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http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/35461完整後設資料紀錄
| DC 欄位 | 值 | 語言 |
|---|---|---|
| dc.contributor.advisor | 馬一中(Yee-Chung Ma) | |
| dc.contributor.author | Pei-Jung Chen | en |
| dc.contributor.author | 陳沛蓉 | zh_TW |
| dc.date.accessioned | 2021-06-13T06:53:51Z | - |
| dc.date.available | 2005-08-04 | |
| dc.date.copyright | 2005-08-04 | |
| dc.date.issued | 2005 | |
| dc.date.submitted | 2005-07-27 | |
| dc.identifier.citation | 1. Phillips M. Breath tests in medicine. Sci Am 1992; 267:74-9.
2. Donovan A. Antoine Lavoiser. Oxford. Blackwell Science Biographies 1993. 3. Phillips MG, Greenberg J. Ion-trap detection of volatile organic-compound in alveolar breath. Clin Chem 1992; 38:60-5. 4. Wyse CA, Preston T, Yam PS, Sutton DG, Christley RM, Hotchkiss JW, Current and future uses of breath analysis as a diagnostic tool. Vet Rec 2004; 154:353-60. 5. Paredi P, Kharitonov SA, Barnes PJ. Elevation of exhaled ethane concentrations in asthma. Am J Respir Crit Care Med 2000; 162:1450-4. 6. Sedghi S, Keshavarzian A, Klamut M, Eiznhamer D, Zarling EJ. Elevated ethane levels in active ulcerative colitis: evidence for excessive lipid peroxidation. Am J Gastroenterol 1994; 89. 7. Phillips M, Gleeson K, Hughes JM, Greenberg J, Cataneo RN, Baker L, et al. Volatile organic compounds in breath as markers of lung cancer: a cross-sectional study. Lancet 1999; 353:1930-3. 8. Cheng WH, Lee WJ. Technology development in breath microanalysis for clinical diagnosis. J Lab Clin Med 1999; 133:218-28. 9. Phillips M, Erickson GA, Sabas M, Smith JP, Greenberg J. Volatile organic compounds in the breath of patients with schizophrenia. J Clin Pathol 1995; 48:466-99. 10. Daisey JM, Hodgson AT, Fisk WJ, Brinke JT. Volatile organic compounds in twelve California office buildings: Classes, concentrations and sources. J Air Waste Manage Assoc 1994; 15. 11. 高雄市政府環境保護局全球資訊網. http://www.depkmg.gov.tw/chinese/exchange/qa/qa.asp. 12. Phillips M, Herrera J, Krishnan S, Zain M, Greenberg J, Cataneo R. Variation in volatile organic compounds in the breath of normal humans. J Chromatogr B Biomed Sci Appl 1999; 729:75-88. 13. Fenske JD, Paulson SE. Human breath emissions of VOCs. J Air Waste Manage Assoc 1999; 49:594-8. 14. Miekisch W, Schubert JK, Noeldge-Schomburg GFE. Diagnostic potential of breath analysis - focus on volatile organic compounds. Clinica Chimica Acta 2004; 347:25-39. 15. Phillips M, Greenberg J, Grodman R, Gunawardena R, Naidu A. Effect of oxygen on breath markers of oxidative stress. Eur Respir J 2003; 21:48-51. 16. Phillips M, Greenberg J, Gunawardena R, Naidu A, Rahbari-Oskoui F. Effect of age on the breath methylated alkane contour, a display of apparent new markers of oxidative stress. J Lab Clin Med 2000:243-9. 17. William WB, Robert FL. Advances in immunology: Asthma. N Engl J Med 2001; 344:350-62. 18. Cookson W. The alliance of genes and environment in asthma and allergy. Nature 1999; 402 Suppl:B5-B11. 19. Prescott SL, Macaubas C, Holt BJ, Smallacombe TB, Loh R, Sly PD. Transplacental priming of the human immune system to environmental allergens: universal skewing of initial T cell responses toward the Th2 cytokine profile. J Immunol 1998; 160:4730-7. 20. Stein RT, Sherrill D, Morgan WJ, Holberg CJ, Halonen M, Taussig LM. Respiratory syncytial virus in early life and risk of wheeze and allergy by age 13 years. Lancet 1999; 354:541-5. 21. Halonen M, Stern DA, Lohman C, Wright AL, Brown MA, Martinez FD. Two subphenotypes of childhood asthma that differ in maternal and paternal influences on asthma risk. Am J Respir Crit Care Med 1999; 160:564-70. 22. Venables KM, Chan-Yeung M. Occupational asthma. Lancet 1997; 349:1465-9. 23. Kathleen JH, Mary ES, Barry RW, Harry PK, John JR, Steven JM. Inflammatory cell distribution within and along asthmatic airways. Am J Respir Crit Care Med 1998; 158:565-72. 24. Kraft M, Djukanovic R, Wilson S, Holgate ST, Martin RJ. Alveolar tissue inflammation in asthma. Am J Respir Crit Care Med 1996; 154:1505-10. 25. Antonio MV, Pascal C, Alison MC, Francoise S, Bernard L, Ingrid E. Airway inflammation in mild intermittent and in persistent asthma. Am J Respir Crit Care Med 1998; 157:403-9. 26. Hamid QA, Minshall EM. Molecular pathology of allergic disease I: Lower airway disease. J Allergy Clin Immunol 2000; 105:20-36. 27. Chung K, Barnes PJ. Cytokines in asthma. Thorax 1999; 54:825-57. 28. Roitt IM, Brostoff J, Male DK. Immunology 5th ed. Mosby International Limited 1998. 29. Burrows B, Martinez FD, Halonen M, Barbee RA, Cline MG. Association of asthma with serum IgE levels and skin-test reactivity to allergens. N Engl J Med 1989; 320:271-7. 30. Varner AE, Lemanske RF. The early and late response to allergen. In: Busse WW, Holgate ST, eds. Asthma and rhinitis. 2nd ed. London: Blackwell Science 2000:1172-85. 31. Noah TL, Becker S. Chemokines in nasal secretions of normal adults experimentally infected with respiratory syncytial virus. Clin Immunol 2000; 97:43-9. 32. Peters SP, Zangrilli J, Gish JE. Book: Late phase allergic reactions. In: Middleton E Jr, Reed CE,Ellis EF,Adkinson NF Jr,Yunginger JW,Busse WW, eds. Allergy: principles & practice. 5th ed. Vol.1. St. Louis: Mosby -Year. 1998:342-55. 33. Brandenburg A, van Beek R, Moll HA, Osterhaus ADME, Claas ECJ. G protein variation in respiratory syncytial virus group A does not correlate with clinical severity. J Clin Microbiol 2000; 38:3849-52. 34. Sanderson CJ. Interleukin-5,eosinophils, and disease. Blood 1992; 79:3101-9. 35. Rothenberg ME. Eosinophilia. N Engl J Med 1998; 338:1592-600. 36. Wardlaw AJ. Molecular basis for selective eosinophil trafficking in asthma: a multistep paradigm. J Allergy Clin Immunol 1999; 104:917-26. 37. Barnes PJ. Reactive oxygen species and airway inflammation. Free Radic Biol Med 1990; 9:235-43. 38. Rahman I, Morrison D, Donaldson K, MacNee W. Systemic oxidative stress in asthma, COPD, and smokers. Am J Respir Crit Care Med 1996; 154:1055-60. 39. Joseph BZ, Routes JM, Borish L. Activities of superoxide dismutases and NADPH oxidase in neutrophils obtained from asthmatic and normal donors. Inflammation 1993; 17:361-70. 40. Kneepkens CM, Lepage G, Roy CC. The potential of the hydrocarbon breath test as a measure of lipid. Free Radic Biol Med 1994; 17:127?0. 41. Kharitonov S, Barnes P. Exhaled markers of pulmonary disease. Am J Respir Crit Care Med 2001; 163:1693-722. 42. Rumchev K, Spickett J, Bulsara M, Phillips M, Stick S. Association of domestic exposure to volatile organic compounds with asthma in young children. Thorax 2004; 59:746-51. 43. Astrand R, Rodahl K. Textbook of Work physiology-physiological bases of exercise. McGraw-Hill Internaional Editions. 1986. 44. Grote C, Pawliszyn J. Solid-phase microextraction for the analysis of human breath. Anal Chem 1997; 69:587-96. 45. Phillips M. Method for the collection and assay of volatile organic compounds in breath. Anal Biochem 1997; 247:272-8. 46. Foster WM, Jiang L, Stetkiewicz PT, Risby TH. Breath isoprene: temporal changes in respiratory output after exposure to ozone. J Appl Physiol 1996; 80:706-10. 47. Mendis S, Sobotka PA, Euler DE. Expired hydrocarbons in patients with acute myocardial infarction. Free Radic Res 1995; 23:117-22. 48. Hong KU, Reynolds SD, Watkins S, Fuchs E, Stripp BR. In vivo differentiation potential of tracheal basal cells: evidence for multipotent and unipotent subpopulations. Am J Physiol Lung Cell Mol Physiol 2004; 286:643-9. 49. 林冠宇 偵測呼出氣體中所含揮發性有機物作為指標在環境衛生上的應用-可行性探討 碩士論文 2004 | |
| dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/35461 | - |
| dc.description.abstract | 本研究之目的是要比較氣喘兒童與非氣喘兒童呼出氣體中揮發性有機物的差異,並藉由問卷與統計將所定性的物種與居家環境因子作連結,探討其中的相關性。
研究設計為橫斷研究法,採立意取樣,以台灣北部某醫學中心小兒氣喘科、眼科及兒童視力保健科門診的病童為研究對象,總共收得60名兒童,年齡範圍介於4到12歲間,分為氣喘兒童30名,非氣喘兒童30名。以自填式問卷方式收集資料,包括基本人口學資料、生活習慣、居家環境、氣喘狀況等,並當場採集兒童之呼出氣體及現場環境空氣,之後再利用氣相層析質譜儀分析呼出氣體及現場環境空氣中揮發性有機物,並採用半定量方式來定量。 在所偵測到的揮發性有機物中定性其中64個物種,種類包括直鏈及支鏈碳氫化合物、酮類及醇類、呋喃類、芳香族、硫化物、含氯化合物、含氮化合物及其他類等;實驗結果使用SPSS13.0軟體進行統計分析,發現有12種化合物的肺泡氣體含量濃度梯度在兩組間的比較達統計上的顯著差異(P<0.05);將這些達顯著差異之化合物的肺泡氣體含量濃度梯度與問卷題目進行複迴歸分析,其中10種化合物分別與兒童上學交通方式、家長抽菸、家中是否從事家庭手工、寵物有無、裝潢狀況、家中煮飯頻率、芳香劑使用頻率、蚊香使用頻率、灰塵多寡等生活或環境因子達統計上的顯著差異(P<0.05)。 研究結果顯示氣喘兒童會呼出2-methyl-1,3-pentadiene、butanenitrile、1-methyl-1H-pyrrole及3-hexanone,但對照兒童並不會呼出;另外isoprene、1-(methylthio)-propane在兩組皆為內生性且氣喘組大於對照組,這些化合物或許可用來當作氣喘的指標。 | zh_TW |
| dc.description.abstract | The objective of this study was to clarify the differences of volatile organic compounds (VOCs) in exhaled air between the asthmatic children and the non-asthmatic children. This article also discusses the correlation between the VOCs and several different indoor environments with questionnaire and statistics.
This was a cross-sectional study and purposive selection was taken. All cases came from the out-patient departments of pediatrics and ophthalmology of a medical center in northern Taiwan. There were 60 children total and the range of age was from 4 to 12 years old. 30 of them were asthmatic and others were non-asthmatic. Basic demographic data, life styles, indoor environments and the conditions of asthma were all collected by questionnaire. The exhaled air and the indoor air collected at the out-patient departments of pediatrics and ophthalmology were analyzed by GC/MS and semiquantitative analyses were also done. We focused on 64 kinds of VOCs, such as hydrocarbon, ketone, aldehyde, alcohol, furan, aromatics, sulfur compounds, chlorinate species, nitrogen containing species, etc. The results of the experiment were analyzed by statistical software SPSS13.0. 12 kinds of VOCs showed significant differences in alveolar gradients between the two groups (P<0.05). 10 out of these 12 kinds of VOCs showed significant differences (P<0.05) with regard to the means of transport to school, parents smoke, family handiwork, pets, upholsteries, dust, the frequency of cooking, aromatic and mosquito coil incense usage by multiple regression. This research has demonstrated that asthmatic children exhaled 2-methyl-1,3-pentadiene, butanenitrile, 1-methyl-1H-pyrrole and 3-hexanone, but the children in the control group didn’t. Isoprene and 1-(methylthio)-propane are endogenous compounds (proved by positive AG value) and were exhaled in both groups. The AG values of isoprene and 1-(methylthio)-propane were greater in the asthmatic group than in the control group. These compounds may be the candidates for markers of asthma. | en |
| dc.description.provenance | Made available in DSpace on 2021-06-13T06:53:51Z (GMT). No. of bitstreams: 1 ntu-94-R92844008-1.pdf: 921495 bytes, checksum: 254c0be4922b992b4e6ed8eb1e994043 (MD5) Previous issue date: 2005 | en |
| dc.description.tableofcontents | 目錄 I
表目錄 IV 圖目錄 V 摘要 VII ABSTRACT VIII 第一章 緒論 1 1.1 研究動機 1 1.2 研究目的 1 1.3 研究架構 2 第二章 文獻探討 3 2.1 揮發性有機物(VOLATILE ORGANIC COMPOUNDS, VOCS) 3 2.2 呼出氣體中的揮發性有機物 4 2.3 內生性揮發性有機物的產生與特性 4 2.4 氧化壓力指標 5 2.4 氣喘 5 2.4.1 免疫病理特徵 6 2.4.2 過敏發炎反應 6 2.4.3 相關免疫細胞 7 2.5 氣喘呼出氣體相關研究 8 第三章 材料與方法 10 3.1 研究對象 10 3.2 實驗設計 10 3.2.1 實驗器材 10 3.2.2 儀器設備 12 3.3 前處理及前置作業 12 3.3.1 採樣管填充 12 3.3.2 採樣管調態(Conditioning) 13 3.3.3 採樣管保存 13 3.3.4 採樣管流量校正 13 3.3.5 採樣袋淨化 14 3.3.6 採樣裝置 14 3.3.7 問卷設計 14 3.4 採樣流程 14 3.4.1 問卷填答 14 3.4.2 呼出氣體的採集 15 3.4.3室內空氣中VOCs的採集 15 3.4.4 呼出氣體中VOCs的採集 15 3.5 分析流程 15 3.5.1 熱脫附儀上機前調態 15 3.5.2 氣相層析質譜儀上機前調態 16 3.5.3 儀器空白之確認 16 3.5.4 上機分析 16 3.6 儀器條件設定 17 3.6.1 熱脫附裝置(O•I•Analytical Model 4560) 17 3.6.2 低溫濃縮捕集器(Cryo-Focus Module,CFM) 17 3.6.3 氣相層析儀(HP6890) 17 3.6.4 質譜儀(HP5973) 18 3.7 定性與定量 18 3.7.1 定性分析 18 3.7.2 定量分析 18 3.7.3 肺泡氣體含量濃度梯度(Alveolar Gradients, AG) 18 3.8 實驗QA/QC 20 3.8.1 現場空白樣品(Field blank sample) 20 3.8.2 運送空白樣品(Trap blank sample) 20 3.8.3 方法空白樣品(Method blank sample) 20 3.8.4 樣品重複分析(Sample duplicate) 20 3.8.5 儀器空白試驗 21 3.8.6 內標品質管制 21 3.9 統計分析 21 第四章 結果與討論 22 4.1 QA/QC 22 4.1.1 空白試驗 22 4.1.2 重複樣品 22 4.1.3 品質管制圖 22 4.2 基本人口學資料 23 4.3 定性與定量 23 4.3.1 定性分析 23 4.3.2 半定量分析 24 4.3.3 肺泡氣體含量濃度梯度 25 4.4 氣喘組與對照組的比較 25 4.4.1 統計分析 25 4.4.2 綜合討論 27 第五章 結論 30 參考文獻 32 | |
| dc.language.iso | zh-TW | |
| dc.title | 氣喘兒童呼出氣體中揮發性有機物之分析研究 | zh_TW |
| dc.title | Volatile Organic Compounds in Exhaled Air of Asthma Children | en |
| dc.type | Thesis | |
| dc.date.schoolyear | 93-2 | |
| dc.description.degree | 碩士 | |
| dc.contributor.oralexamcommittee | 林嘉明(Jia-Ming Lin),陳保中(Pau-Chung Chen) | |
| dc.subject.keyword | 呼出氣體,揮發性有機物,氣喘,居家環境,氣相層析質譜儀, | zh_TW |
| dc.subject.keyword | exhaled air,volatile organic compounds,asthma,indoor environment,GC/MS, | en |
| dc.relation.page | 75 | |
| dc.rights.note | 有償授權 | |
| dc.date.accepted | 2005-07-28 | |
| dc.contributor.author-college | 公共衛生學院 | zh_TW |
| dc.contributor.author-dept | 環境衛生研究所 | zh_TW |
| 顯示於系所單位: | 環境衛生研究所 | |
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