Urban Air Pollution and Forests
Urban Air Pollution and Forests

Author: Mark E. Fenn

Publisher: Springer Science & Business Media

Published: 2012-12-06

Total Pages: 412

ISBN-13: 038722520X

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At present, roughly half of the world's population lives in urban centers. There are now more than 20 cities with a population of over 10 million inhabitants, compared to less than 5 about 50 years ago. This tendency toward urbanization is expected to continue, particularly in the developing world. A consequence of this growing trend is that millions of people are being exposed to harmful levels of urban air pollutants caused mainly by emissions from motor vehicles and from industrial and domestic activities involving the combustion of fossil fuels. The driving force for the design and implementation of emission control strate gies aimed at improving air quality has been the protection of the health of the population in urban centers. There are, however, other consequences of the pres ence of air pollutants besides the direct effect on human health. Reduced visibil ity, damage to monuments and buildings, and many other such consequences indirectly affect our quality of life. Another set of consequences involves damage to ecological systems. In fact, the nature of "photochemical smog" was first uncovered in the 1950s in connection with observations of its harmful effects on crops and plants in the vicinity of Los Angeles.

The Association Between Exposure to Traffic-Related Air Pollution During Pregnancy and Children's Health Outcomes in the San Joaquin Valley of California
The Association Between Exposure to Traffic-Related Air Pollution During Pregnancy and Children's Health Outcomes in the San Joaquin Valley of California

Author: Amy Michelle Padula

Publisher:

Published: 2010

Total Pages: 292

ISBN-13:

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Ambient air pollution and traffic exposure are widely recognized as an important public health concern. This research aims to investigate the association between traffic-related air pollution exposure during pregnancy and two important public health outcomes: pulmonary function in asthmatic children and term low birth weight. Asthma is the leading cause of childhood morbidity and term low birth weight is an important predictor of infant mortality. The period of pregnancy may be a critical time during which exposures may affect these health outcomes. Two study populations are used in this dissertation: the Fresno Asthmatic Children and Environment Study - Lifetime Exposure (FACES-LITE) and the Study of Air pollution, Genetics and the Early life events (SAGE). FACES-LITE is a longitudinal cohort of asthmatic children, aged 6-11 at baseline, with periodic pulmonary function tests and exposure assessment of ambient air pollutants during pregnancy in Fresno, California. SAGE is a study of birth records from four counties in the San Joaquin Valley of California from 2000-2006 linked to traffic density metrics based on the geo-coded residences of the mother at birth. For both studies, causal inference methods were used to estimate the association between exposure to traffic-related air pollution during pregnancy and these child health outcomes. Specifically, targeted maximum likelihood estimation (TMLE) was used to obtain the counterfactual marginal effect of traffic-related air pollution exposure during pregnancy on pulmonary function and term low birth weight. In other words, the predicted outcomes were compared had everyone been exposed to specific levels of air pollution during pregnancy. The results of the TMLE for FACES-LITE found that above-median levels of ambient NO2 exposure during the first and second trimesters were associated with deficits in pulmonary function for all age groups. The SAGE analysis showed the highest quartile of traffic density exposure was associated with significantly higher term low birth weight compared to the lowest quartile; however, there was no evidence of a monotonic exposure-response relation. In general, the studies presented in this dissertation suggest that traffic-related air pollution exposure during pregnancy may be associated with pulmonary function deficits in children with asthma, as well as with an increased risk for term low birth weight. These analyses represent the first application of TMLE to the study of air pollution and child health outcomes. In addition to their novelty, these causal inference methods are unique in that they offer easily interpretable parameters with important public health implications and unlike traditional regression methods, they do not assume arbitrary models. The analysis of the FACES-LITE study contributes to the subject-matter and supports earlier work on the association of ambient air pollution exposure during pregnancy and lung function in children by using the repeated measures of lung function. In contrast, the SAGE analysis focused on a methodological approach using causal methods and contextual variables. For that reason, I included only one exposure metric and one birth outcome for a demonstration of these methods. This subject-matter analysis will be extended in future analyses to further characterize the complexity of the exposure and any additional potential confounders and effect modifiers.

The Influence of Traffic-related Air Pollution on Infant and Child Health
The Influence of Traffic-related Air Pollution on Infant and Child Health

Author: Gavin Francis Pereira

Publisher:

Published: 2011

Total Pages: 324

ISBN-13:

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[Truncated abstract] According to the fetal origins hypothesis, our health is influenced not only by diet, exercise or genes inherited at conception but also by the exposures experienced in utero, which happen to be well represented by fetal growth. It is widely accepted that exposure to toxic agents during pregnancy restricts fetal growth; with repeated acute exposure to tobacco smoke being one of the most well documented examples. However, the influence of cumulative long-term exposure to typically lower levels of air pollutants is less well understood. In most urbanised locations, motor vehicles are the single largest contributor to anthropogenic ambient air pollution. This thesis investigates the association between restricted fetal growth and exposure to motor vehicle emissions at a location where most time is spent home. Much can be learned from prior research on the associations between traffic emissions and exacerbation of certain respiratory conditions, for which a number of reviews have concluded that there is a causal association. There is a reasonable, albeit putative, expectation that there would be greater power to detect an effect for respiratory exacerbation. This offered the opportunity to develop and test methods to model air pollution and map disease risk using emergency department presentations for asthma that could be later applied to examine associations with fetal growth. Risk of asthma emergency department presentation was found to be elevated for children who lived closer to the two cities in the study area. This geographic pattern in risk remains unexplained but offers opportunity for further investigation in a future study. There was a 70% increase in risk of emergency department presentation among the youngest children (aged less than 5 years) for elevated previous day exposure to traffic-related air pollution. This association was stronger than those reported by previous studies. Population based retrospective cohort analyses were conducted by linking birth records, midwives notifications, death records, congenital anomaly registrations and hospital morbidity records for neonates of women in Perth, Western Australia. Records were obtained for births in the period 2000-2006. Fetal growth was assessed using a method that captured observed neonatal weight relative to individual growth potential. This method was validated using serial ultrasounds and strongly corresponded to fetal growth. Exposure was assessed using the latest deterministic and stochastic methods, geographic information systems (GIS), and extensive field measurements of air pollutants. Sensitivity analyses were conducted and vulnerable sub-populations were also investigated. Moderate-sized effects were observed for increases in a specific marker for traffic emissions based on the residential address. Strongest associations were observed for neonates to women who spent more time at home. The results indicated that the fetus may be vulnerable to elevated exposures in mid to late pregnancy, particularly second trimester...

Systematic Review on the Adverse Effects of Traffic Related Air Pollution on Respiratory Health in Children
Systematic Review on the Adverse Effects of Traffic Related Air Pollution on Respiratory Health in Children

Author: Sau-Kei Angel Lam

Publisher: Open Dissertation Press

Published: 2017-01-26

Total Pages:

ISBN-13: 9781361325179

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This dissertation, "Systematic Review on the Adverse Effects of Traffic Related Air Pollution on Respiratory Health in Children" by Sau-kei, Angel, Lam, 林秀琪, was obtained from The University of Hong Kong (Pokfulam, Hong Kong) and is being sold pursuant to Creative Commons: Attribution 3.0 Hong Kong License. The content of this dissertation has not been altered in any way. We have altered the formatting in order to facilitate the ease of printing and reading of the dissertation. All rights not granted by the above license are retained by the author. Abstract: Objectives: To investigate the impacts of traffic related air pollution (TRAP) on children's respiratory health, and to investigate the policies and regulations implemented in other countries and the suggestions from the World Health Organization (WHO) to tackle this problem. Methods and Results: Using relevant keywords, 122 articles were acquired from PubMed and 15 were from MEDLINE via EBSCO host respectively. The articles were published between 1980 to 2013; all of which had examined the impacts of TRAP on children's respiratory health. After assessing inclusion and exclusion criteria, 9 articles were finally included in this systematic review. Differences in demographic characteristics were studied and compared to determine the association between TRAP exposure and respiratory health impacts on children aged between 1 and 18. Four cross-section surveys and five cohort studies were selected in this review. The association between TRAP exposure and differences in children's respiratory impacts were demonstrated in all studies. Multiple outcome measures were used to examine changes of children's respiratory health such as the decline in lung function, incidences of asthma and inflammatory responses. There were 4 out of 9 articles suggesting the decline in lung function was related to TRAP exposure; 5 out of 9 articles showed the relationships between incidences of asthma and inflammatory responses and TRAP exposure and 2 articles mentioned other respiratory symptoms; notably, wheezing and sneezing, runny and stuffed nose. This review finally summarized the results of selected articles stressing that children who lived close to roadway within a 500 meter radius from home, with an early exposure to air pollution in the first year of age and a frequent exposure to heavy road traffic and outdoor air pollutants would experience greater impacts on respiratory health. Conclusion: The positive association between the impacts on children's respiratory health and TRAP exposure has been determined through this systematic review. Stricter emission control strategies and updated guidelines are required to regulate traffic emission and improve air quality in order to reduce harm and provide a better living environment for our next generations. DOI: 10.5353/th_b5098637 Subjects: Air - Pollution - Health aspects Children - Health and hygiene Respiratory organs - Diseases