Publication: 國內男子足球選手與體育院校男大學生心肺適能之分析
| dc.contributor.advisor | 陳裕鏞 | |
| dc.contributor.advisor | Chen, Yue-Yawn | |
| dc.creator | 何伯瑋 | |
| dc.creator | Ho, Bo-Wei | |
| dc.date | 2009 | |
| dc.date.accessioned | 2017-02-22T16:17:49Z | |
| dc.date.accessioned | 2025-07-30T15:24:36Z | |
| dc.date.available | 2017-02-22T16:17:49Z | |
| dc.date.issued | 2017-02-22T16:17:49Z | |
| dc.description | 學位類別:碩士 | |
| dc.description | 校院名稱:國立台灣體育大學 | |
| dc.description | 系所名稱:體育研究所 | |
| dc.description | 學號:19601001 | |
| dc.description | 畢業學年度:97年 | |
| dc.description | 論文頁數:94頁 | |
| dc.description.abstract | 本研究目的是在於徵求校內21位男子足球選手與11位大學生的同意下觀察足球選手與一般生心肺適能的差異,全部受試者皆進行了修正後Bruce與登階測驗,並且用氣體分析儀全程監控他們的代謝機制和EPOC。結果發現足球選手心肺適能比一般生來得要好,心肺耐力指數藉由新加入的呼吸次數或是總EPOC可以提高預測最大攝氧量相關性。至於能量消耗方面,本研究結果發現運動心跳數與能量消耗有正相關的現象,因此將心跳數、EPOC、年齡、VO2max四項生理指標可得最佳多元迴歸公式預測能量消耗,將來可利用此公式取代昂貴的實驗儀器。未來將藉由大量的樣本以建立國人心肺耐力的新常模以及建立更有效的預測最大攝氧量與能量消耗的迴歸公式。 | |
| dc.description.abstract | To observe the differences of cardio-respiratory fitness between the football players and college students, 21 male college football players and 11 male non-athletes college students were recruited with formal consents. They all were performed the Modified Bruce protocol and Step test with the monitoring by gas analyzer to observe the types of metabolism and Excess post-exercise oxygen consumption (EPOC). The greater VO2max in male college football players was observed. The predictive equation, yielded by the combination of EPOC and total breathes, was obtained with high correlation to VO2max values. | |
| dc.description.tableofcontents | 目 次 第一章 緒論…………………………………………………………1 第一節 前言………………………………………………………1 第二節 研究背景與動機…………………………………………2 第三節 研究目的…………………………………………………5 第四節 研究問題…………………………………………………5 第五節 研究假設…………………………………………………6 第六節 研究範圍…………………………………………………6 第七節 操作型定義………………………………………………7 第二章 文獻探討……………………………………………………9 第一節 評估心肺耐力的方法……………………………………9 第二節 評估能量消耗的方法……………………………………14 第三節 足球運動與心血管疾病的相關文獻……………………17 第四節 EPOC(運動後過攝氧量)的相關文獻……………………19 第五節 本章總結…………………………………………………23 第三章 研究方法……………………………………………………24 第一節 研究架構如下:…………………………………………24 第二節 實驗時間與地點…………………………………………25 第三節 實驗設計(由左至右)如圖3-2所示:……………………25 第四節 實驗參與者………………………………………………29 第五節 身體特徵測量……………………………………………29 第六節 實驗儀器…………………………………………………31 第七節 資料處理與統計分析……………………………………33 第八節 預期效果…………………………………………………33 第四章 結果…………………………………………………………35 第一節 受試者基本資料之分析…………………………………35 第二節 受試者基本安靜生理指標………………………………36 第三節 不同組別的各項生理指標之比較………………………37 第五節 不同組別及整體各項生理數值之相關…………………43 第六節 最佳的生理指標來預測最大攝氧量及能量消耗………47 第五章 討論…………………………………………………………54 第一節 足球隊與一般生心肺適能的比較………………………54 第二節 運動強度和持續時間與運動後過攝氧量的關係………56 第三節 運動型式與EPOC的關係 ………………………………57 第四節 以心肺耐力指數加呼吸次數預測最大攝氧量…………67 第五節 以多元迴歸公式預測整體能量消耗……………………68 第六章 結論與建議…………………………………………………69 第一節 結論………………………………………………………69 第二節 建議………………………………………………………70 參考文獻………………………………………………………………71 | |
| dc.format.extent | 572477 bytes | |
| dc.format.mimetype | application/pdf | |
| dc.identifier.uri | https://ir.ntus.edu.tw/handle/987654321/70867 | |
| dc.language | zh-TW | |
| dc.publisher | 體育研究所 | |
| dc.relation.isbasedon | 中文文獻 王順正、林正常 (民84)。 登階測驗評估最大攝氧量的效度概化。中華民國體育學會體育學報,20期,351-362頁。 刁小倚 (2004)。 高中籃球運動員跑走測驗和登階測驗與最大攝氧量之研究。未出版碩士論文,國立台南大學,台南市。 林瑞興(民85)。 11至12 歲男童不同頻率登階測驗與最大攝氧量之相關研究。東師體育,3期,34-45頁。 林正常 (1996)。 運動生理學實驗指引。台北市: 師大書苑有限公司。 林正常 (1998 )。 運動生理學。台北市: 師大書苑有限公司。 張立 (2003)。 足球運動員專項有氧能力評定指標及最大有氧能力的評定方法。武漢體育學院學報,4期,48-51頁。 黃鋼 (2006)。 運動訓練對足球運動員有氧能力的影響。溫州職業技術學院學報,6卷2期,46-48頁。 陳坤檸 (民91)。應用運動生理學。台北市:五南書局。 鄭安城、林正常 (民82)。登階測驗對最大攝氧量的預估研究。中華民國體育學會體育學報,16期,327-339頁。 劉錦謀 (2007)。登階運動後不同恢復期心跳數與心肺耐力指數評估最大攝氧量之分析。運動生理暨體能學報,6期,131-142頁。 外文文獻 Asmussen E. (1946). Aerobic recovery after anaerobiosis in rest and work. Acta physiologica Scandinavica 11, 197-210. Alpert N. R. (1965). Lactate production and removal and the regulation of metabolism. Annals of the New York Academy of Sciences 119, 995-1002. Benedict F. G, Carpenter T. M. (1910). The metabolism and energy transformations of healthy man during rest. Washington, DC , The Carnegie Institute. Bang O. (1936). The lactate content of the blood during and after muscular exercise in man. Scand Arch Physiol 74 [Suppl 10]:49-82. Bonde-Petersen F, Knuttgen H. G, Henriksson J. (1972). Muscle metabolism during exercise with concentric and eccentric contractions. Journal of applied physiology 33, 792-795. Banerjee PK, Chatterjee S. (1984). Harvard step test as a measure of physical fitness in adolescent boys. Indian Jounal Medicine Respiratory 79 : 413-417. Bielinski R, Schutz Y, Jequier E. (1985). Energy metabolism during the postexercise recovery in man. The American journal of clinical nutrition 42 (1), 69-82. Brehm B. A, Gutin B. (1986). Recovery energy expenditure for steady state exercise in runners and nonexercisers. Medicine and science in sports and exercise 18, 205-210. Bahr R, Ingnes I, Vaage O, Sejersted O. M, Newsholme E. A. (1987). Effect of duration of exercise on excess postexercise O2 consumption. Journal of applied physiology 62, 485-490. Bahr R. (1992). Excess postexercise oxygen consumption: magnitude, mechanisms and practical implications. Acta physiologica Scandinavica. Supplementum 605, 1-70. Burleson Jr M. A, O’Bryant H. S, Stone M. H, et al. (1998). Effect of weight training exercise and treadmill exercise on post-exercise oxygen consumption. Medicine and science in sports and exercise 30 (4), 518-522. Christensen E. H, H6gberg P. (1950). Steady-state, 02 deficit and 02 debt at severe work. Internationale Zeitschrift für angewandte Physiologie, einschliesslich Arbeitsphysiologie 14, 251-254. Consolazio C. F, Johnson R. E, Pecora L. J. (1963). Physiological measurements of metabolic functions in man. New York:McGraw-Hill,47. Cerretelli P, Shindell P, Pendergast D. P, Di Prampero P. E, Rennie D. W. (1977). Oxygen uptake transients at the onset and offset of arm and leg work. Respiration physiology 30, 81-97. Chad K. E, Wenger H. A. (1985). The effects of duration and intensity on the exercise and post-exercise metabolic rate. Australian journal of science and medicine in sport 17 (4), 14-18 deVries H. A, Gray D. E. (1963). After effects metabolic rate. Res Q 34 (3): 314-321. Edwards H. T, Thorndike A, Dill D. B. (1935). The energy requirements in strenuous muscular exercise. The New England journal of medicine 213, 532-535. Elliot D. L, Goldberg L, Kuehl K. S. (1988). Does aerobic conditioning cause a sustained increase in the metabolic rate? The American journal of the medical sciences 296, 249-251. Furusawa K, Hill A. V, Long C. N. H, Lupton H. (1924). Muscular exercise and oxygen requirement. Proceedings of the Royal Society of London. Series B, Containing papers of a Biological character. Royal Society (Great Britain) 97, 167-176. Frey G. C, Byrnes W. C, Mazzeo R. S. (1993). Factors influencing excess postexercise oxygen consumption in trained and untrained women. Metabolism: clinical and experimental 42 (7), 822-828. Gaesser G. A, Brooks G. A. (1984). Metabolic bases of excess postexercise oxygen consumption: a review. Medicine and science in sports and exercise 16, 29-43. Gore C. J, Withers R. T. (1990). Effect of exercise intensity and duration on postexercise metabolism. Journal of applied physiology 68 (6), 2362-2368. Gilette C. A, Bullough R. C, Melby C. (1994). Postexercise energy expenditure in response to acute aerobic or resistive exercise. International journal of sport nutrition 4, 347-360. Hill A. V, Lupton H. (1923). Muscular exercise, lactic acid, and the supply and utilization of oxygen. The Quarterly journal of medicine 16, 135-171. Herxheimer H, Wissing E, Wolff E. (1926). Sp¨atwirkungen ersch¨opfender Muskelarbeit auf den Sauerstoffverbrauch. Z Gesamte Advances in experimental medicine and biology 51, 916-928. Hagberg J. M, Mullin J. P, Nagle F. J. (1980). Effect of work intensity and duration on recovery O2. Journal of applied physiology 48, 540-544. Hermansen L, Grandmontagne M, Mæhlum S, et al. (1984). Post-exercise elevation of resting oxygen uptake: possible mechanisms and physiological significance. In: Marconnet P, Poortmans J, Hermansen L, editors. Medicine and sport science. 17, 119-129. Lukin L, Ralston H. J. (1962). Oxygen deficit and repayment in exercise. Internationale Zeitschrift für angewandte Physiologie, einschliesslich Arbeitsphysiologie 19, 183-193. Margaria R, Edwards H. T, Dill O. B. (1933). The possible mechanisms of contracting and paying the oxygen debt and the role of lactic acid in muscular contraction. The American journal of physiology 106, 689-715. Maresh C. M, Abraham A, De Souza M. J, et al. (1962). Oxygen consumption following exercise of moderate intensity and duration. European journal of applied physiology 65, 421-426. Miyoshi H, Schulman G. I, Peters E. J, et al. (1988). Hormonal control of cycling in humans. The Journal of clinical investigation 81, 1545-1555. Melby C, Scholl C, Edwards G, et al. (1993). Effect of acute resistance exercise on postexercise energy expenditure and resting meta-bolic rate. Journal of applied physiology 75 (4), 1847-1853. Neary J. P, Docherty D, Wenger H. A. (1993). Post-exercise metabolic rate is influenced by elevated core temperature. Australian journal of science and medicine in sport 25 (2), 43-47. Osterberg K. L, Melby C. L. (2000) Effect of acute resistance exercise on postexercise oxygen consumption and resting metabolic rate in young women. International journal of sport nutrition and exercise metabolism 10 (1), 71-81. Pearl D. C, Carslon L. D, Sherwood W. W. (1956). Mechanism of oxygen deficit. Proceedings of the Society for Experimental Biology and Medicine. Society for Experimental Biology and Medicine 92, 277-281. Quinn T. J, Vroman N. B, Kertzer R. (1994). Postexercise oxygen consumption in trained females: effect of exercise duration. Medicine and science in sports and exercise 26 (7), 908-913. Sedlock D. A. (1994). Fitness level and postexercise energy expenditure. The Journal of sports medicine and physical fitness 34 (4), 336-342. Turley K. R, McBride P. J, Wilmore JH. (1993). Resting metabolic rate 45. measured after subjects spent the night at home vs at a clinic. The American journal of clinical nutrition 58 (2), 141-144. Thornton M. K, Potteiger J.(2002). A. Effects of resistance exercise bouts of different intensities but equal work on EPOC. Medical science 439-48 Medicine and science in sports and exercise 34 (4), 715-722. | |
| dc.subject | 心肺適能;EPOC;能量消耗 | |
| dc.subject | cardiorespiratory fitnes;EPOC;energy expenditure | |
| dc.title | 國內男子足球選手與體育院校男大學生心肺適能之分析 | |
| dc.title | THE COMPARISON OF CARDIORESPRIATORY FITNESS IN MALE PE COLLEGE STUDENTS AND FOOTBALL PLAYERS IN TAIWAN | |
| dc.type | thesis | |
| dspace.entity.type | Publication |
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