Sequential Activation of Muscle Synergies During Locomotion in the Intact Cat as Revealed by Cluster Analysis and Direct Decomposition

Département de Physiologie, Université de Montréal, Montreal, Quebec, Canada Submitted 7 March 2006; accepted in final form 12 June 2006 During goal-directed locomotion, descending signals from supraspinal structures act through spinal interneuron pathways to effect modifications of muscle activity...

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Bibliographic Details
Published in:Journal of neurophysiology 2006-10, Vol.96 (4), p.1991-2010
Main Authors: Krouchev, Nedialko, Kalaska, John F, Drew, Trevor
Format: Article
Language:English
Subjects:
Animals
Cats
Cluster Analysis
Electromyography
Forelimb - innervation
Forelimb - physiology
Hindlimb - innervation
Hindlimb - physiology
Linear Models
Locomotion - physiology
Muscle, Skeletal - innervation
Muscle, Skeletal - physiology
Psychomotor Performance - physiology
Signal Transduction - physiology
Walking - physiology
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Summary:Département de Physiologie, Université de Montréal, Montreal, Quebec, Canada Submitted 7 March 2006; accepted in final form 12 June 2006 During goal-directed locomotion, descending signals from supraspinal structures act through spinal interneuron pathways to effect modifications of muscle activity that are appropriate to the task requirements. Recent studies using decomposition methods suggest that this control might be facilitated by activating synergies organized at the level of the spinal cord. However, it is difficult to directly relate these mathematically defined synergies to the patterns of electromyographic activity observed in the original recordings. To address this issue, we have used a novel cluster analysis to make a detailed study of the organization of the synergistic patterns of muscle activity observed in the fore- and hindlimb during treadmill locomotion. The results show that the activity of a large number of forelimb muscles (26 bursts of activity from 18 muscles) can be grouped into 11 clusters on the basis of synchronous co-activation. Nine (9/11) of these clusters defined muscle activity during the swing phase of locomotion; these clusters were distributed in a sequential manner and were related to discrete behavioral events. A comparison with the synergies identified by linear decomposition methods showed some striking similarities between the synergies identified by the different methods. In the hindlimb, a simpler organization was observed, and a sequential activation of muscles similar to that observed in the forelimb during swing was less clear. We suggest that this organization of synergistic muscles provides a means by which descending signals could provide the detailed control of different muscle groups that is necessary for the flexible control of multi-articular movements. Address for reprint requests and other correspondence: T. Drew, Dépt. de physiologie, Université de Montréal, C.P. 6128, Succ. "Centre-ville," Montreal, Quebec, H3C 3J7 Canada (E-mail: Trevor.Drew{at}umontreal.ca )
ISSN:0022-3077
1522-1598
DOI:10.1152/jn.00241.2006