to changes in lung function and exacerbation of asthma symptoms. Allergic reactions were frequently reported in indoor studies. Asthma exacerbation, severe respiratory symptoms and moderate airway obstruction on spirometry were also observed in children due to various sources of indoor pollution in households and schools. Mixed indoor and outdoor studies indicate frequent occurrence of wheezing and deterioration of lung function. There is good evidence of the adverse effect of short-term exposure to PM on children's respiratory health. In terms of long-term exposure, fine particles (PM 0.1-PM 2.5) represent a higher risk factor than coarse particles (PM 2.5-PM 10). Additional research is required to better understand the heterogeneous sources and the association of PM and adverse children's health outcomes. We recommend long-term cooperation between air quality specialists, paediatricians, epidemiologists, and parents in order to improve the knowledge of PM effects on young children's respiratory health.

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Section: Introductionmentioning

confidence: 99%

A Review of Airborne Particulate Matter Effects on Young Children’s Respiratory Symptoms and Diseases

et al. 2018

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“…Consequently, various microenvironments are occurring at city level making difficult the conventional measurements of air quality in view of insuring a global covering of the city at spatial level. Thus, the forecasting of potential pollution episodes in a specific microenvironment and their associated health effects are also problematic [10]. One solution could be the integration of VGI component by encouraging the citizens to contribute with quasi-empirical georeferenced data e.g., GPS tracks, heart rates, street pictures, physical symptoms, respiratory events, visual observations of emissions.…”

Section: Resultsmentioning

confidence: 99%

“…On the other hand, PM 2.5 forecasting accuracy is dependent on the availability and precision of the meteorological data, inventory of emissions, and chemical reaction schemes required to configure optimally the model running conditions. The forecasting of a pollution episode requires supplemental details about PM 2.5 constituents, or potential emission source to elaborate proper recommendations to the public in relation to possible health effects or to support effective measures to reduce emissions, which contributed to the episode [10].…”

Section: Dispersion Modelingmentioning

confidence: 99%

Evaluating the Air Pollution Impact Using Environmental Monitoring, Dispersion Modeling and Volunteered Geographic Information Systems

Dunea¹,

Iordache²,

Bøhler³

et al. 2017

Rev. Chim.

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The paper describes the application of real-time environmental monitoring, local and long-range transport dispersion modeling and Volunteered Geographic Information (VGI) systems that can improve the fast knowledge regarding the air pollution status to determine the actual outdoor conditions for living in a specific urban area. A case study using such techniques is presented for a pollution event with fine particulate matter (PM2.5) in Targoviste, Romania. PM2.5 time series were recorded during the pollution event by two optical monitoring systems providing an average of 184.1, maximum of 323, and minimum of 107 �g m-3 (DustTrackTM 8533 EP system), and 177.4, 321 and 93 �g m-3 (Rokidair microstation), respectively. PM2.5 concentrations and forward trajectories were computed using two programs: BREEZE� AERMOD 7.9 and HYSPLIT dispersion model. The obtained results emphasize the usefulness of embedding dispersion modeling advanced tools to supplement monitoring results and to characterize the source apportionment.

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“…In the RokidAIR webbased GIS, the georeferenced layers allowed the spatiotemporal characterization of vulnerable areas in each city through the application of geospatial analysis. Medical database and receptor database were supplemented with specific information to identify the CAs that are under a major PM 2.5 impact [17,26]. The subsequent ranking of the CAs allowed the selection of the locations for the deployment of the micro-stations in Phase II.…”

Section: Methodologies and Implementationmentioning

confidence: 99%

Improving the Protection of Children Against Air Pollution Threats in Romania � The RokidAIR Project Approach and Future Perspectives

Liu¹,

Dunea²,

Oprea³

et al. 2017

Rev. Chim.

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This paper presents the approach used to develop the information chain required to reach the objectives of the EEA Grants� RokidAIR project in two Romanian cities i.e., Targoviste and Ploiesti. It describes the PM2.5 monitoring infrastructure and architecture to the web-based GIS platform, the early warning system and the decision support system, and finally, the linking of air pollution to health effects in children. In addition, it shows the analysis performance of the designed system to process the collected time series from various data sources using the benzene concentrations monitored in Ploiesti. Moreover, this paper suggests that biomarkers, mobile technologies, and Citizens� Observatories are potential perspectives to improve data coverage by the provision of near-real-time air quality maps, and provide personal exposure and health assessment results, enabling the citizens� engagement and behavioural change. This paper also addresses new fields in nature-based solutions to improve air quality, and studies on air pollution and its mental health effects in the urban areas of Romania.

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Fine Particulate Matter in Urban Environments: A Trigger of Respiratory Symptoms in Sensitive Children

Cited by 35 publications

References 51 publications

A Review of Airborne Particulate Matter Effects on Young Children’s Respiratory Symptoms and Diseases

A Review of Airborne Particulate Matter Effects on Young Children’s Respiratory Symptoms and Diseases

Evaluating the Air Pollution Impact Using Environmental Monitoring, Dispersion Modeling and Volunteered Geographic Information Systems

Improving the Protection of Children Against Air Pollution Threats in Romania � The RokidAIR Project Approach and Future Perspectives

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