Comparison of Electromyographic Activity of Selected Core Muscles While Performing Selected Core Stability Exercises Using TRX

Document Type : Original article

Authors

1 PhD Student of Sport Biomechanics, Kharazmi University, Tehran, Iran

2 Professor, Biomechanics Faculty, Kharazmi University, Tehran, Iran

3 Sport biomechanics,Department of Sport Sciences ,School of education and psychology,Shiraz University,Shiraz, Iran

Abstract

Background and Aims: Nowadays, suspended exercises have been considered as an effective way to improve core stability in healthy individuals and those with musculoskeletal disorders. However, the activity of different core muscles while performing suspended exercises has not been investigated yet. Therefore, the purpose of the present study was to compare electromyographic activity of selected core muscles while performing selected core stability exercises using TRX.
Materials and Methods: A total of 15 healthy physically active female students participated in the current study. Each participant performed three repetitions of each of bridge, plank, and lunge exercises with the feet placed inside the TRX foot straps. Simultaneously, surface electromyographic data was collected on rectus abdominis, external oblique, erector spine lumbalis, and superficial lumbar multifidus. Resulting row data was amplitude normalized and the root mean square was then determined. Repeated-measure analysis of variance was used to determine any differences across the three exercises on a test group (p=0.05).
Results: Different levels of muscle activation were observed during the three different exercises. Rectus abdominis activation was the greatest during plank exercise, while superficial lumbar multifidus activity peaked during feet suspended lunge and bridging.
Conclusion: Considering the levels of activity of all investigated muscles, plank seems to have the highest and lunge the least impact on improving the stability of core region.

Keywords

Main Subjects


  1. King MA. Core stability: creating a foundation for functional rehabilitation. Athletic Therapy Today 2000; 5(2):6-13.##
  2. Kibler WB, Press J, Sciascia A. The role of core stability in athletic function. Sports medicine 2006;36(3):189-98. ##
  3. Willson JD, Dougherty CP, Ireland ML, Davis IM. Core stability and its relationship to lower extremity function and injury. JAAOS-Journal of the American Academy of Orthopaedic Surgeons 2005;13(5):316-25. ##
  4. DiStefano LJ, DiStefano MJ, Frank BS, Clark MA, Padua DA. Comparison of integrated and isolated training on performance measures and neuromuscular control. The Journal of Strength & Conditioning Research 2013;27(4):1083-90. ##
  5. Kibler WB. Biomechanical analysis of the shoulder during tennis activities. Clinics in Sports Medicine 1995;14(1):79-85. ##
  6. Alentorn-Geli E, Myer GD, Silvers HJ, Samitier G, Romero D, Lázaro-Haro C, Cugat R. Prevention of non-contact anterior cruciate ligament injuries in soccer players. Part 1: Mechanisms of injury and underlying risk factors. Knee Surgery, Sports Traumatology, Arthroscopy 2009;17(7):705-29. ##
  7. Martuscello JM, Nuzzo JL, Ashley CD, Campbell BI, Orriola JJ, Mayer JM. Systematic review of core muscle activity during physical fitness exercises. The Journal of Strength & Conditioning Research 2013;27(6):1684-98. ##
  8. Schoenfeld BJ, Contreras B, Tiryaki-Sonmez G, Willardson JM, Fontana F. An electromyographic comparison of a modified version of the plank with a long lever and posterior tilt versus the traditional plank exercise. Sports Biomechanics 2014;13(3):296-306. ##
  9. McGill S, Andersen J, Cannon J. Muscle activity and spine load during anterior chain whole body linkage exercises: the body saw, hanging leg raise and walkout from a push-up. Journal of Sports Sciences 2015;33(4):419-26. ##

10. Behm D, Colado JC. The effectiveness of resistance training using unstable surfaces and devices for rehabilitation. International Journal of Sports Physical Therapy 2012;7(2):226-41. ##

11. Snarr RL, Hallmark AV, Nickerson BS, Esco MR. Electromyographical comparison of pike variations performed with and without instability devices. The Journal of Strength & Conditioning Research 2016;30(12):3436-42. ##

12. Chung S, Lee J, Yoon J. Effects of stabilization exercise using a ball on mutifidus cross-sectional area in patients with chronic low back pain. Journal of Sports Science & Medicine 2013;12(3):533-41. ##

13. Konrad P. The abc of emg. A Practical Introduction to Kinesiological Electromyography. 2005;1:30-5. ##

14. Beach TA, Howarth SJ, Callaghan JP. Muscular contribution to low-back loading and stiffness during standard and suspended push-ups. Human Movement Science 2008;27(3):457-72. ##

15. Snarr RL, Esco MR. Comparison of electromyographic activity when performing an inverted row with and without a suspension device. Journal of Exercise Physiology 2013;26(4.2):51-8. ##

16. Snarr RL, Esco MR. Electromyographic comparison of traditional and suspension push-ups. Journal of human kinetics 2013;39(1):75-83. ##

17. Lehman GJ, Hoda W, Oliver S. Trunk muscle activity during bridging exercises on and off a swissball. Chiropractic & osteopathy 2005;13(1):14-22. ##

18. Miller WM, Wagganer JD, Barnes JT, Sofo SS, Godard MP. Assessment of electromyographic activity during a TRX and traditional split-squat. Medicine & Science in Sports & Exercise 2016;48(5S):733. ##

19. Dawes J. Complete Guide to TRX Suspension Training: Human Kinetics; 2017. ##

20. Cram JR. Introduction to surface electromyography: Aspen Publishers; 1998. ##

21. Assis R, Souza R, Araujo R. Study on placing electromyography electrodes on lumbar multifidus muscles. Brazilian Journal of Morphological Sciences 2011;28(1):46-51. ##

22. Montes AM, Gouveia S, Crasto C, de Melo CA, Carvalho P, Santos R, Vilas-Boas JP. Abdominal muscle activity during breathing in different postural sets in healthy subjects. Journal of Bodywork and Movement Therapies 2017;21(2):354-61. ##

23. De Luca CJ. The use of electromyography in biomechanics. Journal of Applied Biomechanics 1997; 13:135-63. ##

24. Basmajian JV, DeLuca CJ. Muscles Alive: Their Functions Revealed by Electromyography. Baltimore, MD: Williams & Wilkins; 1985. ##

25. Marras WS, Davis KG. A non-MVC EMG normalization technique for the trunk musculature: Part 1. Method development. Journal of Electromyography and Kinesiology 2001;11(1):1-9. ##

26. Hislop HJ, Montgomery J. Muscle Testing: Techniques of Manual Examination. Philadelphia, PA: W.B. Saunders Co; 2002. ##

27. Marshall PW, Murphy BA. Core stability exercises on and off a Swiss ball. Archives of Physical Medicine and Rehabilitation 2005;86(2):242-9.ر

28. Edgerton VR, Wolf SL, Levendowski DJ, Roy RR. Theoretical basis for patterning EMG amplitudes to assess muscle dysfunction. Medicine and Science in Sports and Exercise 1996;28(6):744-51. ##

29. Arokoski JP, Valta T, Airaksinen O, Kankaanpaa M. Back and abdominal muscle function during stabilization exercises. Archives of Physical Medicine and Rehabilitation 2001; 82:1089-98. ##

30. Tsai YS, Sell TC, Myers JB, McCrory JL, Laudner KG, Pasquale MR, Lephart SM. The relationship between hip muscle strength and golf performance. Medicine & Science in Sports & Exercise 2004;36(5):S9. ##

31. Watkins RG, Dennis S, Dillin WH, et al. Dynamic EMG analysis of torque transfer in professional baseball pitchers. Spine 1989; 14:404-8. ##

32. Watkins RG, Uppal GS, Perry J, Pink M, Dinsay JM. Dynamic electromyographic analysis of trunk musculature in professional golfers. American Journal of Sports Medicine 1996; 24:535-8. ##

33. Yarahmadi Y, Haddadnezhad M, Shojaeddin S. The effect of suspended exercises on somatosensory and lumbopelvic control in men with chronic low back pain. Journal of sport sciences and educational applied researches without border 2016;2(5):130-48. ##

Volume 8, Issue 3
October 2019
Pages 140-149
  • Receive Date: 16 April 2018
  • Revise Date: 07 February 2019
  • Accept Date: 05 March 2019
  • First Publish Date: 23 September 2019