Five basic muscle activation patterns account for muscle activity during human locomotion

doi:10.1113/jphysiol.2003.057174

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Five basic muscle activation patterns account for muscle activity during human locomotion

Y. P. Ivanenko¹, R. E. Poppele² and F. Lacquaniti^1,3

^¹ Human Physiology Section, Scientific Institute Santa Lucia, Rome, Italy^² Department of Neuroscience, University of Minnesota, Minneapolis, MN, USA^³ Department of Neuroscience, University of Rome Tor Vergata, Rome, Italy

An electromyographic (EMG) activity pattern for individual musclesin the gait cycle exhibits a great deal of intersubject, intermuscleand context-dependent variability. Here we examined the issueof common underlying patterns by applying factor analysis tothe set of EMG records obtained at different walking speedsand gravitational loads. To this end healthy subjects were askedto walk on a treadmill at speeds of 1, 2, 3 and 5kmh^–1as well as when 35–95% of the body weight was supportedusing a harness. We recorded from 12–16 ipsilateral legand trunk muscles using both surface and intramuscular recordingand determined the average, normalized EMG of each record for10–15 consecutive step cycles. We identified five basicunderlying factors or component waveforms that can account forabout 90% of the total waveform variance across different musclesduring normal gait. Furthermore, while activation patterns ofindividual muscles could vary dramatically with speed and gravitationalload, both the limb kinematics and the basic EMG componentsdisplayed only limited changes. Thus, we found a systematicphase shift of all five factors with speed in the same directionas the shift in the onset of the swing phase. This tendencyfor the factors to be timed according to the lift-off eventsupports the idea that the origin of the gait cycle generationis the propulsion rather than heel strike event. The basic invarianceof the factors with walking speed and with body weight unloadingimplies that a few oscillating circuits drive the active musclesto produce the locomotion kinematics. A flexible and dynamicdistribution of these basic components to the muscles may resultfrom various descending and proprioceptive signals that dependon the kinematic and kinetic demands of the movements.

(Received 22 October 2003; accepted after revision 5 January 2004; first published online 14 January 2004)
Corresponding author Y. P. Ivanenko: Human Physiology Section, Fondazione Santa Lucia, 306 via Ardeatina, 00179 Rome, Italy. Email: y.ivanenko{at}hsantalucia.it

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				G. Torres-Oviedo and L. H. Ting Muscle Synergies Characterizing Human Postural Responses J Neurophysiol, October 1, 2007; 98(4): 2144 - 2156. [Abstract] [Full Text] [PDF]

				E. P. Zehr, J. E. Balter, D. P. Ferris, S. R. Hundza, P. M. Loadman, and R. H. Stoloff Neural regulation of rhythmic arm and leg movement is conserved across human locomotor tasks J. Physiol., July 1, 2007; 582(1): 209 - 227. [Abstract] [Full Text] [PDF]

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				A. d'Avella, A. Portone, L. Fernandez, and F. Lacquaniti Control of fast-reaching movements by muscle synergy combinations. J. Neurosci., July 26, 2006; 26(30): 7791 - 7810. [Abstract] [Full Text] [PDF]

				G. Cappellini, Y. P. Ivanenko, R. E. Poppele, and F. Lacquaniti Motor Patterns in Human Walking and Running J Neurophysiol, June 1, 2006; 95(6): 3426 - 3437. [Abstract] [Full Text] [PDF]

				M. C. Tresch, V. C. K. Cheung, and A. d'Avella Matrix Factorization Algorithms for the Identification of Muscle Synergies: Evaluation on Simulated and Experimental Data Sets J Neurophysiol, April 1, 2006; 95(4): 2199 - 2212. [Abstract] [Full Text] [PDF]

				I. Kurtzer, J. A. Pruszynski, T. M. Herter, and S. H. Scott Primate Upper Limb Muscles Exhibit Activity Patterns That Differ From Their Anatomical Action During a Postural Task J Neurophysiol, January 1, 2006; 95(1): 493 - 504. [Abstract] [Full Text] [PDF]

				J. Shemmell, M. Forner, J. R. Tresilian, S. Riek, B. K. Barry, and R. G. Carson Neuromuscular Adaptation During Skill Acquisition on a Two Degree-of-Freedom Target-Acquisition Task: Isometric Torque Production J Neurophysiol, November 1, 2005; 94(5): 3046 - 3057. [Abstract] [Full Text] [PDF]

				Y. P. Ivanenko, G. Cappellini, N. Dominici, R. E. Poppele, and F. Lacquaniti Coordination of Locomotion with Voluntary Movements in Humans J. Neurosci., August 3, 2005; 25(31): 7238 - 7253. [Abstract] [Full Text] [PDF]

				T. L Chmielewski, W. J Hurd, K. S Rudolph, M. J Axe, and L. Snyder-Mackler Author Response Physical Therapy, August 1, 2005; 85(8): 753 - 754. [Full Text] [PDF]

				G. Courtine, R. R. Roy, J. Hodgson, H. McKay, J. Raven, H. Zhong, H. Yang, M. H. Tuszynski, and V. R. Edgerton Kinematic and EMG Determinants in Quadrupedal Locomotion of a Non-Human Primate (Rhesus) J Neurophysiol, June 1, 2005; 93(6): 3127 - 3145. [Abstract] [Full Text] [PDF]

				A. d'Avella and E. Bizzi Shared and specific muscle synergies in natural motor behaviors PNAS, February 22, 2005; 102(8): 3076 - 3081. [Abstract] [Full Text] [PDF]