题名

基因科技/基因禁藥研究:臺灣運動領域之認識架構

并列篇名

Gene Technology/Gene Doping Research: The Frame of Comprehension in Taiwan's Sports Field

DOI

10.6194/SCS.202103_(61).0004

作者

孫佳婷(Chia-Ting Sun)

关键词

基因治療 ; 生物技術革命 ; 運動競技表現 ; 國際奧林匹克委員會 ; 世界運動禁藥管制組織 ; gene therapy ; biotechnology revolution ; athletic performance ; International Olympic Committee (IOC) ; World Anti-Doping Agency (WADA)

期刊名称

運動教練科學

卷期/出版年月

61期(2021 / 03 / 01)

页次

41 - 51

内容语文

繁體中文
中文摘要

本研究之目的在爬梳臺灣運動領域中,基因科技/基因禁藥既有研究之現況與邊界。研究問題有二:臺灣的運動領域目前對基因科技/基因禁藥的認識為何?又是以什麼架構去進行理解?本研究以「基因禁藥」、「基因選才」、「運動基因」與「基因科技」作為關鍵詞進行繁體中文文獻搜索,並採文本分析方法對研究分布進行探究。本研究結果發現,臺灣運動領域目前對基因科技/基因禁藥的認識,主要聚焦在特定候選基因之機轉與生理作用,較少觸及其他基因科技之技術範疇,既有研究則多出自運動生理學門及特定實驗室,同時缺乏運動人文社會科學研究之參與,以及實驗法以外的研究方法,故不論在題旨、內容與方法上皆呈現較為單一的視域。本研究結論,未來研究者應積極開展有關基因科技/基因禁藥的新研究論題與分析面向,並尋求因應的可能。
英文摘要

The purpose of this study is to determine the current status and boundaries of the existing research on gene technology/gene doping in the sports field of Taiwan. Two research questions are thus proposed: What is the current comprehension of Taiwan's sport field on gene technology/gene doping? What framework is used to develop our understanding? I adopted text analysis as the method in this study to analyze the research published in traditional Chinese and resulting from searches with the keywords "gene doping," "sport talent identification by gene," "sport genes," and "gene technology." The results show that the sports field in Taiwan is mainly focused on the mechanism and physiological effects of specific candidate genes and has not yet started to study other gene technologies. Existing research primarily comes from sport physiology and particular laboratories. Furthermore, I found that few scholars of sports humanities and social sciences are currently participating in this issue, and research methods other than experimental methods are rarely used. Therefore, a relatively single horizon has emerged in terms of topics, content, and methods. The conclusion of this study is that future researchers should actively develop new research topics and analytical aspects of gene technology/gene doping, and seeking possibilities for response is also necessary.
主题分类 社會科學 > 體育學
参考文献
  1. Jirásek, I.,石明宗,許立宏(2011)。運動與朝聖—人工科技化與靈性。運動文化研究,17,135-177。
    連結:
  2. 方世華(2014)。從基因治療到基因禁藥。運動教練科學,35,1-16。
    連結:
  3. 吳忠芳(2005)。耐力運動表現與血管緊縮素轉化酶。中華體育季刊,19(4),10-16。
    連結:
  4. 李麗珍,陳慕聰,黃宏裕,陳宗與,蘇福新(2005)。運動調控基因表現:與健康相關性之研究。大專體育學刊,7(2),287-299。
    連結:
  5. 卓俊伶(2011)。體育與運動科學研究現況的批判與省思。體育學報,44(3),315-332。
    連結:
  6. 林瑞興,吳銘庭(2006)。ACE 基因型與運動員心臟及耐力運動表現。中華體育季刊,20(1),31-39。
    連結:
  7. 邱麗玲,謝玲玲,顏克典,謝伸裕(2007)。ACTN3 與 ACE 基因多形性與優秀爆發型運動員的相關性。體育學報,40(4),1-12。
    連結:
  8. 孫芮蓁,許美智(2012)。概述運動員生物檢測護照。大專體育,118,72-77。
    連結:
  9. 張鵬遠,毛彥明,徐台閣(2007)。血管張力素轉化酶基因與優秀跆拳道選手之關係。體育學報,40(3),29-38。
    連結:
  10. 張鵬遠,徐台閣(2006)。血管張力素轉化酶及 α- 輔肌動蛋白基因與運動表現之關係。中華體育季刊,20(3),28-35。
    連結:
  11. 許宏志,方世華(2019)。從治療到禁藥:基因與細胞禁藥對運動員的影響。中華體育季刊,33(4),243-250。
    連結:
  12. 陳慕聰,李麗珍(2004)。基因晶片在運動科學研究之潛在應用價值。大專體育,72,41-44。
    連結:
  13. 陳聰毅(2004)。運動訓練對骨骼肌肥大及能量氧化能力之基因表現的影響。中華體育季刊,18(1),28-34。
    連結:
  14. 曾怡鈞,許美智(2013)。增進耐力運動表現之相關基因與蛋白質。大專體育,125,56-64。
    連結:
  15. 游美惠(2000)。內容分析、文本分析與論述分析在社會研究的運用。調查研究,8,5-42。
    連結:
  16. 湯添進,陳昱文,黃郁婷(2017)。運動社會學的發展脈絡、理論與主流議題。體育學報,50(1),1-17。
    連結:
  17. Al-Khelaifi, F.,Diboun, I.,Donati, F.,Botrè, F.,Abraham, D.,Hingorani, A.(2019).Metabolic GWAS of elite athletes reveals novel genetically-influenced metabolites associated with athletic performance.Scientific Reports,9,19889.
  18. Antidoping Schweiz. (2021). M3 Gene and cell doping. Retrieved from https://www.antidoping.ch/en/prevention/education/mobile-lesson/m3-gene-and-cell-doping。
  19. Athlome Consortium. (2016). Cohorts & funding. Retrieved from http://www.athlomeconsortium.org/cohorts-and-funding/。
  20. Bomtempo, T. V.(2016).Doping genético e eugenia: Diálogos além do esporte.Revista Latinoamericana de Bioética,16(2),82-101.
  21. Camporesi, S.,McNamee, M.(2018).Bio-ethics, genetics and sport.London, UK:Routledge.
  22. Cantelmo, R. A.,da Silva, A. P.,Mendes-Junior, C. T.,Dorta, D. J.(2020).Gene doping: Present and future.European Journal of Sport Science,20(8),1093-1101.
  23. Fischetto, G.,Bermon, S.(2013).From gene engineering to gene modulation and manipulation: Can we prevent or detect gene doping in sports?.Sports Medicine,43(10),965-977.
  24. Furtado, R. N.(2019).Gene editing: The risks and benefits of modifying human DNA.Revista Bioética,27(2),223-233.
  25. Kim, S.,Kleimeyer, J. P.,Ahmed, M. A.,Avins, A. L.,Fredericson, M.,Dragoo, J. L.,Ioannidis, J. P. A.(2017).A genetic marker associated with shoulder dislocation.International Jour-nal of Sports Medicine,38(7),508-514.
  26. Lewandowska, A.,Leźnicki, M.(2016).Doping w sporcie jako problem etyczno-społeczny.Journal of Education, Health and Sport,6(7),548-555.
  27. Locke, L. F.,Spirduso, W. W.,Silverman, S. J.,項靖(譯),陳儒晰(譯),陳玉箴(譯),李美馨(譯)(2001).論文計劃與研究方法.臺北市:韋伯.
  28. Loland, S.(2002).Fair play in sport: A moral norm system.New York, NY:Routledge.
  29. Mazzeo, F.,Santamaria, S.,Montesano, P.,Rinaldi, M.,Madonna, G.(2020).Updated evidence report for the anti-doping research: Analysis from 2008 to 2018 for performance-enhancing drugs and gene doping test development.Journal of Physical Education & Sport,20,2378-2385.
  30. Mehlman, M. J.(2009).Genetic enhancement in sport: Ethical, legal, and policy concerns.Performance-enhancing technologies in sports: Ethical, conceptual and scientific issues,Baltimore, MD:
  31. Neuberger, E. W. I.,Simon, P.(2017).Gene and cell doping: The new frontier-Beyond myth or reality.Acute topics in anti-doping,Basel, Switzerland:
  32. Nussbaum, R. L.,McInnes, R. R.,Willard, H. F.(2001).Genetics in medicine.Philadelphia, PA:W.B. Saunders.
  33. Parens, E.,Johnston, J.(2019).Human flour-ishing in an age of gene editing.New York, NY:Oxford University Press.
  34. Ranisch, R.(2021).When CRISPR meets fantasy: Transhumanism and the military in the age of gene editing.Transhumanism: The proper guide to a posthuman condition or a danger-ous idea?,Cham, Switzerland:
  35. Synovitz, R., & Eshanova, Z. (2014, January 09). Uzbekistan plunges into gene pool to spot future Olympians. RadioFreeEurope. Retrieved from https://www.rferl.org/a/uzbekistan-genetic-testing-children-athletes/25224941.html
  36. Tanisawa, K.,Wang, G.,Seto, J.,Verdouka, I.,Twycross-Lewis, R.,Karanikolou, A.(2020).Sport and exercise genomics: The FIMS 2019 consensus statement update.British Journal of Sports Medicine,54(16),969-975.
  37. The Hastings Center. (2021a). Genetics. Retrieved from https://www.thehastingscenter.org/category/genetic-testing-screening/。
  38. The Hastings Center. (2021b). Special reports. Retrieved from https://www.thehastingscenter.org/publications-resources/special-reports-2/。
  39. Unal, M.,Unal, D. O.(2004).Gene doping in sport.Sport Medicine,34(6),357-362.
  40. van der Gronde, T.,de Hon, O.,Haisma, H. J.,Pieters, T.(2013).Gene doping: An overview and current implications for athletes.British Journal of Sports Medicine,47(11),670-678.
  41. Vlahovich, N.,Fricker, P. A.,Brown, M. A.,Hughes, D.(2017).Ethics of genetic testing and research in sport: A position statement from the Australian Institute of Sport.British Journal of Sports Medicine,51(1),5-11.
  42. Wang, G.(2016).O-34 Discovery genome-wide association studies of elite sprint performance with imputation and replication.British Journal of Sports Medicine,50(1),A19.
  43. World Anti-Doping Agency. (2021). Prohibited list documents. Retrieved from https://www.wada-ama.org/en/resources/science-medicine/prohibited-list-documents。
  44. 李祖遠(1996)。從分子生物學的角度看運動訓練的專一性。中華體育季刊,10(2),74-80。
  45. 周資眾,巴唐志強,方進隆(2014)。從基因角度探討運動選材。屏東教大體育,17,145-153。
  46. 林建光(2013)。導論。賽伯格與後人類主義,臺中市:
  47. 莊泰源,林聯喜,黃頂翔,林信甫,丁詩同(2011)。運動選才的過去、現況及未來展望。臺大體育,52,17-26。
  48. 許嫚真,詹貴惠(2011)。運動禁藥之紅血球生成刺激劑。臺灣體育論壇,2,21-30。
  49. 蔡友月(2017 年 10 月 24 日)。為何世大運原住民選手那麼厲害?揭開種族基因論點的迷思。資料取自 https://twstreetcorner.org/2017/10/ 24/tsaiyuyueh/。
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