彈性貼紮對腓腸肌肌肉肌腱單位結構以及動作表現的影響

Fang-Yu Lin; 林芳郁

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/41445

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	柴惠敏,王淑芬
dc.contributor.author	Fang-Yu Lin	en
dc.contributor.author	林芳郁	zh_TW
dc.date.accessioned	2021-06-15T00:19:22Z	-
dc.date.available	2014-02-19
dc.date.copyright	2009-02-19
dc.date.issued	2009
dc.date.submitted	2009-02-13
dc.identifier.citation	參考文獻 Aagaard P, Andersen JL, Dyhre-Poulsen P, Leffers AM, Wagner A, Magnusson SP, et al. A mechanism for increased contractile strength of human pinnate muscle in response to strength training: changes in muscle architecture. J Physiol 2001;534:613-623. Abe T, Brechue WF, Fujita S, Brown JB. Gender differences in FFM accumulation and architectural characteristics of muscle. Med Sci Sports Exerc 1998;30:1066-1070. Abe T, Brown JB, Brechue WF. Architectural characteristics of muscle in black and white college football players. Med Sci Sports Exerc 1999;31:1448-1452. Abe T, Fukashiro S, Harada Y, Kawamoto K. Relationship between sprint performance and muscle fascicle length in female sprinters. J Physiol Anthropol Appl Human Sci 2001;20:141-147. Abe T, Kumagai K, Brechue WF. Fascicle length of leg muscles is greater in sprinters than distance runners. Med Sci Sports Exerc 2000;32:1125-1129. Arampatzis A, Stafilidis S, DeMonte G, Karamanidis K, Morey-Klapsing G, Bruggemann GP. Strain and elongation of the human gastrocnemius tendon and aponeurosis during maximal plantarflexion effort. J Biomech 2005;38:833-841. Bjorklund K, Skold C, Andersson L, Dalen N. Reliability of a criterion-based test of athletes with knee injuries; where the physiotherapist and the patient independently and simultaneously assess the patient’s performance. Knee Surg Sports Traumatol Arthosc 2006;14: 165-175. Blazevich AJ, Gill ND, Bronks R, Newton RU. Training-specific muscle architecture adaptation after 5-wk training in athletes. Med Sci Sports Exerc 2003;35:2013-2022. Bodine SC, Roy RR, Meadows DA, Zernicke RF, Sacks RD, Fournier M, et al. Architectural, histochemical, and contractile characteristics of a unique biarticular muscle: the cat semitendinosus. J Neurophysiol 1982;48:192-201. Brechue WF, Abe T. The role of FFM accumulation and skeletal muscle architecture in powerlifting performance. Eur J Appl Physiol 2002;86:327-336. Briggs RC, Gpssman MR, Birch R, Drews JE, Shaddeau SA. Balance performance among noninstitutionalized elderly woman. Phys Ther 1989;69:748-756. Brosky JA, Nitz AJ, Malone TR, Caborn DNM, Rayens MK. Intrarater reliability of selected clinical outcome measures following anterior cruciate ligament reconstruction. J Orthop Sports Phys Ther 1999;29:39-48. Chino K, Oda T, Kurihara T, Nagayoshi T, Yoshikawa K, Kanehisa H, et al. In vivo fascicle behavior of synergistic muscles in concentric and eccentric plantar flexions in humans. J Electromyogr Kinesiol 2008;18:79-88. Chleboun GS, Busic AB, Graham KK, Stuckey HA. Fascicle length change of the human tibialis anterior and vastus lateralis during walking. J Orthop Sports Phys Ther 2007;37:372-379. Chow RS, Medri MK, Martin DC, Leekam RN Agur AM, Mckee NG. Sonographic studies of human soleus and gastrocnemius muscle architecture: gender variability. Eur J Appl Physiol 2000;82:236-244. Clague JE, Roberts N, Gibson H, Edwards RHT. Muscle imaging in health and disease. Neuromusc disord 1995;5:171-178. Draper CE, Santos JM, Kourtis LC, Besier TF, Fredericson M, Beaupre GS, et al. Feasibility of using real-time MRI to measure joint kinematics in 1.5T and open-bore 0.5T systems. J Magn Reson Imaging 2008;28:158-166. Engstrom CM, Loeb GE, Reid JG, Forrest WJ, Avruch L. Morphometry of the human thigh muscles. A comparison between anatomical sections and computer tomographic and magnetic resonance images. J Anat 1991;176:139-156. Fleiss JL, Levin B, Paik MC. Statistical methods for rates and proportions, 3rd ed. New York: John Wiley & Sons, 2003. Frienderich JA, Brand RA. Muscle fiber architecture in the human lower limb. J Biomech 1990;23:91-95. Fu TC, Wong AMK, Pei YC, Wu KP, Chou SW, Lin YC. Effect of kinesio taping on muscle strength in atletes-a pilot study. J Sci Med Sport 2008;11:198-201. Fukashiro S, Komi PV. Joint moment and mechanical power flow of the lower limb during vertical jump. Int J Sports Med 1987;8:15-21. Fukunaga T, Ichinose Y, Ito M, Kawakami Y, Fukashiro S. Determination of fascicle length and pennation in a contracting human muscle in vivo. J Appl Physiol 1997;82:354-358. Fukunaga T, Roy RR, Shellock FG, Hodgson JA, Day MK, Lee PL, et al. Physiological cross-section area of human leg muscles based on magnetic resonance imaging. J Orthop Res 1992;10:926-934. Girish G, Finlay K, Landry D, O’Neill J, Popowich T, Jacobson J, et al. Musculoskeletal disorders of the lower limb-ultrasound and magnetic resonance imaging correlation. Can Assoc Radiol J 2007;58:152-166. Gobbi A, Tuy B, Mahajan S, Panuncialman I. Quadrupled bone-semitendinosus anterior cruciate ligament reconstruction: a clinical investigation in a group of athletes. Arthroscopy 2003;19:691-699. Guette M, Gondin J, Martin A. Time-of day effect on the torque and neuromuscular properties of dominant and non-dominant quadriceps femoris. Chronobiol Int 2005;22: 541-558. Halseth T, McChesney JW, DeBeliso M, Vaughn R, Lien J. The effects of Kinesio taping on proprioception at the ankle. J Sports Sci Med 2004;3:1-7. Hsu YH, Chen WY, Shih YF. The effects of kinesio taping on scapular kinematics in baseball players with shoulder impingement syndrome. The 53th academic conference of the physical therapy association of ROC(Taiwan). FJPT 2006;31:327. Hubley CL, Wells RP. A work-energy approach to determine individual joint contributions to vertical jump performance. Eur J Appl Physiol 1983;50:247-254. Hung HC, Wu YTTHJ, Wang SS, Tsauo JY. Does kinesio taping changes skin thickness and skin blood flow? The 52th academic conference of the physical therapy association of ROC(Taiwan). FJPT 2006;31:164. Ishikawa M, Komi PV, Grey MJ, Lepola V, Bruggemann GP. Muscle-tendon interaction and elastic energy usage in human walking. J Appl Physiol 2005;99:603-608. Ishikawa M, Pakaslahti J, Komi PV. Medial gastrocnemius muscle behavior during human running and walking. Gait Posture2007;25:380-384. Ito M, Kawakami Y, Ichinose Y, Fukashiro S, Fukunaga T. Nonisometric behavior of fascicles during isometric contractions of a human muscle. J Appl Physiol 1998;85:1230-1235. Iverson BD, Gossman MR, Shaddeau SA, Turner ME. Balance performance, force production, and activity levels in noninstitutionalized men 60 to 90 years of age. Phys Ther 1990;70:348-355. Jan MH, Chai HM, Lin YF, Lin JCH, Tsai LY, Ou YC, et al. Effects of age and sex on the results of an ankle plantar-flexor manual muscle test. Phys Ther 2005;85:1078-1084. Jui WL, Chai HM, Lai JS. Effects of elastic taping on muscle strength and proprioception for individuals with ankle instability. The 52th academic conference of the physical therapy association of ROC(Taiwan). FJPT 2006;31:156. Kase K, Hashimoto T, Okane T. Kinesio taping perfect manual. Kinesio Taping Association, 1996. Kawakami Y, Abe T. Muscle-fiber pennation angles are greater in hypertrophied than in normal muscles. J Appl Physiol 1993;74:2740-2744. Kawakami Y, Abe T, Kuno SY, Fukunaga T. Training-induced changes in muscle architecture and specific tension. Eur J Appl Physiol 1995;72:37-43. Kawakami Y, Fukunaga T. New insights into in vivo human skeletal muscle function. Exerc Sport Sci Rev 2006;34:16-21. Kawakami Y, Ichinose Y, Fukunaga T. Architectural and functional features of human triceps surae muscles during contraction. J Appl Physiol 1998;85:398-404. Kawakami Y, Muraoka T, Ito M, Kanehisa H, Fukunaga T. In vivo muscle fiber behaviour during counter-movement exercise in humans reveals a significant role for tendon elasticity. J Physiol 2002;540:635-646. Kearns CF, Abe T, Brechue WF. Muscle enlargement in sumo wrestlers includes increased muscle fascicle length. Eur J Appl Physiol 2000;83:289-296. Kearns CF, Isokawa M, Abe T. Architectural characteristics of dominant leg muscles in junior soccer players. Eur J Appl Physiol 2001;85:240-243. Khoury V, Cardinal E, Bureau NJ. Musculoskeletal sonography: a dynamic fool for usual and unusual disorders. Am J Roentgenol 2007;188:W63-73. Kubo K, Kanehisa H, Fukunaga T. Effects of resistance and stretching training programmes on the viscoelastic properties of human tendon structures in vivo. J Physiol 2002;538:219-226. Kubo K, Kanehisa H, Ito M, Fukunaga T. Effects of isometric training on the elasticity of human tendon structures in vivo. J Appl Physiol 2001a;91:26-32. Kubo K, Kanehisa H, Kawakami Y, Fukunaga T. Influence of static stretching on viscoelastic properties of human tendon structures in vivo. J Appl Physiol 2001b;90:520-527. Kubo K, Kanehisa H, Kawakami Y, Fukunaga T. Elasticity of tendon structures of the lower limbs in sprinters. Acta Physiol Scand 2000a;168:327-335. Kubo K, Kanehisa H, Takeshita D, Kawakami Y, Fukashiro S, Fukunaga T. In vivo dynamic of human medial gastrocnemius muscle-tendon complex during stretch-shortening cycle exercise. Acta Physiol Scand 2000b;170:127-135. Kubo K, Kawakami Y, Fukunaga T. Influence of elastic properties of tendon structures on jump performance in humans. J Appl Physiol 1999;87:2090-2096. Kubo K, Morimoto M, Komuro T, Tsunoda N, Kanehisa H, Fukunaga T. Influence of tendon stiffness, joint stiffness, and electromyographic activity on jump performances using single joint. Eur J Appl Physiol 2007;99:235-243. Kumagai K, Abe T, Brechue WF, Ryushi T, Takano S, Mizuno M. Sprint performance is related to muscle fascicle length in male 100-m sprinters. J Appl Physiol 2000;88:811-816. Kurokawa S, Fukunaga T, Nagano A, Fukashiro S. Interaction between fascicles and tendinous structures during counter movement jumping investigated in vivo. J Appl Physiol 2003;95;2306-2314. Lew HL, Chen CPC, Wang T-G, Chew KTL. Introduction to musculoskeletal diagnostic ultrasound: examination of the upper limb. Am J Phys Med Rehabil 2007;86:310-321. Lichtwark GA, Bougoulias K, Wilson AM. Muscle fascicle and series elastic element length changes along the length of the human gastrocnemius during walking and running. J Biomech 2007;40:157-164. Lieber RL, Friden J. Clinical significance of skeletal muscle architecture. Clin Orthop Relat Res 2001;383:140-151. Maganaris CN, Baltzopoulos V, Sargeant AJ. In vivo measurements of the triceps surae complex architecture in man: implications for muscle function. J Physiol 1998;512:603-614. Magnusson SP, Aagaard P, Rosager S, Dyhre-Poulse P, Kjaer M. Load-displacement properties of the human triceps surae aponeurosis in vivo. J Physiol 2001;531:277-288. Magnusson SP, Hansen P, Aagaard P, Brond J, Dyhre-Poulsen P, Bojsen-Moller J. Differential strain patterns of the human gastrocnemius aponeurosis and free tendon, in vivo. Acta Physiol Scand 2003;177:185-195. Mahlfeld K, Franke J, Awiszus F. Postcontraction changes of muscle architecture in human quadriceps muscle. Muscle Nerve 2004;29:597-600. Maupas E, Paysant J, Datie AM, Martinet N, Andre JM. Functional asymmetries of the lower limbs. A comparison between clinical assessment of laterality, isokinetic evaluation and electrogoniometric monitoring of knees during walking. Gait Posture 2002;16:304-312. Morse CI, Thom JM, Birch KM, Narici MV. Changes in triceps surae muscle architecture with sarcopenia. Acta Physiol Scand 2005;183:291-298. Muramatsu T, Muraoka T, Kawakami Y, Fukunaga T. Superficial aponeurosis of human gastrocnemius is elongated during contraction: implications for modeling muscle-tendon unit. J Biomech 2002;35:217-223. Muramatsu T, Muraoka T, Takeshita D, Kawakami Y, Hirano Y, Fukunaga T. Mechanical properties of tendon and aponeurosis of human gastrocnemius muscle in vivo. J Appl Physiol 2001;90:1671-1678. Murray H, Jusk LJ. Effect of kinesio taping on proprioception in the ankle. J Orthop Sports Physi Ther 2001;31:A-37. Murray HM. Kinesiotaping, muscle strength and ROM after ACL repair. J Orthop Sports Phys Ther 2000;30:A-14. Narici MV, Binzoni T, Hiltbrand E, Fasel J, Terrier F, Cerretelli P. In vivo human gastrocnemius architecture with changing joint angle at rest and during graded isometric contraction. J Physiol 1996;496:287-297. Nazarian LN. The top 10 reasons musculoskeletal sonography is an important complementary or alternative technique to MRI. Am J Roentgenol 2008;190:1621-1626. Parker L, Nazarian LN, Carrino JA, Morrison WB, Grimaldi G, Frangos AJ, et al. Musculoskeletal imaging: medicare use, costs, and potential for cost substitution. J Am Coll Radio 2008;5:182-188(Abstact). Petschnig R, Baron R, Albrecht M. The relationship between isokinetic quadriceps strength test and hop tests for distance and one-legged vertical jump test following anterior cruciate ligament reconstruction. J Orthop Sports Phys Ther 1998;28:23-31. Powell PL, Roy RR, Kanim P, Bello M, Edgerton VR. Predictability of skeletal muscle tension from architectural determinations in guinea pig hindlimbs. J Appl Physiol 1984;57:1715-1721. Quick HH, Ladd ME, Hoevel M, Bosk S, Debatin JF, Laub G, et al. Real-time MRI of joint movement with trueFISP. J Magn Reson Imaging 2002;15:710-715. Reeves ND, Narici MV. Behavior of human muscle fascicles during shortening and lengthening contractions in vivo. J Appl Physiol 2003;95:1090-1096. Sacks RD, Roy RR. Architecture of the hind limb muscles of cats: functional significance. J Morphol 1982;173:185-195. Scott SH, Engstrom CM, Loeb GE. Morphometry of human thigh muscles. Determination of fascicle architecture by magnetic resonance imaging. J Anat 1993;182:249-257. Seynnes OR, Boer M, Narici MV. Early skeletal muscle hypertrophy and architectural changes in response to high-intensity resistance training. J Appl Physiol 2007;102:368-373. Slupik A, Dwornik M, Bialoszewski D, Zych E. Effect of kinesio taping on bioelectrical activity of vastus medialis muscle. Preliminary report. Ortop Traumatol Rehabil 2007;9:644-651. Sone T, Imai Y, Joo YI, Onodera S, Tomomitsu T, Fukunaga M. Side-to-side differences in cortical bone mineral density of tibiae in young male athletes. Bone 2007;38:708-713. Stafilidis S, Arampatzis A. Muslce-tendon unit mechanical and morphological properties and sprint performance. J Sports Sci 2007;25:1035-1046. Thain LMF, Lee SL, Downey DB. Ultrasonography of the lower leg: technique, anatomy and pathologic conditions. Can Assoc Radiol J 2001;52:325-336. Thelen MD, Dauber JA, Stoneman PD. The clinical efficacy of Kinesio Tape for shoulder pain: a randomized, double-blinded, clinical trial. J Orthop Sports Phys Ther 2008;38:389-395. van der Esch M, Steultjens M, Harlaar J, Knol D, Lems W, Dekker J. Joint proprioception, muscle strength, and functional ability in patients with osteoarthritis of the knee. Arthritis Rheum 2007;57:787-793. van der Esch M, Steultjens M, Knol DL, Dinant H, Kekker J. Joint laxity and the relationship between muscle strength and functional ability in patients with osteoarthritis of the knee. Arthritis Rheum 2006;55:953-959. Vanezis A, Lees A. A biomechanical analysis of good and poor performers of the vertical jump. Ergonomics 2005;48:1594-1603. Yildiz Y, Aydin T, Sekir U, Cetin C, Ors F, Kalyon TA. Relation between isokinetic muscle strength and functional capacity in recreational athletes with chondromalacia patellae. J Sports Med 2003;37:475-479. Yoshida A, Kahanov L. The effect of kinesio taping on lower trunk range of motions. Res Sports Med 2007;15:103-112. 王秀銀。靜態伸展持續時間與測量前休息時間對爆發力之影響。國立體育學院教練研究所。碩士論文；2002。王崇禮、謝豐舟。超音波機器的基本介紹。骨骼肌肉超音波。初版，台北巿；力大圖晝；2003：p17-24。杉本恆美。探頭的基礎知識。新超音波醫學1：醫用超音波的基礎。台北巿；合記書局；2003；p22-24。邵耀華。超音波基本原理。骨骼肌肉超音波。初版，台北巿；力大圖書；2003：p1-16。曹育翔、吳盈幸、林世澤。腓腸肌群肌內效貼紮對平衡能力的影響。國立體育學院論叢2002；2：271-282。陳佳琳。貼紮對足跟墊避震能力之影響。臺灣大學物理治療學系暨研究所。碩士論文；2004。蔡涵如。肌內效貼布是否可以取代治療乳癌術後淋巴水腫之減腫脹淋巴治療法中的繃帶？臺灣大學物理治療學系暨研究所。碩士論文；2005。
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/41445	-
dc.description.abstract	肌肉的結構與肌腱和腱膜的物理特性會因為不同的訓練和運動而產生適應性的變化，進而提高運動表現。但這些改變肌肉結構或肌腱和腱膜特性的訓練或運動，都需要持續一定的時間，才會出現變化；目前尚無可立即改變肌肉結構變化的運動訓練方式。然而近年來運動選手們常利用彈性貼紮來促進運動表現，但彈性貼布本身是一種物理性的介入，且具有立即的效應，因此其效應或許來自改變了肌肉的物理特性。然而目前鮮有研究探討其對運動表現的影響，遑論探討彈性貼紮對於肌肉肌腱單位結構和物理特性影響的研究。因此，本研究在有無腓腸肌彈性貼紮的狀況下，進行單腳垂直跳測試，以檢視彈性貼紮對動作表現的影響。並在有無腓腸肌彈性貼紮的狀況下，進行單腳蹲踮測試，量測腓腸肌內側頭之肌肉肌腱交點偏離度、肌束長度、淺層肌束角度、深層肌束角度、肌肉厚度等肌肉結構參數，以了解彈性貼紮是否可改變單腳蹲踮動作過程中的腓腸肌肌肉肌腱單位結構的變化。本研究屬於便利抽樣、前瞻性、介入性、順序隨機和前後側的研究設計，共收取30名符合條件的健康成年人分別在有無貼紮的狀況下，進行單腳蹲踮和單腳垂直跳測試。在單腳蹲踮測試時，以超音波影像儀擷取腓腸肌內側頭中點和末端的影像，並同步以電子量角器記錄踝關節角度的變化。在超音波影像上量測腓腸肌內側頭的肌肉肌構單位結構參數，包括肌肉肌腱交點的偏離度、肌束長度、淺層肌束角度、深層肌束角度、肌肉厚度等。單腳垂直跳測試時，則以垂直跳測量板量測其跳躍時對側手能碰觸的最高高度，並以站立時的基礎高度作標準化。有無貼紮的次序依亂數表做隨機分組，以降低疲憊或學習效應的影響。以重複量測變異數分析比較單腳垂直跳高度在有無貼紮狀況下是否存在顯著差異；在控制踝關節角度下，以混合模型分析比較在單腳蹲踮時，腓腸肌內側頭肌束長度、淺層肌束角度、深層肌束角度、肌肉厚度和腓腸肌肌肉肌腱交點偏離度的改變在有無貼紮狀況的差異。所有統計分析的顯著水準訂在α=0.05。本研究結果顯示，腓腸肌彈性貼紮與否不會明顯地改變單腳垂直跳高度，但因不同人的垂直跳高度在貼紮後的變化有極大不同，因此依貼紮後的單腳垂直跳高度改變情形，將受試者分為增高組（增高1cm以上者）與降低組（降低1cm以上者），作進一步的分析。對於腓腸肌肌肉肌腱交點的偏離度，彈性貼紮會減低由蹲下至踮起時，肌肉肌腱交點向近心端的偏離度；但其他的肌肉結構參數都沒有差異。若再進一步檢視增高組與降低組，則發現增高組的腓腸肌內側頭肌束長度在彈性貼紮時，會降低由蹲下至踮起時的最大縮短量，而降低組的則會明顯的增加，因此顯示彈性貼紮可能會改變腓腸肌肌肉肌腱單位結構的部分物理特性。本研究由腓腸肌肌肉肌腱單位結構的觀點來檢視彈性貼紮的作用，發現藉由黏貼皮膚的彈性貼紮可以改變部分肌肉肌腱單位結構的物理特性，此結果可提供臨床應用上的實證參考。	zh_TW
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dc.description.tableofcontents	口試委員會審定書----------------------------------------------------------------ii 誌謝----------------------------------------------------------------------------------iii 中文摘要---------------------------------------------------------------------------- v 英文摘要----------------------------------------------------------------------------vii 目錄---------------------------------------------------------------------------------- x 圖目錄------------------------------------------------------------------------------xiii 表目錄------------------------------------------------------------------------------xiv 第一章、前言---------------------------------------------------------------------- 1 第一節、研究背景與動機------------------------------------------------- 1 第二節、研究目的---------------------------------------------------------- 3 第三節、研究問題與研究假說------------------------------------------- 4 第四節、名詞解釋---------------------------------------------------------- 5 第二章、文獻回顧---------------------------------------------------------------- 7 第一節、彈性貼紮---------------------------------------------------------- 7 第二節、肌肉肌腱單位的結構-------------------------------------------10 第三節、腓腸肌的肌肉肌腱單位結構與生物力學-------------------12 第四節、肌肉肌腱單位結構之相關研究方法學----------------------15 第五節、超音波影像在肌肉肌腱單位結構研究之應用-------------17 第三章、研究方法----------------------------------------------------------------20 第一節、研究設計----------------------------------------------------------20 第二節、受試者-------------------------------------------------------------21 第三節、實驗儀器與設備-------------------------------------------------22 第四節、實驗流程----------------------------------------------------------24 第五節、影像處理與量測-------------------------------------------------27 第六節、統計分析----------------------------------------------------------28 第四章、結果----------------------------------------------------------------------30 第一節、電子量角器的電壓與角度關係-------------------------------31 第二節、肌肉肌腱單位結構的再測信度-------------------------------31 第三節、受試者的基本資料----------------------------------------------32 第四節、彈性貼紮對單腳垂直跳高度的影響-------------------------33 第五節、彈性貼紮對腓腸肌肌肉肌腱交點偏離度的影響----------34 第六節、彈性貼紮在腓腸肌放鬆時對其肌肉結構參數的影響----36 第七節、彈性貼紮在單腳蹲踮測試時對其肌肉結構變化的影響--36 第五章、討論-----------------------------------------------------------------------38 第一節、彈性貼紮對動作表現的影響-----------------------------------38 第二節、彈性貼紮對腓腸肌肌肉肌腱單位結構的影響--------------39 第三節、本研究的優點與貢獻--------------------------------------------40 第四節、本研究的限制----------------------------------------------------41 第六章、結論----------------------------------------------------------------------43 圖-------------------------------------------------------------------------------------44 表-------------------------------------------------------------------------------------51 參考文獻----------------------------------------------------------------------------69 附錄一-------------------------------------------------------------------------------81 附錄二-------------------------------------------------------------------------------84
dc.language.iso	zh-TW
dc.subject	肌肉肌腱單位結構	zh_TW
dc.subject	彈性貼紮	zh_TW
dc.subject	超音波影像	zh_TW
dc.subject	單腳垂直跳	zh_TW
dc.subject	single-leg vertical jump	en
dc.subject	architecture of muscle-tendon unit	en
dc.subject	elastic taping	en
dc.subject	ultrasonography	en
dc.title	彈性貼紮對腓腸肌肌肉肌腱單位結構以及動作表現的影響	zh_TW
dc.title	Changes in architecture of muscle-tendon unit and performance of gastrocnemius using elastic taping	en
dc.type	Thesis
dc.date.schoolyear	97-1
dc.description.degree	碩士
dc.contributor.oralexamcommittee	王崇禮,邵耀華,詹美華
dc.subject.keyword	彈性貼紮,肌肉肌腱單位結構,超音波影像,單腳垂直跳,	zh_TW
dc.subject.keyword	elastic taping,architecture of muscle-tendon unit,ultrasonography,single-leg vertical jump,	en
dc.relation.page	84
dc.rights.note	有償授權
dc.date.accepted	2009-02-13
dc.contributor.author-college	醫學院	zh_TW
dc.contributor.author-dept	物理治療學研究所	zh_TW
顯示於系所單位：	物理治療學系所

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