一、本研究以健康運動員進行施側,但未對髕骨疼痛的患者進行震動訓練的探討,未來 可針對髕骨疼痛症候群患者進行研究,以便了解是否更能提升活化時序及股內斜肌 的活化情形。
二、本研究尚未針對不同振福及振頻的搭配進行探討,建議未來可以設計不同搭配方式,
是否能激發出更佳的效果。
三、本研究採取立即性的震動訓練,對於長期的震動訓練介入效果尚未不明,未來可以 設計較長時間的震動介入。
51
參考文獻
林聖豐、黃啟煌,(2004)。漫談髕骨股骨關節疼痛症候群。大專體育,70,194-200。
陳婉菁,(2004)。新式肌力訓練:震動刺激肌力訓練機制與應用。大專體育,70,32-37。
陳婉菁,(2003)。不同震動刺激型態對等長收縮時肌肉活化程度之影響。未出版碩士論文,
國立體育學院,桃園縣。
莊榮仁、相子元,(2008)。全身式震動對不同運動類型運動員的影響。大專體育學刊,
10,3,123-135。
劉宗翰、梁玉秋、江政凌、林志隆,(2011)。全身性震動訓練對骨質密度的影響。大專
體育,114,85-91。
Aminaka, N., Pietrosimone, B. G., Armstrong, C. W., Meszaros, A., & Gribble, P. A. (2011).
Patellofemoral pain syndrome alters neuromuscular control and kinetics during stair ambulation. Journal of Electromyography and Kinesiology, 21, 645-651.
Adams, J. B., Edwads, D., Serviette, D., Bedient, A. M., Huntsman, E., Jacobs, K. A., . . . Signorile, J. F. (2009). Optimal frequency, displacement, duration, and recovery patterns to maximize power output following acute whole-body vibration. Journal of Strength
and Conditioning Research, 23(1), 237-245.
Bolgla, L. A., Malone, T. R., Umberger, B. R., & Uhl, T. L. (2010). Reliability of electromyographic methods used for assessing hip and knee neuromuscular activity in females diagnosed with patellofemoral pain syndrome. Journal of Electromyography
and Kinesiology, 20, 142-147.
Bolgla, L. A., Malone, T. R., Umberger, B. R., & Uhl, T. L. (2008). Hip strength and hip and knee kinematics during stair descent in females with and without ptellofemoral pain syndrome. Journal of Orthopaedic & Sports Physical Therapy, 38(1), 12-18.
Bosco, C., Tsarpela, O., Cardinale, M., Bonifazi, M., Tihanyi, J., Viru, M., et al. (2000).
Hormonal responses to whole-body vibration in men. European Journal of Applied
Physiology, 81(6), 449-454.
52
Brattstroem, H. (1964). Shape of the intercondylar groove normally and in recurrent dislocation of patella. A clinical and X-ray-anatomical investigation. Acta Orthop Scand, 68, 134-148.
Choi, B., Kim, M., Jeon H. S. (2011) The effects of an isometric knee extension with hip adduction (KEWHA) exercise on selective VMO muscle strengthening. Journal of
Electromyography and Kinesiology 21 (6), 1011–1016.
Cochrane, D. J., Legg, S. J., & Hooker, M. J. (2004). The short-term effect of whole-body vibration training on vertical jump, sprint, and agility performance. Journal of Strength
and Conditioning Research, 18(4), 828-832.
Coventry, E., O'Connor, K. M., Hart, B. A., Earl, J. E., & Ebersole, K. T. (2006). The effect of lower extremity fatigue on shock attenuation during single-leg landing. Clinical
Biomechanics, 21(10), 1090-1097.
Cowan, S. M., Bennell, K. L., & Hodges, P. W. (2000). The test-retest reliability of the onset of concentric and eccentric vastus medialis obliquus and vastus lateralis
electromyographic activity in a stair stepping task. Physical Therapy in Sport,
1(4), 129-136.
Despina, T., George, D., George, T., Sotiris, P., Alessandra, D. C., George, K., Stavros, K.
(2014). Short-term effect of whole-body vibration training on balance, flexibility and lower limb explosive strength in elite rhythmic gymnasts. Human Movement Science,
33, 149-158.
Dempster, W. T. (1958). Analysis of two-handed pulls using free body diagrams. Journal of
Applied Physiology, 13(3), 469-480.
Earl, J. E., & Hoch, A. Z. (2011). A proximal strengthening program improves pain, function, and biomechanics in women with patellofemoral pain syndrome. The American Journal
of Sports Medicine, 39, 154-163.
Ford, K. R., Myer, G. D., & Hewett, T. E. (2003). Valgus Knee Motion during Landing in High School Female and Male Basketball Players. Medicine and Science in Sports and
Exercise, 35, 1745-1750.
53
Fulkerson, J. P. (2002). Diagnosis and treatment of patients with patellofemoral pain. The
American Journal of Sports Medicine, 30(3), 447-456.
Gerodimos, V., Zafeiridis, A., Karatrantou, K., Vasilopoulou, T., Chanoua, K., & Pispirikou, E.
(2010). The acute effects of different whole-body vibration amplitudes and frequencies on flexibility and vertical jumping performance. Journal of Scienceand Medicine in
Sport, 13, 438-443.
Gilleard, W., McConnell, J., & Parsons, D. (1998). The effect of patellar taping on the onset of vastus medialis obliqus and vastus lateralis muscle activity in persons with patellofemoral pain. Physical Therapy, 78, 25-31.
Khayambashi, K., Mohammadkhani, Z., Ghaznavi, K., Lyle, M. A., & Powers, C. M. (2012).
The effects of isolated hip abductor and external rotator muscle strengthening on pain, health status, and hip strength in females with patellofemoral pain: a randomized controlled trial. Journal of Orthopaedic & Sports Physical Therapy, 42(1), 22-29.
Lee, T. Q., Morris, G., & Csintalan, R. P. (2003). The influence of tibial and femoral rotation on patellofemoral contact area and pressure. Journal of Orthopaedic & Sports Physical
Therapy, 33(11), 686-693.
Lafortune, M. A., Lake, M. J., Hennig E. M. (1996).Differential shock transmission response of the human body to impact severity and lower limb posture. Journal of Biomechanics,
29, 1531–1537.
Miyara, K., Matsumoto, S., Uemaa, T., Hirokawa, T., Nomaa, T., Shimodozono, M., &
Kawahira, K. (2013). Feasibility of using whole body vibration as a means for controlling spasticity in post-stroke patients: A pilot study. Complementary Therapies in
Clinical Practice, 1-4.
Mizuno, Y., Kumagai, M., Mattessich, S. M., Elias, J. J., Ramrattan, N., Cosgarea, A. J., &
Chao, E. Y. S. (2001). Q-angle influences tibiofemoral arid patellofemoral kinematics.
Journal of Orthopaedic Research, 19, 834-840.
Munro, A., Herrington, L., & Comfort, P. (2012). Comparison of landing knee valgus angle between female basketball and football athletes: Possible implications for anterior cruciate ligament and patellofemoral joint injury rates. Physical Therapy in Sport, 13, 259-264.
54
Myer, G. D., Ford, K. R., Foss, K. D. B., Goodman, A., Ceasar, A., Rauh, M. J., Hewett, T. E.
(2010). The incidence and potential pathomechanics of patellofemoral pain in female athletes. Clinical Biomechanics, 25, 700-707.
Ness, L. L., & Field-Fote, E. C. (2009). Whole-body vibration improves walking function in individuals with spinal cord injury: A pilot study. Gait & Posture, 30, 436-440.
Noon, M., Hoch, A. Z., McNamara, L., & Schimke, J. (2010). Injury patterns in female Irish dancers. PM&R, 2(11), 1030-1034.
Paoloni, M., Mangone, M., Fratocchi, G., Murgia, M., Saraceni, V. M., Santilli, V. (2010)
Kinematic and kinetic features of normal level walking in patellofemoral pain syndrome:
More than a sagittal plane alteration. Journal of Biomechanics, 43(9), 1794-1798.
Schipplein, O. D., & Andriacchi, T. P. (1991). Interaction between active and passive knee stabilizers during level walking. Journal of Orthopaedic Research, 9, 113-119.
Serrao, F. V., Cabral, C. M. N., Berzin, F., Cecılia, C., & Vanessa, M.-P. (2005). Effect of tibia rotation on the electromyographical activity of the vastus medialis oblique and vastus lateralis longus muscles during isometric leg press. Physical Therapy in Sport, 6(15-23).
Stensdotter, A.-K., Hodges, P. W., Mellor, R., Sundelin, G., & Hager-Ross, C. (2003).
Quadriceps activation in closed and in open kinetic chain exercise. Science in Sports &
Exercise, 35(12), 2043-2047.
Thamsuwan, O., Blood, R. P., Ching, R. P., Boyle, L., & Johnson, P. W. (2013). Whole body vibration exposures in bus drivers: A comparison between a high-floor coach and a low-floor city bus. International Journal of Industrial Ergonomics, 43, 9-17.
Tiggelen, D. V., Cowan, S., Coorevits, P., Duvigneaud, N., & Witvrouw, E. (2009). Delayed vastus medialis obliquus to vastus lateralis onset timing contributes to the development of patellofemoral pain in previously healthy men. The American Journal of Sports
Medicine, 37(6), 1099-1105.
Torvinen, S., Kannus, P., Sievanen, H., Jarvinen, T. A. H., Pasanen, M., Kontulainen, S., . . . Vuori, I. (2002). Effect of a vibration exposure on muscular performance and body balance. Randomized cross-over study. Clinical Physiology and Functional Imaging,
22(2), 145-152.
55
Trans, T., Aaboe, J., Henriksen, M., Christensen, R., Bliddal, H., & Lund, H. (2009). Effect of whole body vibration exercise on muscle strength and proprioception in females with knee osteoarthritis. The Knee, 16, 256-261.
Willis, F. B., Burkhardt, E. J., Walker, J. E., Johnson, M. A., & Spears, T. D. (2005).
Preferential vastus medialis oblique activation achieved as a treatment for knee disorders. Journal of Strength and Conditioning Research, 19(2), 286-291.
Wong, Y. M., & Ng, G. (2010). Resistance training alters the sensorimotor control of vasti muscles. Journal of Electromyography and Kinesiology, 20, 180-184.
Voloshin, A. (2000). The influence of walking speed on dynamic loading on the human
musculoskeletal system. Medicine and Science in Sports and Exercise, 32 , 1156-1159.
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您好:
本實驗主要想了解震動訓練對女性運動員股內側肌與股外側肌立即性影響,希 望能徵求您的同意,參與本次實驗。
實驗前將量測您的身高、體重及下肢段之身體肢段參數。實驗中,將請您以節 拍器 96 次/min速度進行下階梯行走,行走過程中採輕鬆自然方式即可。本實驗純 屬人體動作技術分析的研究,無任何侵入性行為且不會對人體造成任何傷害。同時,
研究中個人相關資料與測驗參數等所有資料均會妥善保管不對外公開,僅供作為學 術研究之用。此外,若您已簽署同意書,在實驗期間有任何意願改變,請您告知研 究者,隨時可終止並退出實驗。最後,感謝您的配合與參與!
--- 經過閱讀,並且了解以上陳述,我願意參與本研究。
出生年月日:____________________ 實 驗 者:___________________
參與者簽名:____________________ 實驗日期:___________________
日 期:____________________
研究單位:國立臺灣師範大學體育學系研究所 指導教授:張家豪 副教授
研 究 生:張文星 敬上 連絡電話:0980-xxx-xxx
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