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http://dx.doi.org/10.18857/jkpt.2021.33.1.40

Changes in Lower Limb Muscle Activity during Lunge according to the Different Angle of Ankle Joint  

Ryu, Heun-Jae (Department of Physical Therapy, College of Health Sciences, Dankook University)
Kim, Youn-Tae (Department of Physical Therapy, College of Health Sciences, Dankook University)
Park, Hee-Joon (Department of Physical Therapy, College of Health Sciences, Dankook University)
Kwon, Jung-Won (Department of Physical Therapy, College of Health Sciences, Dankook University)
Publication Information
The Journal of Korean Physical Therapy / v.33, no.1, 2021 , pp. 40-46 More about this Journal
Abstract
Purpose: This study compared the muscle activity of the lower limb according to the three types of fixed angles of the ankle joint during a lunge exercise. Methods: Twenty healthy subjects performed the lunge motion in a trial including the three types of fixed angle. The lunge motion with a neutral, 20° dorsiflexion, and 20° plantarflexion of the ankle joint were randomized and measured repeatedly. The muscle activity of the rectus femoris (RF), vastus medialis (VM), vastus lateralis (VL), biceps femoris (BF), and semitendinosus (ST) was measured by surface electromyography. Results: In the change in ankle joint angle, the RF, VL, BF, and ST muscle activity showed significant differences (p<0.05). In the 20° dorsiflexion position, the muscle activity of VL, BF, and ST showed a significant decrease compared to that in the neutral position (p<0.017). The muscle activity of RF and VL in the neutral position was greater than that in the 20° plantarflexion position (p<0.017). Only the muscle activity of the BF in the 20° plantarflexion position was significantly greater than the 20° dorsiflexion position (p<0.017). Conclusion: These results revealed a difference in the muscle activity of lower extremities in the proximal region according to the angle of the ankle joint during the lunge.
Keywords
Ankle joint; Electromyography; Lunge; Quadriceps muscle; Hamstring muscle;
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1 Yeo SJ. Analysis of lower-limb muscle by leg limb exercise for men in their 20s: kettle bell swing, squat, lunge. Kyungpook national university. Dissertation of Mater's Degree. 2015.
2 Morse CI, Thom JM, Reeves ND et al. In vivo physiological cross-sectional area and specific force are reduced in the gastrocnemius of elderly men. J Appl Physiol. 2005;99(3):1050-5.   DOI
3 Blake R, Burns D, Colson J. Etiology of atraumatic medial knee pain. J Am Podiatr Med Assoc. 1981;71(10):580-3.   DOI
4 Greenfield B. Evaluation of overuse syndrome. In: Donatelli R, ed, Biomechanics of the Foot and Ankle, Piladelphia, Davis Company, 1990:201-3.
5 Olerud C, Berg P. The variation of the Q angle with different positions of the foot. Clin Orthop Relat Res. 1984(191):162-5.
6 Schamberger W. The malalignment syndrome in runners. Phys Med Rehabil Clin N Am. 2016;27(1):237-317.
7 Ekstrom RA, Donatelli RA, Carp KC. Electromyographic analysis of core trunk, hip, and thigh muscles during 9 rehabilitation exercises. J Orthop Sports Phys Ther. 2007;37(12):754-62.
8 Escamilla R, Zheng N, Macleod T et al. Patellofemoral joint force and stress during the wall squat and one-leg squat. Med Sci Sports Exerc. 2009;41(4):879.   DOI
9 Park MH, Song JK, Kim JG. Effect of 12-week resistance exercise on patellofemoral pain syndrome in young female aged 20~40 years. Korean J Phys Educ. 2007;46(4):417-26.
10 Earl J, Schmitz RJ, Arnold B. Activation of the VMO and VL during dynamic mini-squat exercises with and without isometric hip adduction. J Electromyogr Kinesiol. 2001;11(6):381-6.   DOI
11 Westfall DC, Worrell TW. Anterior knee pain syndrome: role of the vastus medialis oblique. J Sport Rehabil. 1992;1(4):317-25.   DOI
12 Ahn SH, Lee SK, Lee KJ et al. The comparison of muscle activities in the right leg during squatting according to various ankle angles. PNF & Mov. 2017;15(3):259-66.
13 Park SR, Lee MG, Choi SM. Comparison of electromyographic activity of quadriceps during Lunge according to ankle positions in ssireum players with patellofemoral pain syndrome. Exerc Sci. 2010;19(3):219-30.   DOI
14 Anderson K, Behm DG. Trunk muscle activity increases with unstable squat movements. Can J Appl Physiol. 2005;30(1):33-45.   DOI
15 Park SY, Kim CS, Kim JH et al. Assessment of isokinetic muscle strength in the knee extensor through the ankle joint angles. J Kor Phys Ther. 2011; 23(1):13-9.
16 Kubo K, Ohgo K, Takeishi R et al. Effects of series elasticity on the human knee extension torque-angle relationship in vivo. Res Q Exercise Sport. 2006;77(4):408-16.
17 Smidt GL. Biomechanical analysis of knee flexion and extension. J Biomech. 1973;6(1):79-92.   DOI
18 Neumann DA. Kinesiology of the Musculoskeletal System. 2nd ed. Seoul, Bub Mun Publishing Company, 2011;597.
19 Yamada T, Demura SI. Influence of the relative difference in chair seat height according to different lower thigh length on floor reaction force and lower-limb strength during sit-to-stand movement. J Physiol Anthropol Appl Hum Sci. 2004;23(6):197-203.   DOI
20 Hwang SJ, Son JS, Kim JY et al. Analysis of joint movements and muscle length during sit-to-stand at various sitting heights in the korean elderly daily life. World Congress on Medical Physics and Biomedical Engineering. 2009:25:17-9.
21 Lee MM, Park DS. A comparison of muscle activation and mechanical loading according to the degree of ankle joint motion during a sit-tostand task. J Korean Soc Phys Med. 2017;12(4):113-22.
22 Oh TY. The effects of squatting exercise with gym ball and wall on lower extremity muscles activation. J Korean Soc Phys Med. 2013;8(4):647-53.   DOI
23 Lunnen JD, Yack J, LeVeau BF. Relationship between muscle length, muscle activity, and torque of the hamstring muscles. Phys Ther. 1981;61(2):190-5.
24 Antich T, Brewster CE. Modification of quadriceps femoris muscle exercises during knee rehabilitation. Phys Ther. 1986;66(8):1246-50.
25 Kim SJ. Effects of lunge excersice with instability on lower limb activity. Daegu Catholic University. Dissertation of Master's Degree. 2018.
26 Signorile JF, Kacsik D, Perry A et al. The effect of knee and foot position on the electromyographical activity of the superficial quadriceps. J Orthop Sports Phys Ther. 1995;22(1):2-9.
27 Snow RE, Williams KR. High heeled shoes: their effect on center of mass position, posture, three-dimensional kinematics, rearfoot motion, and ground reaction forces. Arch Phys Med Rehabil. 1994;75(5):568.   DOI
28 Richards J, Thewlis D, Selfe J et al. A biomechanical investigation of a single-limb squat: implications for lower extremity rehabilitation exercise. J Athl Train. 2008;43(5):477-82.   DOI
29 Magee DJ. Orthopedic physical. 6th ed. Seoul, Elsevier Korea LLC, 2014:808.
30 Cowan SM, Bennell KL, Hodges PW et al. Delayed onset of electromyographic activity of vastus medialis obliquus relative to vastus lateralis in subjects with patellofemoral pain syndrome. Arch Phys Med Rehabil. 2001;82(2):183-9.   DOI
31 Fulkerson JP. Diagnosis and treatment of patients with patellofemoral pain. Am J Sports Med. 2002;30(3):447-56.   DOI
32 Clarkson HM. Musculoskeletal assessment: joint range of motion and manual muscle strength. Philadelphia, Lippincott Williams & Wilkins, 2004:328-9.
33 Morgan KD, Donnelly CJ, Reinbolt JA. Elevated gastrocnemius forces compensate for decreased hamstrings forces during the weight-acceptance phase of single-leg jump landing: Implications for anterior cruciate ligament injury risk. J Biomech. 2014;47(13):3295-302.   DOI
34 Kulig K, Andrews JG, Hay JG. Human strength curves. Exerc Sport Sci Rev. 1984;12(1):417-66.
35 Gilleard W, McConnell J, Parsons D. The effect of patellar taping on the onset of vastus medialis obliquus and vastus lateralis muscle activity in persons with patellofemoral pain. Phys Ther. 1998;78(1):25-32.
36 McHugh MP, Connolly DA, Eston RG et al. Electromyographic analysis of exercise resulting in symptoms of muscle damage. J Sports Sci. 2000;18(3):163-72.   DOI
37 Mademli L, Arampatzis A, Morey-Klapsing G et al. Effect of ankle joint position and electrode placement on the estimation of the antagonistic moment during maximal plantarflexion. J Eletromyogr Kines. 2004;14(5):591-7.
38 Park HY, Kim NH, Cha YJ. Comparison of muscle activity in proximal muscle of lower extremities during lunge according to the anterior-posterior distance of foot position. J Korean Soc Phys Med. 2018;13(4):131-8.
39 Stiehl JB. Inman's joints of the ankle. Philadelphia, Williams & Wilkins, 1991:278-94.
40 Winter DA, Yack H. EMG profiles during normal human walking: stride-to-stride and inter-subject variability. Clin Neurophysiol. 1987;67(5):402-11.
41 Lehmkuhl LD, Smith LK. Brunnstrom's clinical kinesiology. 6th ed. Philadelphia, Davis Co, 2012:453-5.
42 Buford Jr WL, Ivey Jr FM, Nakamura T et al. Internal/external rotation moment arms of muscles at the knee: Moment arms for the normal knee and the ACL-deficient knee. Knee. 2001;8(4):293-303.   DOI