簡易檢索 / 詳目顯示

研究生: 洪鈺釗
Hung, Yu-Chao
論文名稱: 吸氣肌熱身對田徑選手耐力運動表現之影響
The effect of inspiratory muscle warm-up on endurance performance in track and field athletes
指導教授: 林淑惠
Lin, Shu-Hui
學位類別: 碩士
Master
系所名稱: 體育學系
Department of Physical Education
論文出版年: 2014
畢業學年度: 102
語文別: 中文
論文頁數: 41
中文關鍵詞: 吸氣肌熱身田徑選手最大攝氧量速度耐力運動表現
英文關鍵詞: inspiratory muscle warm-up, athletes, vVO2max, endurance performance
論文種類: 學術論文
相關次數: 點閱:216下載:26
分享至:
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報
  •   目的:本研究在探討吸氣肌熱身田徑選手耐力運動表現的影響。方法:以10名大專男性優秀田徑選手為受試對象(年齡,20 ± 1.25歲;身高,175.1 ± 4.12公分;體重,63.8 ± 4.42公斤),使用重覆量數、平衡次序原則的實驗設計,所有受試者須進行三種不同實驗處理,包括吸氣肌熱身處理 (inspiratory muscle warm-up, IMW) 、安慰劑處理 (placebo, PLA) 與控制處理 (control, CON) 。控制處理不進行吸氣肌熱身,而安慰劑處理與吸氣肌熱身處理分別以強度15%及40%的最大吸氣壓力 (maximum inspiratory mouth pressures, PImax) ,進行2組30下的吸氣肌熱身。實驗處理後,受試者在跑步機上,以100%最大攝氧量速度(vVO2max) 跑步直到衰竭。實驗過程中,分析跑步距離、血乳酸、RPE (rating of perceived exertion) 與RPB (rating of perceived breathlessness)。結果:在血乳酸、RPE與RPB,三種實驗處理間皆未達顯著差異。在耐力表現部分IMW組顯著高於CON與PLA組(CON vs. PLA vs. IMW,1532 ± 359.15 vs. 1685.2 ± 456.45 vs. 1930.40 ± 544.56 公尺,F=10.552,p<.05)。結論:本研究結果顯示,吸氣肌熱身可能可以提升田徑選手耐力運動表現,然而,這種熱身活動並未能改善血乳酸的變化。

    Purpose: To investigate the effect of inspiratory muscle warm-up on endurance performance in athletes. Methods: Ten male athletes (age, 20 ± 1.25 yrs; height, 175.1 ± 4.12 cm; weight, 63.8 ± 4.42 kg) were voluntarily recruited in this repeated measures and crossover designed study. All participants were requested to perform three different experimental treatments, including inspiratory muscle warm-up (IMW), placebo (PLA) and control (CON). The control trial was without IM warm-up while the PLA and IMW were with IM warm-up by performing two sets of 30 breaths at 15% and 40% maximum inspiratory mouth pressure (PImax), respectively. After treatment, participants ran on treadmill with 100% vVO2max until exhaustion. The running distance, blood lactate, ratings of perceived exertion (RPE), and rating of perceived breathlessness (RPB), were measured during the experiments. Results: No significant differences were found on the blood lactate, RPE and RPB three treatments. The running distance in IMW were significantly higher than in CON and PLA (CON vs. PLA vs. IMW,1532 ± 359.15 vs. 1685.2 ± 456.45 vs. 1930.40 ± 544.56 m,F=10.552,p<.05). Conclusion: These results indicate that the IMW might improve endurance performance in athletes.

    中文摘要…………………………………………………………………………………… i 英文摘要…………………………………………………………………………………… ii 謝誌………………………………………………………………………………………… iii 目次………………………………………………………………………………………… iv 表次………………………………………………………………………………………… vi 圖次………………………………………………………………………………………… vi 第壹章 緒論…………………………………………………………………………………1 第一節 前言……………………………………………………………………………1 第二節 研究目的………………………………………………………………………4 第三節 研究假設………………………………………………………………………4 第四節 研究範圍與限制………………………………………………………………4 第五節 名詞操作性定義………………………………………………………………5 第貳章 文獻探討……………………………………………………………………………6 第一節 呼吸肌的功能與檢測…………………………………………………………6 第二節 最大攝氧量速度與耐力表現…………………………………………………9 第三節 吸氣熱身對運動表現的影響……………………………………………… 11 第參章 研究方法………………………………………………………………………… 14 第一節 研究對象與實驗地點……………………………………………………… 14 第二節 研究工具…………………………………………………………………… 14 第三節 實驗流程與步驟…………………………………………………………… 16 第四節 資料處理…………………………………………………………………… 19 第肆章 結果……………………………………………………………………………… 20 第一節 受試者基本資料…………………………………………………………… 20 第二節 吸氣肌熱身對田徑選手耐力運動表現的影響…………………………… 21 第三節 吸氣肌熱身對田徑選手耐力運動表現中血乳酸值的影響……………… 22 第四節 吸氣肌熱身對田徑選手耐力運動表現中RPE與RPB的影響………… 23 第伍章 討論與討論……………………………………………………………………… 25 第一節 吸氣肌熱身對田徑選手耐力運動表現與血乳酸變化之影響…………… 25 第二節 吸氣肌熱身對田徑選手耐力運動中RPE與RPB之影響…………………27 第三節 結論………………………………………………………………………… 28 第四節 建議………………………………………………………………………… 28 參考文獻…………………………………………………………………………………… 29 附  錄 附錄一 受試者同意書……………………………………………………………… 37 附錄二 健康調查表………………………………………………………………… 38 附錄三 呼吸自覺量表……………………………………………………………… 39 附錄四 實驗記錄表………………………………………………………………… 40 表次 表一 吸氣肌熱身對運動表現促進的研究………………………………………………13 表二 受試者基本資料……………………………………………………………………20 圖次 圖3-1 實驗流程圖…………………………………………………………………………18 圖3-2 實驗步驟圖…………………………………………………………………………19 圖4-1 吸氣熱身後耐力運動表現的影響…………………………………………………21 圖4-2 三種不同實驗處理之血乳酸值……………………………………………………22 圖4-3 三種不同實驗處理的RPE…………………………………………………………23 圖4-4 三種不同實驗處理的RPB…………………………………………………………24

    王光濤 (2001)。運動生理學。臺北市:合記圖書。

    王健 (2006)。呼吸肌疲勞的研究現狀。咸寧學院學報,26(6),3。

    余鑑紘、方進隆 (2002)。PACER測驗和最大攝氧量相關之研究。體育學報,
    (33),33-42。

    呂欣倫、方進隆 (2007) 。呼吸肌訓練對女性划船選手訓練效果之探討。運動
    生理暨體能學報,(5),85-92。

    李和標、徐明 (2004)。呼吸肌疲勞對運動能力的影響。沈陽體育學院學報,
    23(3),2。

    何寶成、蔡忠昌 (2007)。熱身運動對於運動表現的影響。大專體育,91,165-
    173。

    林正常、林貴福、徐臺閣、吳慧君(譯) (2003)。運動生理學:體適能與運動表
    現的理論與應用。臺北市:藝軒。

    林正常 (2005)。運動生理學。臺北市:師大書苑。

    科哲銘、張嘉獻 (譯) (1997)。肌學手冊─頭、頸和軀幹。台北:合記。
    (Warfel, J. H., 1984)

    洪菁霞、王鐘賢 (2007)。實用解剖生理學。台中:華格那。

    紀樹國 (1994)。呼吸肌強化訓練對呼吸肌功能的作用。解放軍醫學雜誌,
    19(6)。

    姜壽德 (1982)。呼吸生理學。臺北市:環球書社。

    許世昌 (1997)。新編解剖生理學。台北市:永大書局。

    許樹淵 (2004)。運動生物力學。台北市。合記圖書出版社。

    郭堉圻、邱琴瑟 (2011)。呼吸肌阻力訓練對游泳攝氧量與肺功能表現之影響。
    運動教練科學,(24),69-80。

    郭堉圻、莊富延 (2010)。誘發呼吸肌急性疲勞對YO-YO有氧耐力測驗及肺功
    能之影響。運動生理暨體能學報,(11),35-43。

    郭堉圻、莊富延 (2011)。吸氣肌訓練對衝刺型運動員無氧能力與疲勞恢復之影
    響。大專體育學刊,13(4),127-135。

    郭堉圻、蔣孝珍 (2009)。呼吸肌訓練在運動表現上的應用。中華體育季刊,
    23(3),55-61。

    莊鑫裕 (1998)。運動對呼吸肌力的影響。大專體育,36,68-72。

    陳綱華、洪碩屏 (2002)。運動訓練對慢性阻塞性肺部疾病病人改善活動耐力之成效。志為護理-慈濟護理雜誌,1(2),31-35。

    陳玫茵、唐憶淨、楊宗穎、劉丕華(2006)。肺功能量計的判讀。基層醫學,21
    (10),296-300。

    張瑞豪、林銘祥、施長和 (2007)。暖身運動的生理學。高應科大體育,
    6(10),135-151。

    黃柏勳 (譯) (2006)。圖解人體地圖¬─人體的構造、疾病與症狀。台北:暢
    文。(松村讓兒,2004)

    黃傳業、潘明玲 (2009)。呼吸肌訓練在體育運動中的研究進展。科教文匯
    (32),3。

    黃錦裕、陳明星 (2000)。熱身及休息方式對運動者心跳之影響研究。體育學
    報,(28),349-358。

    董煒、駱官平 (2004)。運動與肺功能關系的研究新認識。四川體育科學,
    (3),2。

    趙敬國、朱同樂、曹麗鳳 (2010)。吸氣肌訓練對健康大學生VO2peak、肺功能
    及運動能力的影響。吉林體育學院學報,26(3)。
    劉弢 (2007)。吸氣肌訓練對常氧和低氧條件下運動呼吸功能的影響。體育科
    學,27(3),5。

    衛沛文 (1995)。隨意持續高通氣下通氣肌疲勞的呼吸模式。體育學報,(20),
    329-338。

    潘賢章、林正常、林信甫(2006)。呼吸肌熱身對腳踏車運動時生理反應與衰竭時間的影響。臺大體育學報,9,39-54。

    Aaron, E. A., Seow, K. C., Johnson, B. D., & Dempsey, J. A. (1992). Oxygen cost of
    exercise hyperpnea: implications for performance. Journal of Applied Physiology, 72(5), 1818-1825.

    Babcock, M. A., Pegelow, D. F., Harms, C. A., & Dempsey, J. A. (2002). Effects of
    respiratory muscle unloading on exercise-induced diaphragm fatigue. Journal of Applied Physiology, 93(1), 201-206.

    Bailey, S. J., Romer, L. M., Kelly, J., Wilkerson, D. P., DiMenna, F. J., & Jones, A. M.
    (2010). Inspiratory muscle training enhances pulmonary O(2) uptake kinetics and high-intensity exercise tolerance in humans. Journal of Applied Physiology, 109(2), 457-468.

    Berthon, P., & Fellmann, N. (2002). General review of maximal aerobic velocity
    measurement at laboratory. Proposition of a new simplified protocol for maximal aerobic velocity assessment. The Journal of sports medicine and physical fitness, 42(3), 257-266.

    Billat, L. V., & Koralsztein, J. P. (1996). Significance of the velocity at VO2max and
    time to exhaustion at this velocity. Sports Medicine, 22(2), 90-108.

    Billat, L. V., Renoux, J. C., Pinoteau, J. A., Petit, B. E., & Koralsztein, J. P. (1994).
    Reproducibility of running time to exhaustion at VO2max in subelite runners. Medicine and science in sports and exercise, 26(2), 254-257.

    Bishop, D. (2003a). Warm up I: potential mechanisms and the effects of passive warm
    up on exercise performance. Sports Medicine 33(6), 439-454.

    Bishop, D. (2003b). Warm up II: performance changes following active warm up and
    how to structure the warm up. Sports Medicine 33(7), 483-498.

    Brown, P. I., Sharpe, G. R., & Johnson, M. A. (2008). Inspiratory muscle training
    reduces blood lactate concentration during volitional hyperpnoea. European Journal of Applied Physiology 104(1), 111-117.

    Chevrolet, J. C., Tschopp, J. M., Blanc, Y., Rochat, T., & Junod, A. F. (1993).
    Alterations in inspiratory and leg muscle force and recovery pattern after a marathon. Medicine & Science in Sports & Exercise, 25(4), 501-507.

    Chiappa, G. R., Ribeiro, J. P., Alves, C. N., Vieira, P. J., Dubas, J., Queiroga, F., Jr., et
    al. (2009). Inspiratory resistive loading after all-out exercise improves subsequent performance. European Journal of Applied Physiology 106(2), 297-303.

    Daniels JT. (1984). Elite and sub-elite femalemiddle and long distance runner.
    Proceedings of the 1984 Olympic scientific Congress. Champaign, IL: Human Kinetics Publishers, 1984, pp: 57-72

    DePalo, V. A., Parker, A. L., Bilbeisi, F. A., & McCool, F. D. (2004). Respiratory
    muscle strength training with nonrespiratory maneuvers. Journal of Applied Physiology, 96, 731-734.

    Enright, S. J., Unnithan, V. B., Heward, C., Withnall, L., & Davies, D. H. (2006).
    Effect of high-intensity inspiratory muscle training on lung volumes, diaphragm thickness, and exercise capacity in subjects who are healthy. Physical Therapy, 86(3), 345-354.

    Esposito, F., & Ferretti, G. (2010). Respiratory muscle training and maximum aerobic
    power in hypoxia. European Journal of Applied Physiology 110(1), 219-220.

    Esposito, F., Limonta, E., Alberti, G., Veicsteinas, A., & Ferretti, G. (2010). Effect of
    respiratory muscle training on maximum aerobic power in normoxia and hypoxia. Respir Physiol Neurobiol, 170(3), 268-272.
    Forbes, S., Game, A., Syrotuik, D., Jones, R., & Bell, G. J. (2011). The effect of
    inspiratory and expiratory respiratory muscle training in rowers. Research in Sports Medicine 19(4), 217-230.
    Gething, A. D., Passfield, L., & Davies, B. (2004). The effects of different inspiratory
    muscle training intensities on exercising heart rate and perceived exertion. European Journal of Applied Physiology 92(1-2), 50-55.

    Guyton, A. C., & Hall, J. E. (1996). Textbook of physiology. Philadelphia: WB
    Saunders, 1.

    Harms, C. A., Wetter, T. J., McClaran, S. R., Pegelow, D. F., Nickele, G. A., Nelson,
    W. B., et al. (1998). Effects of respiratory muscle work on cardiac output and its distribution during maximal exercise. Journal of Applied Physiology, 85(2), 609-618.

    Harms, C. A., Wetter, T. J., St Croix, C. M., Pegelow, D. F., & Dempsey, J. A. (2000).
    Effects of respiratory muscle work on exercise performance. Journal of Applied Physiology, 89(1), 131-138.

    Hill, D. W., & Rowell, A. L. (1996). Running velocity at VO2max. Medicine and
    science in sports and exercise, 28(1), 114-119.

    Illi, S. K., Held, U., Frank, I., & Spengler, C. M. (2012). Effect of respiratory muscle
    training on exercise performance in healthy individuals: a systematic review and meta-analysis. Sports Medicine 42(8), 707-724.

    Keramidas, M. E., Debevec, T., Amon, M., Kounalakis, S. N., Simunic, B., &
    Mekjavic, I. B. (2010). Respiratory muscle endurance training: effect on normoxic and hypoxic exercise performance. European Journal of Applied Physiology 108(4), 759-769.

    Kilding, A. E., Brown, S., & McConnell, A. K. (2010). Inspiratory muscle training
    improves 100 and 200 m swimming performance. European Journal of Applied Physiology 108(3), 505-511.

    Lacour, J. R., Padilla-Magunacelaya, S., Barthelemy, J. C., & Dormois, D. (1990).
    The energetics of middle-distance running. European journal of applied physiology and occupational physiology, 60(1), 38-43.

    Léger, L., & Mercier, D. (1984). Gross energy cost of horizontal treadmill and track
    running. Sports medicine, 1(4), 270-277.
    Lin, H., Tong, T. K., Huang, C., Nie, J., Lu, K., & Quach, B. (2007). Specific
    inspiratory muscle warm-up enhances badminton footwork performance. Applied Physiology, Nutrition, and Metabolism, 32(6), 1082-1088.

    Lomax, M., Grant, I., & Corbett, J. (2011). Inspiratory muscle warm-up and
    inspiratory muscle training: separate and combined effects on intermittent running to exhaustion. Journal of Sports Sciences 29(6), 563-569.

    Lomax, M., & McConnell, A. K. (2009). Influence of prior activity (warm-up) and
    inspiratory muscle training upon between- and within-day reliability of maximal inspiratory pressure measurement. Respiration, 78(2), 197-202.

    Lomax, M. E., & McConnell, A. K. (2003). Inspiratory muscle fatigue in swimmers
    after a single 200 m swim. Journal of Sports Sciences 21(8), 659-664.

    McConnell, A. K., & Lomax, M. (2006). The influence of inspiratory muscle work
    history and specific inspiratory muscle training upon human limb muscle fatigue. The Journal of Physiology, 577(Pt 1), 445-457.

    Mickleborough, T. D., Stager, J. M., Chatham, K., Lindley, M. R., & Ionescu, A. A.
    (2008). Pulmonary adaptations to swim and inspiratory muscle training. European Journal of Applied Physiology 103(6), 635-646.

    Morgan, D. W., Kohrt, W. M., Bates, B. J., & Skinner, J. S. (1987). Effects of
    respiratory muscle endurance training on ventilatory and endurance performance of moderately trained cyclists. International Journal of Sports Medicine 8(2), 88-93.

    Morris, M., Lamb, K., Cotterrell, D., & Buckley, J. (2009). Predicting Maximal
    Oxygen Uptake Via a Perceptually Regulated Exercise Test (PRET). Journal of
    Exercise Science & Fitness, 7(2), 122-128.

    Morton, R. H., & Billat, V. E. (2000). Maximal endurance time at VO2max. Medicine
    & Science in Sports & Exercise, 32(8), 1496-504.

    Nici, L., Donner, C., Wouters, E., Zuwallack, R., Ambrosino, N., Bourbeau, J., et al.
    (2006). American Thoracic Society/European Respiratory Society statement on pulmonary rehabilitation. American Journal of Respiratory and Critical Care Medicine, 173(12), 1390-1413.

    Noakes, T. D., Myburgh, K. H., & Schall, R. (1990). Peak treadmill running velocity
    during the V O2 max test predicts running performance. Journal of Sports Sciences, 8(1), 35-45.

    Ray, A. D., Pendergast, D. R., & Lundgren, C. E. (2010). Respiratory muscle training
    reduces the work of breathing at depth. European Journal of Applied Physiology 108(4), 811-820.

    Ross, E., Middleton, N., Shave, R., George, K., & McConnell, A. (2008). Changes in
    respiratory muscle and lung function following marathon running in man. Journal of Sports Sciences 26(12), 1295-1301.

    Sheel, A. W., Derchak, P. A., Morgan, B. J., Pegelow, D. F., Jacques, A. J., & Dempsey, J. A. (2001). Fatiguing inspiratory muscle work causes reflex reduction in resting leg blood flow in humans. The Journal of Physiology, 537(Pt 1), 277-289.

    Spengler, C. M., Roos, M., Laube, S. M., & Boutellier, U. (1999). Decreased exercise
    blood lactate concentrations after respiratory endurance training in humans. European Journal of Applied Physiology, 79(4), 299-305.

    Tong, T. K., & Fu, F. H. (2006). Effect of specific inspiratory muscle warm-up on
    intense intermittent run to exhaustion. European Journal of Applied Physiology 97(6), 673-680.

    Tong, T. K., Fu, F. H., Chung, P. K., Eston, R., Lu, K., Quach, B., et al. (2008). The
    effect of inspiratory muscle training on high-intensity, intermittent running performance to exhaustion. Applied Physiology, Nutrition, and Metabolism, 33(4), 671-681.

    Uemura, H., Lundgren, C. E., Ray, A. D., & Pendergast, D. R. (2012). Effects of
    different types of respiratory muscle training on exercise performance in runners. Military Medicine 177(5), 559-566.

    Verges, S., Sager, Y., Erni, C., & Spengler, C. M. (2007). Expiratory muscle fatigue
    impairs exercise performance. European Journal of Applied Physiology, 101(2), 225-232.

    Volianitis, S., McConnell, A. K., & Jones, D. A. (2001). Assessment of maximum
    inspiratory pressure. Prior submaximal respiratory muscle activity ('warm-up') enhances maximum inspiratory activity and attenuates the learning effect of repeated measurement. Respiration, 68(1), 22-27.

    Volianitis, S., McConnell, A. K., Koutedakis, Y., & Jones, D. A. (1999). The influence
    of prior activity upon inspiratory muscle strength in rowers and non-rowers. Int J Sports MedInternational Journal of Sports Medicine 20(8), 542-547.

    Volianitis, S., McConnell, A. K., Koutedakis, Y., & Jones, D. A. (2001). Specific
    respiratory warm-up improves rowing performance and exertional dyspnea. Medicine & Science in Sports & Exercise, 33(7), 1189-1193.

    Volianitis, S., McConnell, A. K., Koutedakis, Y., McNaughton, L., Backx, K., &
    Jones, D. A. (2001). Inspiratory muscle training improves rowing performance. Medicine & Science in Sports & Exercise, 33(5), 803-809.

    West, J. B. (2004). Respiratory physiology-The essentials(7th ed.). La Jolla, CF:
    Lippincitt Wolliams & Wilkins.

    QR CODE