Research Article
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Year 2020, Volume: 14 Issue: 2, 86 - 90, 31.08.2020

Abstract

Supporting Institution

Trakya Üniversitesi Bilimsel Araştırma Projeleri (TÜBAP) Birimi

Project Number

2013/156

References

  • Bozer C. Genç erişkinlerde günlük aktivite sırasında yapılan bazı hareketlerin kinetik analizi. Edirne: Trakya University; 2007. p. 1–123.
  • Özaras N, Yalçın S, Yürüme Analizi. 1st ed. İstanbul: Avrupa Tıp Kitapçılık; 2001. p. 1–76.
  • Kanatlı U, Yetkin H, Songür M, Öztürk A, Bölükbaşı S. Yürüme analizinin ortopedik uygulamaları. TOTBID Dergisi 2006;5:53–9.
  • Gülçimen B, Ülkü S. İnsan ayağı biyomekaniğinin incelenmesi. Uludağ University Journal of the Faculty of Engineering 2008;13: 27–33.
  • Massó N, Rey F, Romero D, Gual G, Costa L, Germán A. Surface electromyography applications in the sport. Apunts Med Esport 2010;45:121–30.
  • Konrad P. The ABC of EMG: A Practical introduction to kinesiological electromyography. Scottsdale (AZ): Noraxon USA Inc.; 2005. p. 1–60.
  • Benedetti MG, Agostini V, Knaflitz M, Bonato P. Muscle activation patterns during level walking and stair ambulation. Applications of EMG in Clinical and Sports Medicine 2012;8:117–30.
  • Shiavi R, Bugle H, Limbird T. Electromyographic gait assessment, Part 1: Adult EMG profiles and walking speed. J Rehabil Res Dev 1987;24:13–23.
  • Nymark JR, Balmer SJ, Melis EH, Lemaire ED, Millar S. Electromyographic and kinematic nondisabled gait differences at extremely slow overground and treadmill walking speeds. J Rehabil Res Dev 2005;42:523–34.
  • Di Nardo, Fioretti S. Statistical analysis of surface electromyographic signal for the assessment of rectus femoris modalities of activation during gait. J Electromyogr Kinesiol 2013;23:56–61.
  • Li L, Ogden LL. Muscular activity characteristics associated with preparation for gait transition. Journal of Sport and Health Science 2012;1:27–35.
  • Winter D, Yack H. EMG profiles during normal human walking: stride-to-stride and inter-subject variability. Electroencephalogr Clin Neurophysiol 1987;67:402–11.
  • Annaswamy TM, Giddings CJ, Della Croce U, Kerrigan DC. Rectus femoris: its role in normal gait. Arch Phys Med Rehabil 1999;80: 930–4.
  • Montgomery 3rd WH, Pink M, Perry J. Electromyographic analysis of hip and knee musculature during running. Am J Sports Med 1994; 22:272–8.
  • Barr KM, Miller AL, Chapin KB. Surface electromyography does not accurately reflect rectus femoris activity during gait: impact of speed and crouch on vasti-to-rectus crosstalk. Gait Posture 2010;32: 363–8.
  • Nene A, Byrne C, Hermens H. Is rectus femoris really a part of quadriceps? Assessment of rectus femoris function during gait in able-bodied adults. Gait Posture 2004;20:1–13.
  • Byrne C, Lyons G, Donnelly A, O’keeffe D, Hermens H, Nene A. Rectus femoris surface myoelectric signal cross-talk during static contractions. J Electromyogr Kinesiol 2005;15:564–75.
  • Bartlett JL, Sumner B, Ellis RG, Kram R. Activity and functions of the human gluteal muscles in walking, running, sprinting, and climbing. Am J Phys Anthropol 2014;153:124–31.
  • Wall-Scheffler CM, Chumanov E, Steudel-Numbers K, Heiderscheit B. Electromyography activity across gait and incline: the impact of muscular activity on human morphology. Am J Phys Anthropol 2010; 143:601–11.

Assessment of hip muscles by surface EMG in gait analysis

Year 2020, Volume: 14 Issue: 2, 86 - 90, 31.08.2020

Abstract

Objectives: The rectus femoris muscle flexes the thigh, while the gluteus maximus muscle extends it. Understanding the activations of these two muscles that function in opposition to each other during walking facilitates the interpretation of gait pathologies. The aim of this study was to evaluate the activations of these muscles during walking by using the surface electromyography (EMG) technique.
Methods: Twenty female volunteers aged 18–26 years participated in our study. The electrical activation of the rectus femoris and gluteus maximus muscles of the participants was simultaneously evaluated by gait analysis. At the same time, spatiotemporal parameters and phase parameters were obtained.
Results: The activation pattern of both muscles was found to be similar. Both muscles reached the highest activation in the swing phase. The lowest activation was also seen in the pre-swing phase. Both muscles were observed to be active in the loading and single-limb support phases.
Conclusion: The fact that these two antagonists muscles are active at the same time suggests that one is functioning concentrically, while the other eccentrically. Thus, stabilization of hip joint is provided when the body moves forward.

Project Number

2013/156

References

  • Bozer C. Genç erişkinlerde günlük aktivite sırasında yapılan bazı hareketlerin kinetik analizi. Edirne: Trakya University; 2007. p. 1–123.
  • Özaras N, Yalçın S, Yürüme Analizi. 1st ed. İstanbul: Avrupa Tıp Kitapçılık; 2001. p. 1–76.
  • Kanatlı U, Yetkin H, Songür M, Öztürk A, Bölükbaşı S. Yürüme analizinin ortopedik uygulamaları. TOTBID Dergisi 2006;5:53–9.
  • Gülçimen B, Ülkü S. İnsan ayağı biyomekaniğinin incelenmesi. Uludağ University Journal of the Faculty of Engineering 2008;13: 27–33.
  • Massó N, Rey F, Romero D, Gual G, Costa L, Germán A. Surface electromyography applications in the sport. Apunts Med Esport 2010;45:121–30.
  • Konrad P. The ABC of EMG: A Practical introduction to kinesiological electromyography. Scottsdale (AZ): Noraxon USA Inc.; 2005. p. 1–60.
  • Benedetti MG, Agostini V, Knaflitz M, Bonato P. Muscle activation patterns during level walking and stair ambulation. Applications of EMG in Clinical and Sports Medicine 2012;8:117–30.
  • Shiavi R, Bugle H, Limbird T. Electromyographic gait assessment, Part 1: Adult EMG profiles and walking speed. J Rehabil Res Dev 1987;24:13–23.
  • Nymark JR, Balmer SJ, Melis EH, Lemaire ED, Millar S. Electromyographic and kinematic nondisabled gait differences at extremely slow overground and treadmill walking speeds. J Rehabil Res Dev 2005;42:523–34.
  • Di Nardo, Fioretti S. Statistical analysis of surface electromyographic signal for the assessment of rectus femoris modalities of activation during gait. J Electromyogr Kinesiol 2013;23:56–61.
  • Li L, Ogden LL. Muscular activity characteristics associated with preparation for gait transition. Journal of Sport and Health Science 2012;1:27–35.
  • Winter D, Yack H. EMG profiles during normal human walking: stride-to-stride and inter-subject variability. Electroencephalogr Clin Neurophysiol 1987;67:402–11.
  • Annaswamy TM, Giddings CJ, Della Croce U, Kerrigan DC. Rectus femoris: its role in normal gait. Arch Phys Med Rehabil 1999;80: 930–4.
  • Montgomery 3rd WH, Pink M, Perry J. Electromyographic analysis of hip and knee musculature during running. Am J Sports Med 1994; 22:272–8.
  • Barr KM, Miller AL, Chapin KB. Surface electromyography does not accurately reflect rectus femoris activity during gait: impact of speed and crouch on vasti-to-rectus crosstalk. Gait Posture 2010;32: 363–8.
  • Nene A, Byrne C, Hermens H. Is rectus femoris really a part of quadriceps? Assessment of rectus femoris function during gait in able-bodied adults. Gait Posture 2004;20:1–13.
  • Byrne C, Lyons G, Donnelly A, O’keeffe D, Hermens H, Nene A. Rectus femoris surface myoelectric signal cross-talk during static contractions. J Electromyogr Kinesiol 2005;15:564–75.
  • Bartlett JL, Sumner B, Ellis RG, Kram R. Activity and functions of the human gluteal muscles in walking, running, sprinting, and climbing. Am J Phys Anthropol 2014;153:124–31.
  • Wall-Scheffler CM, Chumanov E, Steudel-Numbers K, Heiderscheit B. Electromyography activity across gait and incline: the impact of muscular activity on human morphology. Am J Phys Anthropol 2010; 143:601–11.
There are 19 citations in total.

Details

Primary Language English
Subjects Health Care Administration
Journal Section Original Articles
Authors

Menekşe Karahan

Bülent Sabri Cığalı

Project Number 2013/156
Publication Date August 31, 2020
Published in Issue Year 2020 Volume: 14 Issue: 2

Cite

APA Karahan, M., & Cığalı, B. S. (2020). Assessment of hip muscles by surface EMG in gait analysis. Anatomy, 14(2), 86-90.
AMA Karahan M, Cığalı BS. Assessment of hip muscles by surface EMG in gait analysis. Anatomy. August 2020;14(2):86-90.
Chicago Karahan, Menekşe, and Bülent Sabri Cığalı. “Assessment of Hip Muscles by Surface EMG in Gait Analysis”. Anatomy 14, no. 2 (August 2020): 86-90.
EndNote Karahan M, Cığalı BS (August 1, 2020) Assessment of hip muscles by surface EMG in gait analysis. Anatomy 14 2 86–90.
IEEE M. Karahan and B. S. Cığalı, “Assessment of hip muscles by surface EMG in gait analysis”, Anatomy, vol. 14, no. 2, pp. 86–90, 2020.
ISNAD Karahan, Menekşe - Cığalı, Bülent Sabri. “Assessment of Hip Muscles by Surface EMG in Gait Analysis”. Anatomy 14/2 (August 2020), 86-90.
JAMA Karahan M, Cığalı BS. Assessment of hip muscles by surface EMG in gait analysis. Anatomy. 2020;14:86–90.
MLA Karahan, Menekşe and Bülent Sabri Cığalı. “Assessment of Hip Muscles by Surface EMG in Gait Analysis”. Anatomy, vol. 14, no. 2, 2020, pp. 86-90.
Vancouver Karahan M, Cığalı BS. Assessment of hip muscles by surface EMG in gait analysis. Anatomy. 2020;14(2):86-90.

Anatomy is the official journal of Turkish Society of Anatomy and Clinical Anatomy (TSACA).