幼兒時期空氣汙染對台灣1996至2004年間出生之非氣喘學童肺功能之影響

Hung-Chang Tsui; 崔紘彰

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/52433

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	郭育良(Yue-Leon Guo)
dc.contributor.author	Hung-Chang Tsui	en
dc.contributor.author	崔紘彰	zh_TW
dc.date.accessioned	2021-06-15T16:14:41Z	-
dc.date.available	2016-09-14
dc.date.copyright	2015-09-14
dc.date.issued	2015
dc.date.submitted	2015-08-18
dc.identifier.citation	1. Kunzli, N., et al., Public-health impact of outdoor and traffic-related air pollution: a European assessment. Lancet, 2000. 356(9232): p. 795-801. 2. Katsouyanni, K., Ambient air pollution and health. Br Med Bull, 2003. 68: p. 143-56. 3. Brunekreef, B. and S.T. Holgate, Air pollution and health. Lancet, 2002. 360(9341): p. 1233-42. 4. Schunemann, H.J., et al., Pulmonary function is a long-term predictor of mortality in the general population: 29-year follow-up of the Buffalo Health Study. Chest, 2000. 118(3): p. 656-64. 5. Hole, D.J., et al., Impaired lung function and mortality risk in men and women: findings from the Renfrew and Paisley prospective population study. BMJ, 1996. 313(7059): p. 711-5; discussion 715-6. 6. Lange, P., et al., Spirometric findings and mortality in never-smokers. J Clin Epidemiol, 1990. 43(9): p. 867-73. 7. Sin, D.D., L. Wu, and S.F. Man, The relationship between reduced lung function and cardiovascular mortality: a population-based study and a systematic review of the literature. Chest, 2005. 127(6): p. 1952-9. 8. Gehring, U., et al., Air Pollution Exposure and Lung Function in Children: The ESCAPE Project. Environmental Health Perspectives, 2013. 9. Chen, C.H., et al., Effects of particulate air pollution and ozone on lung function in non-asthmatic children. Environ Res, 2015. 137: p. 40-8. 10. Hwang, B.F., et al., Relationship between exposure to fine particulates and ozone and reduced lung function in children. Environ Res, 2015. 137: p. 382-90. 11. Kajekar, R., Environmental factors and developmental outcomes in the lung. Pharmacol Ther, 2007. 114(2): p. 129-45. 12. Moshammer, H., et al., Parental smoking and lung function in children: an international study. Am J Respir Crit Care Med, 2006. 173(11): p. 1255-63. 13. Gabriele, C., et al., Smoke exposure, airway symptoms and exhaled nitric oxide in infants: the Generation R study. Eur Respir J, 2008. 32(2): p. 307-13. 14. Clark, N.A., et al., Effect of early life exposure to air pollution on development of childhood asthma. Environ Health Perspect, 2010. 118(2): p. 284-90. 15. Gotschi, T., et al., Long-term effects of ambient air pollution on lung function: a review. Epidemiology, 2008. 19(5): p. 690-701. 16. Dietert, R.R., et al., Workshop to identify critical windows of exposure for children's health: immune and respiratory systems work group summary. Environ Health Perspect, 2000. 108 Suppl 3: p. 483-90. 17. Pinkerton, K.E. and J.P. Joad, The mammalian respiratory system and critical windows of exposure for children's health. Environ Health Perspect, 2000. 108 Suppl 3: p. 457-62. 18. Oftedal, B., et al., Residential outdoor air pollution and lung function in schoolchildren. Epidemiology, 2008. 19(1): p. 129-37. 19. Schultz, E.S., et al., Traffic-related air pollution and lung function in children at 8 years of age: a birth cohort study. Am J Respir Crit Care Med, 2012. 186(12): p. 1286-91. 20. Fuertes, E., et al., Long-term air pollution exposure and lung function in 15 year-old adolescents living in an urban and rural area in Germany: The GINIplus and LISAplus cohorts. Int J Hyg Environ Health, 2015. 21. Miller, M.R., et al., Standardisation of spirometry. Eur Respir J, 2005. 26(2): p. 319-38. 22. Taiwan Environmental Data Warehouse. [cited 2014 01.01]; Available from: http://edw.epa.gov.tw/reportInspectAir.aspx. 23. Chen, B.Y., et al., Effects of ambient particulate matter and fungal spores on lung function in schoolchildren. Pediatrics, 2011. 127(3): p. e690-8. 24. Son, J.Y., M.L. Bell, and J.T. Lee, Individual exposure to air pollution and lung function in Korea: spatial analysis using multiple exposure approaches. Environ Res, 2010. 110(8): p. 739-49. 25. Roberts, J.D., J.D. Voss, and B. Knight, The association of ambient air pollution and physical inactivity in the United States. PLoS One, 2014. 9(3): p. e90143. 26. Gorai, A.K., F. Tuluri, and P.B. Tchounwou, A GIS based approach for assessing the association between air pollution and asthma in New York State, USA. Int J Environ Res Public Health, 2014. 11(5): p. 4845-69. 27. Center for Geographic Information System, A.s. Geocoding tool. 2014 [cited 2014 01.01]; Available from: http://gissrv4.sinica.edu.tw/gis/tools/geocoding.aspx. 28. McCoy, J., K. Johnston, and E.S.R. Institute, Using ArcGIS Spatial Analyst: GIS by ESRI. 2001: Environmental Systems Research Institute. 29. Wong, D.W., L. Yuan, and S.A. Perlin, Comparison of spatial interpolation methods for the estimation of air quality data. J Expo Anal Environ Epidemiol, 2004. 14(5): p. 404-15. 30. Gauderman, W.J., et al., The effect of air pollution on lung development from 10 to 18 years of age. N Engl J Med, 2004. 351(11): p. 1057-67. 31. Jedrychowski, W., E. Flak, and E. Mroz, The adverse effect of low levels of ambient air pollutants on lung function growth in preadolescent children. Environ Health Perspect, 1999. 107(8): p. 669-74. 32. Roy, A., et al., Ambient particulate matter and lung function growth in Chinese children. Epidemiology. 23(3): p. 464-72. 33. Avol, E.L., et al., Respiratory effects of relocating to areas of differing air pollution levels. Am J Respir Crit Care Med, 2001. 164(11): p. 2067-72. 34. Goodman, J.E., et al., Evaluation of adverse human lung function effects in controlled ozone exposure studies. J Appl Toxicol, 2014. 34(5): p. 516-24. 35. Turnovska, T.H. and B.I. Marinov, The influence of air pollution during intrauterine development and early childhood on respiratory functions at later age. Int J Hyg Environ Health, 2009. 212(5): p. 519-32. 36. Gruzieva, O., et al., Traffic-related air pollution and development of allergic sensitization in children during the first 8 years of life. J Allergy Clin Immunol, 2012. 129(1): p. 240-6. 37. Nordling, E., et al., Traffic-related air pollution and childhood respiratory symptoms, function and allergies. Epidemiology, 2008. 19(3): p. 401-8. 38. Holt, P.G. and C.A. Jones, The development of the immune system during pregnancy and early life. Allergy, 2000. 55(8): p. 688-97. 39. Pollution, H.P.o.t.H.E.o.T.-R.A. Traffic-Related Air Pollution: A Critical Review of the Literature on Emissions, Exposure, and Health Effects. HEI Special Report 17. 2010. 40. Kelly, F.J., Oxidative stress: its role in air pollution and adverse health effects. Occup Environ Med, 2003. 60(8): p. 612-6. 41. Larsen, S.T., et al., Ozone increases airway hyperreactivity and mucus hyperproduction in mice previously exposed to allergen. J Toxicol Environ Health A, 2010. 73(11): p. 738-47. 42. Fanucchi, M.V., et al., Cyclic exposure to ozone alters distal airway development in infant rhesus monkeys. Am J Physiol Lung Cell Mol Physiol, 2006. 291(4): p. L644-50. 43. Herring, M.J., et al., Early life exposure to allergen and ozone results in altered development in adolescent rhesus macaque lungs. Toxicol Appl Pharmacol, 2015. 283(1): p. 35-41. 44. Chen, B.-Y., Air Pollution, Allergic Co-morbidity, and Emergency Department Visit for Pediatric Asthma in Taiwan. Aerosol and Air Quality Research, 2013. 45. Faul, F., et al., Statistical power analyses using G*Power 3.1: tests for correlation and regression analyses. Behav Res Methods, 2009. 41(4): p. 1149-60. 46. Mortimer, K., et al., Air pollution and pulmonary function in asthmatic children: effects of prenatal and lifetime exposures. Epidemiology, 2008. 19(4): p. 550-7; discussion 561-2. 47. Liao, D., et al., GIS Approaches for the Estimation of Residential-Level Ambient PM Concentrations. Environmental Health Perspectives, 2006. 114(9): p. 1374-1380. 48. Hannam, K., et al., A comparison of population air pollution exposure estimation techniques with personal exposure estimates in a pregnant cohort. Environ Sci Process Impacts, 2013. 15(8): p. 1562-72. 49. Jerrett, M., et al., A review and evaluation of intraurban air pollution exposure models. J Expo Anal Environ Epidemiol, 2005. 15(2): p. 185-204. 50. Beelen, R., et al., Mapping of background air pollution at a fine spatial scale across the European Union. Sci Total Environ, 2009. 407(6): p. 1852-67. 51. Borgini, A., et al., Personal exposure to PM2.5 among high-school students in Milan and background measurements: The EuroLifeNet study. Atmospheric Environment, 2011. 45(25): p. 4147-4151. 52. Kim, D., et al., Associations between personal exposures and fixed-site ambient measurements of fine particulate matter, nitrogen dioxide, and carbon monoxide in Toronto, Canada. J Expo Sci Environ Epidemiol, 2006. 16(2): p. 172-83.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/52433	-
dc.description.abstract	背景：雖然目前文獻顯示空氣汙染與學童肺功能的變化有關，但是僅有少數文獻探究終身空氣汙染暴露對學童肺功能的影響。本篇研究旨在檢驗不同年齡間所受到空氣汙染對於學童肺功能的影響方法：在2011年一項過敏性疾病的調查中，我們在台灣22個縣市中各挑選一所國中，針對其學童發放問卷，篩選出無氣喘病史的學生後，隨機抽樣進行肺功能檢驗。根據1996年以來環保局所提供的年平均空氣汙染資料，我們利用Arc GIS地理資訊系統推算各年度，各鄉鎮的空氣污染濃度。利用學童問卷中所填寫的各年度居住鄉鎮，我們即可推算學童自出生以來每年所受的一氧化碳(CO)、二氧化氮(NO2)、臭氧(O3)、懸浮微粒(PM10)與二氧化硫(SO2)的暴露，並將其切分為出生後第一年，與出生後2~6年的暴露。我們以二階層線性回歸(Hierarchical linear regression)計算肺功能佔相較預測值百分比，並以簡單線性回歸分析肺功能與各時期汙染物的關聯性。結果：研究調查了無氣喘病史，6~15歲的535位女學童與481位男學童。在以兩個月內空氣污染平均值加以校正下，在患有過敏性鼻炎的學童中出生後2~6歲的O3與肺活量25%時之用力呼氣流速呈顯著負相關。每4ppb的O3¬上升造成肺活量25%時之用力呼氣流速4.38%下降，95%信賴區間(-8.61%, -0.14%)。在全體受試者與其他子群體中，第一年以及2~6年間所受CO, NO2, PM10, SO2, 與用力肺活量、第一秒吐氣量、肺活量25%時之用力呼氣流速、或最大呼氣中段流速等肺功能指標並無顯著關聯性。結論：除了最近兩個月之PM2.5及O3對於肺功能有不良影響之外，幼年時期所受到的臭氧汙染對於過敏性鼻炎的學童日後之肺功能有顯著影響。無過敏性鼻炎的學童則未發現類似的影響，顯示過敏性鼻炎可能為對O3產生肺功能影響之易感性指標。	zh_TW
dc.description.abstract	Background: Although air pollutants have been associated with lung function changes in children, only few studies investigated life-long exposure to ambient air pollution on the schoolchildren’s lung function. This study examined effects of air pollutants on schoolchildren’s lung function in different time period. Methods: In 2011, spirograms were obtained from a random sample of non-asthmatic children from 22 middle schools in 22 administrative districts in Taiwan after a questionnaire survey for atopic diseases. Based on air pollutant data obtained from Taiwan Environmental Protection Agency monitoring stations, concentrations of pollutants in each township was estimated using the Arc9 Geographic Information System's Kriging method. Yearly exposure of the participants to CO, NO2, O3, PM10, and SO2 was estimated according to their living townships. Hierarchical linear regression and was used to calculate lung function percent and simple linear regression was used analyze the relationship between lung function parameters and exposures in the first year after birth, and in 2-6 years of life. Results: A total of 535 girls and 481 boys without asthma history were enrolled in the study. After adjustment with 2-month average exposure, forced expiratory volume in forced expiratory flow at 25% of FVC (FEF25%) was negatively associated with O3 in 2-6 years of life. Each 4 ppb O3 increment 2-6 years of life was related to 4.38% decrement of FEF25% with 95% confidence interval [-8.61%, -0.14%]. Exposure to CO, NO2, PM10, or SO2 in the first year of life and 2-6 years had no significant association with forced vital capacity, forced expiratory volume in 1 second, forced expiratory flow at 25% of FVC, and maximal-mid expiratory flow (MMEF) in complete study group or in other subgroup analysis. Conclusion: In addition to the negative effect of past two-months level of PM2.5 and ozone, early life exposure to ozone has significant negative influence on lung function in schoolchildren with allergic rhinitis. This effect is not observed in children without allergic rhinitis. This observation indicates that allergic rhinitis may be the susceptible marker of ozone’s effect on lung function.	en
dc.description.provenance	Made available in DSpace on 2021-06-15T16:14:41Z (GMT). No. of bitstreams: 1 ntu-104-R02841001-1.pdf: 3226448 bytes, checksum: 70e14670c50567408be4575a34c7e0f6 (MD5) Previous issue date: 2015	en
dc.description.tableofcontents	口試委員會審定書………………………………………………..…… i 誌謝…………………………………………………………………… ii 中文摘要……………………………………………………………... iii Abstract……………………………………...……………………..... iv Table of contents………………………………………………………. vi List of Tables…………………………………………………………... vii List of Figures……………..…………………………………………… xi Chapter 1 Introduction………………………………………………... 1 1.1 Background…………………………………………………… 1 1.2 Objective……………………………………………………… 2 Chapter 2 Literature Review...………………………………………. 3 Chapter 3 Material and Methods……………………………………. 5 3.1 Study population……………………………………………… 5 3.2 Lung function measurement………………………………….. 6 3.3 Air pollutant exposure assessment…………………………… 7 3.4 Covariates and statistical analysis…………………….……… 9 Chapter 4 Results……………………………………………………… 12 4.1 Characteristics of the study population …..……………………12 4.2 Air pollution exposure……..………………………………….. 12 4.3 Association between lung function and air pollution in early life……13 Chapter 5 Discussion………………………………………………...... 15 5.1 Effects of air pollution in early life……..……………………...15 5.2 Possible selection and information bias...……………………...17 5.3 Exposure Assessment…………...……………………………... 18 5.4 Statistical analysis……………...……………………………… 21 5.5 Strength and limitation.………………………………………... 22 Chapter 6 Conclusion…………………………………………………. 24 Reference……………………………………………………………… 25 Appendix……………………………….………………….…………… 54
dc.language.iso	en
dc.title	幼兒時期空氣汙染對台灣1996至2004年間出生之非氣喘學童肺功能之影響	zh_TW
dc.title	The effect of early life exposure to air pollution on lung function in non-asthmatic Taiwan school children born in 1996-2004	en
dc.type	Thesis
dc.date.schoolyear	103-2
dc.description.degree	碩士
dc.contributor.coadvisor	陳保中(Pau-Chung Chen)
dc.contributor.oralexamcommittee	吳章甫(Chang-Fu Wu),陳啟信(Chi-Hsien Chen)
dc.subject.keyword	空氣汙染,孩童,臭氧,肺功能,克利金推估法,	zh_TW
dc.subject.keyword	Air pollution,Children,Ozone,Lung function,Kriging,	en
dc.relation.page	57
dc.rights.note	有償授權
dc.date.accepted	2015-08-18
dc.contributor.author-college	公共衛生學院	zh_TW
dc.contributor.author-dept	職業醫學與工業衛生研究所	zh_TW
顯示於系所單位：	職業醫學與工業衛生研究所

文件中的檔案：

檔案	大小	格式
ntu-104-1.pdf 目前未授權公開取用	3.15 MB	Adobe PDF

顯示文件簡單紀錄

系統中的文件，除了特別指名其著作權條款之外，均受到著作權保護，並且保留所有的權利。