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研究生: 王景濬
論文名稱: 足部貼紮對第一趾節於60公尺衝刺表現之研究
Effect of Elastic Low-Dye Taping on First Ray Mobility During 60m Spurt in Athletes with Pronated Foot
指導教授: 蔡於儒
Tsai, Yu-Ju
柴惠敏
Chai, Huei-Ming
學位類別: 碩士
Master
系所名稱: 運動競技學系
Department of Athletic Performance
論文出版年: 2013
畢業學年度: 101
語文別: 中文
論文頁數: 79
中文關鍵詞: 足部貼紮蹠趾關節起跑推蹬短跑
英文關鍵詞: foot taping, metatarsophalangeal joint, push-up, sprint
論文種類: 學術論文
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  • 目的:探討以彈性低位岱氏貼紮來改變第一趾節活動度對短距離起跑出發階段動作之影響。方法:以10名有內旋足之大專公開組短距離田徑男運動員為主要研究對象,利用改良式趾節量尺、高速攝影擷取選手貼紮前後第一趾節量測資料以及起跑出發階段所產生之運動學參數與30、60公尺衝刺成績表現。本實驗以相依樣本t考驗比較貼紮前後於起跑出發階段之運動學參數與第一趾節角度間之差異,顯著水準訂為α = .05。結果:經過有無貼紮後的結果1.第一趾節活動度測試影響上,經紮後只有慣用腳的總活動上有明顯的增加;2.對起跑推蹬的角度變化影響,在第一步與第二步推蹬動作上,踝關節角度有明顯的增加;3.對起跑推蹬的水平速度影響,在第一步離地瞬間重心水平速度有顯著的進步;4.對60公尺衝刺表現影響,前30公尺無顯著差異但在60公尺表現上有顯著進步。結論:彈性低位岱氏貼紮可增加內旋足短跑者於60公尺衝刺表現,表示貼紮技術可以控制過多的內旋動作而有利於推蹬動作。

    Purpose:to investigate the effect of low-Dye taping on first ray mobility during 60m spurt in athletes with pronated foot. Method:10 elite athletes, majoring in sprinting and presenting pronated foot, participating in this study. A modified first ray ruler was used to measure first ray mobility. Knee, ankle, and first ray motions during 60m spurt was captured using the high-speed video technique and the kinematic and performance data were analyzed at the start, 30m and 60m. The statistical analyses were done by paired t-test to compare the differences between the taped and untapped conditions. All significance levels were set at α = .05. Results: The results were found that the total range of the first ray only significantly increased at the dominant leg during low-Dye taping. Ankle plantarflexion significantly increased during the push-up of the first and second steps. The horizontal component of the instant forward velocity of the body was found to increase at the first step. Although there was no difference at 30 m, the completing time at 60 m significantly improved. Conclusion:Elastic low-Dye taping improved the performance of 60m spurt for the athletes with pronated foot, implying that the excessive pronated motions can be controlled using the taping technique.

    摘要 I AbstractII 謝誌 III 目次 IV 圖次 VII 表次 IX 第壹章 緒論 1 第一節 研究背景與動機1 第二節 研究目的 6 第三節 研究假設 6 第四節 研究範圍與限制 7 第五節 名詞操作性定義 8 第貳章 文獻探討 11 第一節 起跑技術與動作分析 11 第二節 起跑後第一步、第二步之動作分析 14 第三節 第一趾節的功能 16 第四節 改善第一趾節的方法 18 第五節 動作分析與量測工具之研究 21 第参章 研究方法 25 第一節 研究對象 25 第二節 研究設計 25 第三節 介入方法 26 第四節 實驗儀器與測量工具 27 第五節 實驗時間與地點 32 第六節 實驗步驟 32 第七節 資料處理 36 第八節 統計分析 39 第肆章 結果 40 第一節 受試者資料 40 第二節 彈性低位岱氏貼紮對第一趾節活動度測試影響 42 第三節 彈性低位岱氏貼紮對起跑推蹬的角度變化影響 45 第四節 彈性低位岱氏貼紮對起跑推蹬的水平速度影響 48 第五節 彈性低位岱氏貼紮對60公尺衝刺表現影響 49 第伍章 討論與結論 52 第一節 彈性低位岱氏貼紮對第一趾節活動度的影響 52 第二節 彈性低位岱氏貼紮對起跑推蹬的角度變化影響 53 第三節 彈性低位岱氏貼紮對起跑推蹬的水平速度影響 54 第四節 結論與建議 55 參考文獻 57 附錄一 66 附錄二 67 附錄三 68

    一、中文部分
    中華民國田徑協會(譯)(2005)。國際田徑規則2006~2007。臺北市:中華民國田徑協會。(國際田徑總會,2005)
    林寶城(1996)。王惠珍起跑動作之運動生物力學分析。政大體育,9,39-95。
    邱靖華(1993)。如何決定蹲鋸式起跑知足間距離。中華體育季刊,7(3), 36-43。
    吳佳穎(2006)。男子百公尺起跑與一百一十公尺跨欄起跑之生物力學分析。未出版碩士論文,國立台灣師範大學,台北市。
    翁梓林(2000)。影響短距離起跑之生物力學分析。國立臺北師範學院學報,13,569-581。
    張博智(2004)。國內優秀男子百公尺起跑出發運動學分析。未出版碩士論文,國立體育學院,桃園縣。
    許樹淵(1980)。不同起跑法的力學因素分析。體育學報,2,167-177。
    許樹淵(2002)。田徑論。台北市:偉彬體育研究社。
    陶武訓(2010)。優秀短距離選手百公尺跑之分段速度、步頻、步幅分析。國立體育學院教練研究所碩士論文,桃園縣。
    游立椿(2007)。三種踏板距離蹲距式起跑之生物力學分析。未出版
    碩士論文,國立台灣師範大學,台北市。
    黃泰源、何金山、陳欣宏、郭政茂(2008)。起跑反應時間與反作用
    力之研究。屏東教育大學運動科學學刊,4,15-24。
    葉憲清(1971)。田徑指導。台北:硌華出版社。
    陳英郎(1995)。肌內效貼布法—運動篇。台北,中華健康生活與運動協會。
    廖貴地、簡鴻玟(1993)。短跑技術的訓練(示範教學)。中華體育季刊,7(3),177-184。
    鄭悅承(2007)。軟組織貼紮技術。台北,合記。
    蔡於儒(2001)。百公尺跑地面反作用力的控制與技術動作研究。未出版碩士論文,國立台灣師範大學,台北市。
    戴瑞敏(2010)。彈性低位岱式貼紮對第一趾節活動度之影響。國立台灣大學醫學院物理治療學系暨研究所碩士論文,台北市。

    二、英文部分
    Allen, M. K., Cuddeford, T. J., Glasoe, W. M., DeKam, L. M., & Lee,P.J (2004). Relationship between static mobility of the first ray and first ray, midfoot, and hindfoot motion during gat. Foot and Ankle International, 25(6), 391-396.

    Atwater, A. E. (1982). Kinematic analyses of sprinting. Track & Field Quarterly Review, 82, 6-12.

    Birke, J. A., Franks, B. K., & Foto, J. G. (1995). First ray joint limitation, pressure, and ulceration of the first metatarsal head in diabetes mellitus. Foot and Ankle International, 16(5), 277-284.

    Bolgla, L. A., & Malone, T, R. (2004). Plantar fasciitis and the windlass mechanism: a biomechanical link to clinical practice. Journal of Athletic Training, 39(1), 77-82.

    Chen CH, Hsieh CF, Shih Y, et al. (2012) Effect of shoe sole flexibility on shank muscles and lower limb joints in different speeds. Paper presented at the Proceedings of the XXXII FIMS World Congress of Sports Medicine: 27-30 September 2012; Rome, Iatly.

    Cornwall, M. W., Fishco, W. D., McPoil, T. G., Lane, C. R., & O`Donnell, D.(2004). Reliability and validity of clinically assessing first-ray mobility of the foot.Journal of the American Podiatric Medical Association, 94(5), 470-476.

    Cote, K. P., Brunet, M. E., Gansneder, B. M., & Shultz, S. J.(2005).Effect of pronated and supinated foot postures on static and dynamic postural stability. Journal of Athletic Training, 40(1), 41-46.

    Dye, R. W. (2007). A strapping: The Journal of the National Association of Chiropodists-Podiatrists Pedic Items, November 1939. Journal of the America Podiatric Medical Association, 97(4),282-284.

    Glasoe, W. M., Allen, M. K., & Yack, H. J. (1998).Measurement of dorsal mobility in the first ray: elimination of fat pad compression as a variable. Foot and Ankle International, 19(8),542-546.

    Glasoe, W. M., Allen, M. K., Kepros, T., Stonewall, L., & Ludewig,P.M. (2002).Dorsal first ray mobility in women athletes with a history of stress fracture of the second or third metatarsal. Journal of Orthopaedic and Sports Physical Therapy, 32(11),560-565.

    Glasoe, W. M., Allen, M. K., Saltzman, C. L., Ludewig, P. M., & Sub; ett,S.H. (2002). Comparison of two methods used to assess first-ray mobility. Foot and Ankle International, 23(3):248-252.

    Glasoe, W. M., Getsoian, S., Myers, M., Komnick, M., & Kolkebeck, D. (2005). Criterion-related validity of a clinical measure of dorsal first ray mobility.Journal of Orthopaedic and Sports Physical Therapy, 35(9),589-593.

    Glasoe, W. M., Grebing, B. R., Beck, S., Coughlin, M. J., & Saltzman, C.L.(2005). A comparison of devic measures of dorsal first ray mobility.Foot and Ankle International,26(11),957-961.

    Glasoe, W. M., Yack, H. J., & Saltzman, C. L. (1999). Measuring first ray mobility with a new device. Archives Physical Medicine and Rehabilitation, 80(1),122-124.

    Glasoe, W. M., Yack, H. J., & Saltzman, C. L. (2000).The reliability and validity of a first ray measurement devic. Foot and Ankle International, 21(3),240-246.

    Grebing, B. R. & Coughlin M. J.(2004).The effect of ankle position on the exam for first ray mobility.Foot and Ankle International, 25(7),467-475.

    Harradine, P. D. & Bevan, L. S. (2000).The eff of rearfoot eversion on maximal hallux dorsiflexion:A preliminary study.Jornal of the American Podiatric Medical Association, 90(8), 390-393.

    Hick (1954). The mechanics of the foot II. the plantar aponeurosis and the arch. Journal Anatomy, 88, 25-30.
    Hick, J. H. (1953). The mechanism of the foot I.the joint. Journal of Anatomy, 87, 345-357.

    Hopson, M. M., McPoil, T. G., & Cornwall, M. W. (1995). Motion of the first metatarsophalangeal joint:Reliability and validity of four measurement techniques.Journal of the American Podiatric Medical Association, 85(4), 198-204.

    Huang and . C. K., Kitaoka, H. B., An, K. N., & Chao, E. Y. (1993).Biomechanical evaluation of longitudinal arch stability.Foot and Ankle, 14, 353-357.

    Jon, C. P., Coughlin, M. J., Pierce-Villadot, R., Golano, P., Kennedy, M. P. et al. (2005). The validity and reliability of the Klaue device.Foot and Ankle International 26(11): 951-956.

    Kase, K, Hashimoto, T, Okane, T. (1996). Kinesio taping perfect manual.Tokyo,Japan,Kinesio Taping Association.

    Keenan, A. M. & Tanner C. M. (2001). The effect of high-Dye and low-Dye taping on rearfoot motion.Journal of the American Podiatric Medical Association, 91(5) , 255-61.

    Ker, R. F., Bennett, M. B., Bibby, S. R., Kester, R. C., & Alexander, R. C. (1987). The spring in the arch of the human foot. Nature 325: 147-149.

    Khamis, S. & Yizhar, Z. (2007). Effect of feet hyperpronation on pelvic alignment in a standing position. Gait and Posture, 25(1), 127-134.

    Kim, J. Y., Keun H. S., Tai, L. K., Won, Y. K.,& Seon, J. J. (2008). A simpler device for measuring the mobility of the first ray of the foot. Foot and Ankle International, 29(2), 213-218.

    Klaue, K., Hansen, S. T., & Masquelet, A. C. (1994). Clinical,quantitative assessment of first tarsometatarsal mobility in the sagittal plane and its relation to hallux valgus deformity.Foot and Ankle International, 15(1), 9-13.
    Landorf, K. B., Radford, J. A., Keenan, A. M., & Redmond, A. C.(2005). Efectiveness od low-Dye taping for the short-term management of plantar fasciitis.Journal of the American Podiatric Medical Association, 95(6), 525 -530.

    Lange, B., Chipchase, L, & Evans,A. (2004). The effect of low-Dye taping on plantar pressures, during gait, in subjects with navicular xsssssdrop exceeding 10mm. Journal of Orthopaedic and Sports Physical Therapy, 34(4), 201-209.

    Lee, K. T.& Young K. (2001). Measurement of first-ray mobility in normal vs. hallux valgus patients. Foot and Ankle International, 22(12) 960-964.

    Lexell, J. E. & Downham, D. Y. (2005). How to assess the reliability of measurements in rehabilitation.American Journal of Physical Medicine and Rehabilitation, 84(9), 719-723.

    Martin, D. E., & Buoncristiani, J. F. (1995). Influence of Reaction Time on Athletic Performance, International Amateur Athletic Federation.

    McPoil, T. G. & Cornwall, M. W. (1996). Relationship between three static angles of the rearfoot and the pattern of rearfoot motion during walking.Journal of Orthopaedic and Sports Physical Therapy, 24(5), 390-314.

    Mero, A., Luhtanen, P. & Komi, P. (1983). A biomechanical study of the sprint start. Scandinavian Journal of Sports Science, 5, 20-28.

    Morton (1924). Evolution of the longiyudinal arch of the hunan foot.The Journal of Bone and Joint Surgery,American version, 6, 56-90.

    Mueller ,M. J., Host, J. V., & Norton, B. J. (1993). Navicular drop as a composite measure of excessive pronation. Journal of the American Podiatric Medical Association, 83(4), 198-202.

    Munuera, P. V., Dominguez, G., Palomo, I. C., & Lafuente, G. (2006). Effects of rearfoot-controlling orthotic treatment on dorsiflexion of the hallux feet with abnormal subtalar pronation:A preliminary report. Journal of the American Podiatric Medical Association, 96(4), 283-289.

    Nawoczenski, D. A., Baumhauer, J. F., & Umberger, B. R. (1999). Relationship between clinical measurements and motion of the first metatarsophalangeal joint during gait. The Journal of Bone Joint Surgery, American Version, 81A, 370-376.

    Neumann, D. A. (2010). Kinesiology of the musculoskeletal system:Foundations for rehabilitation,2nd ed. Philadelphia, PA, USA: Elsevier.

    Paton, J. S. (2006). The Relationship Between Navicular Drop and First Metatarsophalangeal Joint Motion. Journal of the American Podiatric Medical Association, 96(4), 313-317.

    Phillips, R. D., Law, E. A., & Ward, E. D. (1996). Functional motion of the medial column joints of the foot during propulsion. Journal of the American Podiatric Medical Association, 86(10), 474-485.

    Prentice, W. E. (2004). Rehabilitation techniques for sports medicine and athletic training,4th ed, New York, NY, USA: McGraw-Hill.

    Randford, J. A., Burns, J., Buchbinder, R., Landorf, K. B., & Cook, C. (2006). The effect of low-Dye taping on kinematic, kinetic,and electromyographic variables:a systematic review. Journal of Orthopaedic and Sports Physical Therapy, 36(4), 232-241.

    Roukis T. S. & Landsman, A. S. (2003). Hypermobility of the first ray:a critical review of the literature.The Journal of Foot and Ankle Surgery, 42(6), 377-390.

    Russo, S. J.,& Chipchase, L. S. (2001).The effect of low-Dye taping on peak plantar pressures of normal feet during gait. Australian Journal of Physiother, 47, 239-244.
    Saltzman, C. L., Nawoczenski, D. A., & Talbot, K. D. (1995). Measurement of the medial longitudinal arch.Archives of Physical Medicine and Rehabilitation, 76, 45-49.

    Scranton, P. E., Pedagena, L. R., & Whitesel, J. P. (1982). Gait analysis -Alterations in support phase forces using supportive device.The American Journal of Sports Medicine, 10,6-11.

    Shirk, C., Sandrey, M. A., & Erickson, M. (2006). Reliability of first ray position and mobility measurements inexperienced and inexperienced examiners. Journal of Athletic Training, 41(1),93-101.

    Steven R. & Irvin, R. (1993). Sports medicine: prevention, evaluation, management, and rehabilitation.Englewood Cliffs, NJ, USA: Prentice-Hall.

    Stovitz, S. D. & Coetzee, J. C. (2004). Hyperpronation and foot pain.The Physician and Sports Medicine, 32(8), 19-26.
    strap on pronation-sensitive mechanical attributes of the foot. Journal of the American Podiatric Medical Association 93(2): 188-123.

    Tarant, M. J., Taranto, J, Bryant, A., & Singer, K. P. (2005). Radiographic invesyigation of angular and linear measurements including first metatarsophalangeal joint dorsiflexion and rear foot to forefoot axis angle.The Jounral of Foot and Ankle Surgery, 44(3), 190-199.

    Vicenzino, B., Franettovich, M. M., McPoil, T. G., Russell, T., & Skardoon, G. (2005). Initial effects of anti-pronation tape on medial longitudinal arch during walking and running.British Journal of Sports Medicine, 39, 939- 943.

    Volkov, N.I., & Lapin, V.I. (1979). Analysis of the velocity curve in sprint running. Medicine and Science in Sports, 11, 332-337.

    Walker, M. & Fan H. J. (1998). Relationship between foot pressure and foot type. Foot and Ankle International, 19(6), 379-383.

    Whitaker, J. M., Augustus, K., & Ishii,S. (2003). Effect of the low-Dye
    Winter, D. A. (2009). Biomechanics and motor control of human movement,4th New York, NY, USA: John Wiley & Sons.

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