Muscle Synergy Organization Is Robust Across a Variety of Postural Perturbations

doi:10.1152/jn.00810.2005

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Muscle Synergy Organization Is Robust Across a Variety of Postural Perturbations

Gelsy Torres-Oviedo¹, Jane M. Macpherson² and Lena H. Ting¹

¹The Wallace H. Coulter Department of Biomedical Engineering, at Georgia Tech and Emory University, Atlanta, Georgia; and ²Neurological Sciences Institute, Oregon Health and Sciences University, Beaverton, Oregon

Submitted 2 August 2005; accepted in final form 11 June 2006

We recently showed that four muscle synergies can reproducemultiple muscle activation patterns in cats during posturalresponses to support surface translations. We now test the robustnessof functional muscle synergies, which specify muscle groupingsand the active force vectors produced during postural responsesunder several biomechanically distinct conditions. We aimedto determine whether such synergies represent a generalizedcontrol strategy for postural control or if they are merelyspecific to each postural task. Postural responses to multidirectionaltranslations at different fore-hind paw distances and to multidirectionalrotations at the preferred stance distance were analyzed. Fivesynergies were required to adequately reconstruct responsesto translation at the preferred stance distance—four weresimilar to our previous analysis of translation, whereas thefifth accounted for the newly added background activity duringquiet stance. These five control synergies could account for>80% total variability or r² > 0.6 of the electromyographicand force tuning curves for all other experimental conditions.Forces were successfully reconstructed but only when they werereferenced to a coordinate system that rotated with the limbaxis as stance distance changed. Finally, most of the functionalmuscle synergies were similar across all of the six cats interms of muscle synergy number, synergy activation patterns,and synergy force vectors. The robustness of synergy organizationacross perturbation types, postures, and animals suggests thatmuscle synergies controlling task-variables are a general constructused by the CNS for balance control.

Address for reprint requests and other correspondence: L. H. Ting, The Wallace H. Coulter Dept. of Biomedical Engineering, at Georgia Tech and Emory University, 313 Ferst Dr., Atlanta, GA 30332-0535 (E-mail: lting{at}emory.edu)

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