Functional Coupling of Motor Units Is Modulated During Walking in Human Subjects

doi:10.1152/jn.00844.2002

Functional Coupling of Motor Units Is Modulated During Walking in Human Subjects

D. M. Halliday,¹ B. A. Conway,² L.O.D. Christensen,³ N. L. Hansen,³ N. P. Petersen,³ and J. B. Nielsen³

¹Department of Electronics, University of York, York YO10 5DD, United Kingdom; ²Bioengineering Unit, University of Strathclyde, Glasgow G4 0NW, United Kingdom; and ³Division of Neurophysiology, Department of Medical Physiology, The Panum Institute, University of Copenhagen, 2200 Copenhagen N., Denmark

Halliday, D. M., B. A. Conway, L.O.D. Christensen, N. L. Hansen, N. P. Petersen, and J. B. Nielsen. Functional Coupling of Motor Units Is Modulated During Walking in Human Subjects. J. Neurophysiol. 89: 960-968, 2003. Time- and frequency-domain analysis of the coupling between pairs of electromyograms (EMG) recorded from leg muscles was investigatedduring walking in healthy human subjects. For two independentsurface EMG signals from the tibialis anterior (TA) muscle, couplingestimated from coherence measurements was observed at frequencies $<=$ 50 Hz, with identifiable peaks occurring in two frequency bandsranging approximately from 8 to 15 and 15 to 20 Hz. The coherencebetween TA recordings was greatest toward the end of swing, reducedin early swing, and largely absent in midswing. In time-domainestimates constructed from paired TA EMG recordings, a short-lastingcentral peak indicative of motor-unit synchronization was observed.This feature of motor-unit coupling was also reduced in mid swing.In paired recordings made among triceps surae, quadriceps, andhamstring muscles, a similar pattern of correlation to that forpaired TA recordings was observed. However, no significant couplingwas observed in recordings for which one EMG recording was madefrom an ankle flexor/extensor muscle and the other from a kneeextensor/flexor muscle. These results demonstrate that for TAa modulation exists in the functional coupling of motor unitsrecruited during swing. The data also indicate that human motoneuronsbelonging to different muscles are only weakly coupled duringwalking. This absence of widespread short-term synchronizationbetween the activities of muscles of the leg may provide a basisfor the highly adaptive nature of human gaitpatterns.

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