丙烯腈暴露勞工體內血紅素共價鍵結物之研究

Szu-Yi Yu; 余思儀

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/39273

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	吳焜裕
dc.contributor.author	Szu-Yi Yu	en
dc.contributor.author	余思儀	zh_TW
dc.date.accessioned	2021-06-13T17:25:12Z	-
dc.date.available	2016-10-03
dc.date.copyright	2011-10-03
dc.date.issued	2011
dc.date.submitted	2011-07-13
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Long-term carcinogenicity bioassays on acrylonitrile administered by inhalation and by ingestion to Sprague-Dawley rats. Ann N Y Acad Sci 534: 179-202. Benz FW, Nerland DE, Li J, Corbett D. 1997a. Dose dependence of covalent binding of acrylonitrile to tissue protein and globin in rats. Fundam Appl Toxicol 36(2): 149-156. Johannsen FR, Levinskas GJ. 2002a. Comparative chronic toxicity and carcinogenicity of acrylonitrile by drinking water and oral intubation to Spartan Sprague-Dawley rats. Toxicol Lett 132(3): 197-219. Quast JF. 2002. Two-year toxicity and oncogenicity study with acrylonitrile incorporated in the drinking water of rats. Toxicol Lett 132(3): 153-196. Johannsen FR, Levinskas GJ. 2002b. Chronic toxicity and oncogenic dose-response effects of lifetime oral acrylonitrile exposure to Fischer 344 rats. Toxicol Lett 132(3): 221-247. Whysner J, Ross PM, Conaway CC, Verna LK, Williams GM. 1998. Evaluation of possible genotoxic mechanisms for acrylonitrile tumorigenicity. Regul Toxicol Pharm 27(3): 217-239. Neal BH, Collins JJ, Strother DE, Lamb JC. 2009. Weight-of-the-evidence review of acrylonitrile reproductive and developmental toxicity studies. Crit Rev Toxicol 39(7): 589-612. Kim SG, Kedderis GL, Batra R, Novak RF. 1993. Induction of rat liver microsomal epoxide hydrolase by thiazole and pyrazine: hydrolysis of 2-cyanoethylene oxide. Carcinogenesis 14(8): 1665-1670. Tavares R, Borba H, Monteiro M, Proenca MJ, Lynce N, Rueff J, et al. 1996. Monitoring of exposure to acrylonitrile by determination of N-(2-cyanoethyl)valine at the N-terminal position of haemoglobin. Carcinogenesis 17(12): 2655-2660. Au WW, Lee E, Christiani DC. 2005. Biomarker research in occupational health. J Occup Environ Med 47(2): 145-153. Tornqvist M, Fred C, Haglund J, Helleberg H, Paulsson B, Rydberg R. 2002. Protein adducts: quantitative and qualitative aspects of their formation, analysis and applications. J Chromatogr B 778(1-2): 279-308. Henderson RF, Bechtold WE, Bond JA, Sun JD. 1989. The Use of Biological Markers in Toxicology. Crit Rev Toxicol 20(2): 65-82. Miller JA. 1970. Carcinogenesis by chemicals: an overview--G. H. A. Clowes memorial lecture. Cancer Res 30(3): 559-576. Tornqvist M, Mowrer J, Jensen S, Ehrenberg L. 1986. Monitoring of Environmental Cancer Initiators through Hemoglobin Adducts by a Modified Edman Degradation Method. Anal Biochem 154(1): 255-266. Neumann HG. 1984. Analysis of Hemoglobin as a Dose Monitor for Alkylating and Arylating Agents. Archives of Toxicology 56(1): 1-6. Hemminki K, Autrup H, Haugen A. 1995. DNA and protein adducts. Toxicology 101(1-2): 41-53. Skipper PL, Tannenbaum SR. 1990. Protein adducts in the molecular dosimetry of chemical carcinogens. Carcinogenesis 11(4): 507-518. WHO. 2001. Biomarkers In Risk Assessment: Validity And Validation. Tornqvist M, Landin HH. 1995. Hemoglobin Adducts for in-Vivo Dose Monitoring and Cancer Risk-Estimation. Journal of Occupational and Environmental Medicine 37(9): 1077-1085. Benz FW, Nerland DE, Corbett D, Li J. 1997b. Biological markers of acute acrylonitrile intoxication in rats as a function of dose and time. Fundam Appl Toxicol 36(2): 141-148. Ostermangolkar SM, Macneela JP, Turner MJ, Walker VE, Swenberg JA, Sumner SJ, et al. 1994. Monitoring Exposure to Acrylonitrile Using Adducts with N-Terminal Valine in Hemoglobin. Carcinogenesis 15(12): 2701-2707. Schettgen T, Broding HC, Angerer J, Drexler H. 2002. Hemoglobin adducts of ethylene oxide, propylene oxide, acrylonitrile and acrylamide-biomarkers in occupational and environmental medicine. Toxicol Lett 134(1-3): 65-70. Bergmark E. 1997. Hemoglobin adducts of acrylamide and acrylonitrile in laboratory workers, smokers and nonsmokers. Chem Res Toxicol 10(1): 78-84. Bader M, Wrbitzky R. 2006. Follow-up biomonitoring after accidental exposure to acrylonitrile:- implications for protein adducts as a dose monitor for short-term exposures. Toxicol Lett 162(2-3): 125-131. Rydberg P, von Stedingk H, Magner J, Bjorklund J. 2009. LC/MS/MS Analysis of N-Terminal Protein Adducts with Improved Sensitivity: A Comparison of Selected Edman Isothiocyanate Reagents. Int J Anal Chem 2009: 153472. Hans von Stedingk, Per Rydberg∗, Törnqvist M. 2010. A new modified Edman procedure for analysis of N-terminal valine adducts in hemoglobin by LC-MS/MS. Journal of Chromatography B. Thermo, Editor TP. 2008. TSQ Series Hardware Manual: Thermo Scientific. von Stedingk H, Rydberg P, Tornqvist M. 2010. A new modified Edman procedure for analysis of N-terminal valine adducts in hemoglobin by LC-MS/MS. J Chromatogr B Analyt Technol Biomed Life Sci 878(27): 2483-2490. 汪禧年. 2009. 勞工丙烯腈生物暴露指標研究. 行政院勞工委員會勞工安全衛生研究所. Schulte PA, Hauser JE. 2011. The use of biomarkers in occupational health research, practice, and policy. Toxicol Lett. Page BD. 1985. Determination of acrylonitrile in foods by headspace-gas chromatography with nitrogen-sensitive detection: collaborative study. J Assoc Off Anal Chem 68(4): 776-782. Byrd GD, Fowler KW, Hicks RD, Lovette ME, Borgerding MF. 1990. Isotope dilution gas chromatography-mass spectrometry in the determination of benzene, toluene, styrene and acrylonitrile in mainstream cigarette smoke. J Chromatogr 503(2): 359-368. Symons JM, Kreckmann KH, Sakr CJ, Kaplan AM, Leonard RC. 2008. Mortality among workers exposed to acrylonitrile in fiber production: an update. J Occup Environ Med 50(5): 550-560. Benn T, Osborne K. 1998. Mortality of United Kingdom acrylonitrile workers--an extended and updated study. Scand J Work Environ Health 24 Suppl 2: 17-24. Bishop CW, Surgenor DM. 1964. The red blood cell : a comprehensive treatise. New York: Academic Press. Jain NC. 1993. 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dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/39273	-
dc.description.abstract	丙烯腈(Acrylonitrile, CAS no. 107-13-1)c為一工業上常用之化學原料或聚合單體原料，主要作為製造ABS 樹酯的原料，另外也用來製造人造纖維、塑膠、橡膠、SAN 樹酯、丙烯醯胺；台灣去年(民國99年)進口丙烯腈原料約11萬公噸，約有3萬名勞工暴露在丙烯腈之下。根據International Agency for Research on Cancer (IARC)丙烯腈被歸類為Group 2B，疑似人類致癌物。其親電性質在動物實驗上已證實會導致癌症風險增加，但是在流行病學研究上對丙烯腈人類的致癌危害並無具體的結論。丙烯腈在進入人體內後會與蛋白質上的胺基酸形成共價鍵結，其中與血紅素(Hemoglobin) N端之纈胺酸(Valine)鍵結形成N-2-Cyanoethyl-valine(CEV)，此CEV即丙烯腈之血紅素共價鍵結物(Hemoglobin adduct)，動物實驗也證實在低濃度暴露時CEV會與暴露濃度呈線性相關。因此利用修正之艾德蒙降解(modified Edman degradation)切下CEV可做為丙烯腈暴露的血液生物指標。本研究目的在於利用修正的艾德蒙降解，處理血液當中之血紅素並以液相層析串質譜儀(LC-MS/MS)作定量分析，分析並探討以CEV作為職場勞工長期丙烯腈暴露指標。實驗的結果發現AN暴露組CEV濃度範圍為ND~45655 pmol/g globin，平均值為5138.5 pmol/g globin，而非暴露組之濃度範圍為ND~1900.2 pmol/g globin，平均值為1212.9 pmol/g globin，暴露組有顯著高於非暴露組，對照其個人空氣採樣結果後發現，即使個人空氣採樣丙烯腈濃度低於偵測極限(0.002 ppm)仍可在其體內分析得到CEV。目前丙烯腈為動物致癌物，為保護國人健康安全，未來也可以分析體內CEV作AN生物指標作為職場勞工AN暴露參考值，以改善職場環境保護職場勞工。	zh_TW
dc.description.abstract	Acrylonitrile(AN, CAS no. 107-13-1) is a common chemical used in industrial and a monomer used extensively in the production of plastics, synthetic fibers, and rubber. Last year(2010), there were about 114,000 tones of AN imported in Taiwan and there were about 30,000 wokers potentially expose to AN. AN is classified in Group 2B by IARC due to its carcinogenicity to experimental animals. In vivo genotoxicity studies shown AN a weak mutagen, particularly in the presence of metabolic activation enzymes. However, it is still not conclusive in AN carcinogenity to human. Once AN absorbed, it could bind covalently with amino acid, such as cysteine and valine of proteins. AN binds with N-terminal valine of hemoglobin to form N-2-Cyanoethyl-valine (CEV). A linear relationship between CEV and AN exposures. CEV could be digested from hemoglobin with the modified Edman degradation and further analyzed with LC-MS/MS. Sixty three workers exposed to AN at workplaces and 8 staff worker serving as control were recruited for this study. The concentrations of CEV in the AN-exposed workers are ND~45655 pmol/g globin, and the concentrations of CEV in the non-exposed are ND~1900.2 pmol/g globin. The CEV level is significantly higher in AN-exposed group than those in the non-exposed group. Compared with the air sampling data less than the regulation of occupational hygiene( 2 ppm) and mainly undetectable, the CEV are still detectable. Results from this study demonstrate that an LC-MS/MS method was successfully developed to analyze CEV after hemoglobin was processed with the modified Edman degradation and CEV can serve as a biomarker for long-term AN exposures.	en
dc.description.provenance	Made available in DSpace on 2021-06-13T17:25:12Z (GMT). No. of bitstreams: 1 ntu-100-R98841001-1.pdf: 1868137 bytes, checksum: f3345c43f426af5fa577127945018daf (MD5) Previous issue date: 2011	en
dc.description.tableofcontents	致謝 i 摘要 iii Abstract iv 目錄 v 圖目錄 vii 表目錄 ix 第一章前言 1 1.1 丙烯腈基本資訊 1 1.2 人類流行病學研究與急性毒理 3 1.3 動物實驗研究 5 1.4 代謝機制 7 1.5 生物指標 8 1.6 蛋白質共價鍵結物 10 1.7 修正之艾德蒙降解方法(Modified Edman Degardation) 14 第二章材料與方法 16 2.1 個案收集 16 2.2 分析方法 16 2.3 血液分析 21 2.4 統計方法 22 第三章結果與討論 23 3.1. 標準品合成 23 3.2. 血液樣本分析 26 3.3. 暴露資料 29 3.4. 統計結果 31 3.5. 討論 33 3.6. 丙烯腈長期暴露生物指標之探討 40 3.7. 研究限制 42 第四章結論與建議 43 參考文獻 45 附錄 49
dc.language.iso	zh-TW
dc.subject	丙烯&#33096	zh_TW
dc.subject	血紅素共價鍵結物	zh_TW
dc.subject	LC-MS/MS	en
dc.subject	Acrylonitrile	en
dc.subject	N-2-Cyanoethyl-valine	en
dc.title	丙烯腈暴露勞工體內血紅素共價鍵結物之研究	zh_TW
dc.title	The Study of a Hemoglobin Adduct of Acrylonitrile in Exposed Workers	en
dc.type	Thesis
dc.date.schoolyear	99-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	汪禧年,鄭尊仁,林靖瑜
dc.subject.keyword	丙烯&#33096,血紅素共價鍵結物,	zh_TW
dc.subject.keyword	Acrylonitrile,N-2-Cyanoethyl-valine,LC-MS/MS,	en
dc.relation.page	82
dc.rights.note	有償授權
dc.date.accepted	2011-07-14
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
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