نوع مقاله : مقاله پژوهشی

نویسندگان

1 دانشجوی دکتری بیومکانیک ورزشی، گروه بیومکانیک و آسیب‌شناسی ورزشی، دانشکدۀ تربیت‌بدنی و علوم ورزشی، دانشگاه خورزمی، تهران، ایران

2 استادیار بیومکانیک ورزشی، گروه بیومکانیک و آسیب‌شناسی ورزشی، دانشکدۀ تربیت‌بدنی و علوم ورزشی، دانشگاه خورزمی، تهران، ایران

3 استادیار آسیب‌شناسی ورزشی، گروه بیومکانیک و آسیب‌شناسی ورزشی، دانشکدۀ تربیت‌بدنی و علوم ورزشی، دانشگاه خورزمی، تهران، ایران

چکیده

هدف مطالعه حاضر بررسی اثرات کینزیوتیپ تسهیلی و مهاری بر فعالیت و خستگی عضلات فلکسور آرنج بود. 17 آزمودنی فعال به‌صورت داوطلبانه در این مطالعه شرکت کردند. هر آزمودنی پروتکل خستگی را طی شرایط کینزیوتیپ مهاری، تسهیلی و پلاسبو اجرا کرد و فعالیت الکترومایوگرافی عضلات دوسربازویی و بازویی زنداعلایی حین اجرای پروتکل ثبت شد. برای محاسبه‌ی میزان فعالیت عضلات قبل و بعد از پروتکل خستگی و نرخ خستگی به ترتیب از جذر میانگین مربعات (RMS) و شیب میانه فرکانسی سیگنال الکترومایوگرافی استفاده شد. نتایج نشان داد تنها اثر زمان بر فعالیت عضلانی معنادار بود و اثر کینزیوتیپ بر فعالیت عضلانی و نرخ خستگی عضلانی معنادار نبود. یافته‌ها نشان میدهد، فعالیت عضلات در شرایط خستگی افزایش می‌یابد، اما تکنیک‌های مختلف کینزیوتیپ قادر نیستند در شرایط عادی یا خستگی، اثر معناداری بر میزان فعالیت عضلانی بگذارند؛ همچنین این تکنیک‌ها نمی‌توانند با تسهیل یا مهار فعالیت عضلانی، زمان وقوع خستگی را تغییر دهد.

کلیدواژه‌ها

موضوعات

عنوان مقاله [English]

The immediate effect of facilitatory and inhibitory Kinesio Taping on the muscular activity and fatigue of the elbow flexor muscles

نویسندگان [English]

  • Peyman Aghaie 1
  • Ali Abbasi 2
  • Amir Letafatkar 3

1 , Faculty of Physical Education and Sports Sciences, Kharazmi University, Tehran, Iran

2 Assistant Professor/ Kharazmi University

3 none, Faculty of Physical Education and Sports Sciences, Kharazmi University, Tehran, Iran

چکیده [English]

The aim of this study was to investigate the effects of facilitatory and inhibitory Kinesio Taping on elbow flexor muscle activity and fatigue. Ten males and seven females voluntarily participated in this study. Each participant completed the fatigue protocol under inhibitory, facilitative and placebo Kinesio Tape conditions, and electromyography activity of the Biceps Brachii and Brachioradialis muscles was recorded. The activation and fatigue rates of muscles were calculated by root mean square and median frequency slope, respectively. The results showed a significant effect of time on muscle activation, whereas there were no significant effects of Kinesio Tape on muscular activity and fatigue rate. Based on these findings, the muscle activity increases during the fatigue, but Kinesio Tape techniques cannot significantly affect muscle activity under normal or fatigue conditions.  Moreover, these techniques cannot change the onset of fatigue by facilitating or inhibiting muscle

کلیدواژه‌ها [English]

  • Kinesio Taping
  • facilitatory
  • inhibitory
  • Fatigue
  • Muscle activity
  1.  

    1. Kase K, Wallis, J., Kase, T. Clinical Therapeutic Applications of the Kinesio Taping Method (2nd edition). Tokyo, Japan.: Ken Ikai Co. Ltd.; 2003:215-40.
    2. de Araújo Aguiar RSN, da Silva Boschi SRM, Lazzareschi L, da Silva AP, Scardovelli TA, Filoni E, et al. The late effect of Kinesio Taping® on handgrip strength. Journal of bodywork and movement therapies. 2018;22(3):598-604.
    3. Griebert MC, Needle AR, McConnell J, Kaminski TW. Lower-leg Kinesio tape reduces rate of loading in participants with medial tibial stress syndrome. Physical therapy in sport. 2016; 18:62-7.
    4. Thelen MD, Dauber JA, Stoneman PD. The clinical efficacy of kinesio tape for shoulder pain: a randomized, double-blinded, clinical trial. journal of orthopaedic & sports physical therapy. 2008;38(7):389-95.
    5. Williams S, Whatman C, Hume PA, Sheerin K. Kinesio taping in treatment and prevention of sports injuries. Sports medicine. 2012;42(2):153-64.
    6. Fu T-C, Wong AM, Pei Y-C, Wu KP, Chou S-W, Lin Y-C. Effect of Kinesio taping on muscle strength in athletes—a pilot study. Journal of science and medicine in sport. 2008;11(2):198-201.
    7. Kuo Y-L, Huang Y-C. Effects of the application direction of Kinesio taping on isometric muscle strength of the wrist and fingers of healthy adults—a pilot study. Journal of Physical Therapy Science. 2013;25(3):287-91.
    8. Gomez-Soriano J, Abián-Vicén J, Aparicio-García C, Ruiz-Lázaro P, Simón-Martínez C, Bravo-Esteban E, et al. The effects of Kinesio taping on muscle tone in healthy subjects: a double-blind, placebo-controlled crossover trial. Manual therapy. 2014;19(2):131-6.
    9. Mak DN-T, Au IP-H, Chan M, Chan ZY-S, An WW, Zhang JH, et al. Placebo effect of facilitatory Kinesio tape on muscle activity and muscle strength. Physiotherapy theory and practice. 2019;35(2):157-62.
    10. Abubaker AA, Muaidi Q. The Effect of the inhibition technique of the kinesio taping on the triceps surae muscle after an isokinetic fatigue protocol. MOJ Orthopedics & Rheumatology. 2018;10(1):00384.
    11. Choi I-R, Lee J-H. Effects of the direction of kinesiology tape application on the delayed onset of quadriceps muscle fatigue in athletes. Isokinetics and Exercise Science. 2019;27(3):235-40.
    12. Chen W-C, Hong W-H, Huang TF, Hsu H-C. Effects of kinesio taping on the timing and ratio of vastus medialis obliquus and vastus lateralis muscle for person with patellofemoral pain. Journal of Biomechanics. 2007;40(2): S318.
    13. Aghapour E, Kamali F, Sinaei E. Effects of Kinesio Taping® on knee function and pain in athletes with patellofemoral pain syndrome. Journal of bodywork and movement therapies. 2017;21(4):835-9.
    14. Cai C, Au I, An W, Cheung R. Facilitatory and inhibitory effects of Kinesio tape: Fact or fad? Journal of Science and Medicine in Sport. 2016;19(2):109-12.
    15. Parreira PdCS, Costa LdCM, Junior LCH, Lopes AD, Costa LOP. Current evidence does not support the use of Kinesio Taping in clinical practice: a systematic review. Journal of physiotherapy. 2014;60(1):31-9.
    16. de Almeida Lins CA, Neto FL, de Amorim ABC, de Brito Macedo L, Brasileiro JS. Kinesio Taping® does not alter neuromuscular performance of femoral quadriceps or lower limb function in healthy subjects: Randomized, blind, controlled, clinical trial. Manual therapy. 2013;18(1):41-5.
    17. Davison EA, Anderson CT, Ponist BH, Werner DM, Jacobs ME, Thompson AJ, et al. Inhibitory effect of the Kinesio Taping® method on the gastrocnemius muscle. American Journal of Sports Science and Medicine. 2016;4(2):33-8.
    18. Ahn IK, Kim YL, Bae Y-H, Lee SM. Immediate effects of kinesiology taping of quadriceps on motor performance after muscle fatigued induction. Evidence-Based Complementary and Alternative Medicine. 2015;2015.
    19. Abbiss CR, Laursen PB. Models to explain fatigue during prolonged endurance cycling. Sports medicine. 2005;35(10):865-98.
    20. Ng J-F, Richardson C, Kippers V, Parnianpour M, Bui B. Clinical applications of power spectral analysis of electromyographic investigations in muscle function. Manual Therapy. 1996;1(2):99-103.
    21. De Luca CJ. The use of surface electromyography in biomechanics. Journal of applied biomechanics. 1997;13(2):135-63.
    22. De Luca CJ, Adam A, Wotiz R, Gilmore LD, Nawab SH. Decomposition of surface EMG signals. Journal of neurophysiology. 2006;96(3):1646-57.
    23. Akima H, Foley JM, Prior BM, Dudley GA, Meyer RA. Vastus lateralis fatigue alters recruitment of musculus quadriceps femoris in humans. Journal of applied physiology. 2002;92(2):679-84.
    24. Bouillard K, Jubeau M, Nordez A, Hug F. Effect of vastus lateralis fatigue on load sharing between quadriceps femoris muscles during isometric knee extensions. Journal of neurophysiology. 2014;111(4):768-76.
    25. Afsharnezhad T, Amani A, Khorsandi M, Safar Zadeh S. The effects of 8-weeks unilateral resistance training on strength, time to task failure, and synergist co-activation of elbow flexor Muscles in trained and untrained limbs. Journal of Applied Health Studies in Sport Physiology. 2018;5(1):28-36 (In Persian).
    26. Brzycki M. Strength testing—predicting a one-rep max from reps-to-fatigue. Journal of physical education, recreation & dance. 1993;64(1):88-90.
    27. Hwang H-J, Chung W-H, Song J-H, Lim J-K, Kim H-S. Prediction of biceps muscle fatigue and force using electromyography signal analysis for repeated isokinetic dumbbell curl exercise. Journal of Mechanical Science and Technology. 2016;30(11):5329-36.
    28. Williams N. The Borg rating of perceived exertion (RPE) scale. Occupational Medicine. 2017;67(5):404-5.
    29. Morishita S, Yamauchi S, Fujisawa C, Domen K. Rating of perceived exertion for quantification of the intensity of resistance exercise. Int J Phys Med Rehabil. 2013;1(9):1-4.

     

     

    1. Serrão JC, Mezêncio B, Claudino JG, Soncin R, Miyashiro PLS, Sousa EP, et al. Effect of 3 different applications of Kinesio Taping Denko® on electromyographic activity: inhibition or facilitation of the quadriceps of males during squat exercise. Journal of sports science & medicine. 2016;15(3):403.
    2. Vered E, Oved L, Zilberg D, Kalichman L. Influence of kinesio tape application direction on peak force of biceps brachii muscle: A repeated measurement study. Journal of bodywork and movement therapies. 2016;20(1):203-7.
    3. Kase K. Clinical therapeutic applications of the Kinesio (! R) taping method. Albuquerque. 2003.
    4. Hussain J, Sundaraj K, Low YF, Kiang LC, Talib I, Nabi FG. Fatigue assessment in the brachii muscles during dynamic contractions. International Journal of Applied Engineering Research. 2017;12(22):12403-8.
    5. Da Silva R, Lariviere C, Arsenault A, Nadeau S, Plamondon A. The comparison of wavelet-and Fourier-based electromyographic indices of back muscle fatigue during dynamic contractions: validity and reliability results. Electromyography and clinical neurophysiology. 2008;48(3/4):147.
    6. Akima H, Hioki M, Furukawa T. Effect of arthroscopic partial meniscectomy on the function of quadriceps femoris. Knee Surgery, Sports Traumatology, Arthroscopy. 2008;16(11):1017.
    7. Costa MV, Pereira LA, Oliveira RS, Pedro RE, Camata TV, Abrão T, et al., editors. Fourier and wavelet spectral analysis of EMG signals in maximal constant load dynamic exercise. 2010 Annual International Conference of the IEEE Engineering in Medicine and Biology; 2010: IEEE: 4622-4625.
    8. Au IP, Fan PCP, Lee WY, Leong MW, Tang OY, An WW, et al. Effects of Kinesio tape in individuals with lateral epicondylitis: a deceptive crossover trial. Physiotherapy theory and practice. 2017;33(12):914-9.
    9. Bohunicky S, Henderson ZJ, Simon N, Dacanay M, Scribbans TD. Acute effect of inhibitory kinesio-tape of the upper trapezius on lower trapezius muscle excitation in healthy shoulders. Journal of Bodywork and Movement Therapies. 2021;27:393-401.
    10. Yoosefinejad AK, Motealleh A, Abbasalipur S, Shahroei M, Sobhani S. Can inhibitory and facilitatory kinesiotaping techniques affect motor neuron excitability? A randomized cross-over trial. Journal of bodywork and movement therapies. 2017;21(2):234-9.
    11. Hung B-L, Sun C-Y, Chang N-J, Chang W-D. Effects of Different Kinesio-Taping Applications for Delayed Onset Muscle Soreness after High-Intensity Interval Training Exercise: A Randomized Controlled Trial. Evidence-Based Complementary and Alternative Medicine. 2021;2021: 6676967.
    12. Doğan E, Yilmaz AK, Özdal M, Mayda MH, Yilmaz Ç, Ermi̇ş E. Acute effects of reverse Kinesio Taping on knee muscle strength, fatigue index and H/Q ratio in healthy subjects. Isokinetics and Exercise Science. 2019;27(2):135-41.

     

    1. Macedo LB, Richards J, Borges DT, Melo SA, Reis DD, Brasileiro JS. The influence of Kinesio Taping on muscle fatigue in individuals with low back pain: A randomised controlled trial. Journal of Back and Musculoskeletal Rehabilitation. 2021(Preprint):1-9.
    2. Rossignol S, Dubuc R, Gossard J-P. Dynamic sensorimotor interactions in locomotion. Physiological reviews. 2006;86(1):89-154.

    44.          Álvarez-Álvarez S, San José F, Rodríguez-Fernández A, Güeita-Rodríguez J, Waller B. Effects of Kinesio® Tape in low back muscle fatigue: randomized, controlled, doubled-blinded clinical trial on healthy subjects. Journal of back and musculoskeletal rehabilitation. 2014;27(2):203-12.