Interactions With Compliant Loads Alter Stretch Reflex Gains But Not Intermuscular Coordination

doi:10.1152/jn.01094.2007

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Interactions With Compliant Loads Alter Stretch Reflex Gains But Not Intermuscular Coordination

Eric J. Perreault¹^,2^,3, Kuifu Chen⁴, Randy D. Trumbower³ and Gwyn Lewis²^,3^,5

¹Department of Biomedical Engineering, Northwestern University, Evanston; ²Department of Physical Medicine and Rehabilitation, Northwestern University, and ³Sensory Motor Performance Program, Rehabilitation Institute of Chicago, Chicago, Illinois; ⁴Department of Mechanics, China Agricultural University, Beijing, China; and ⁵Health and Rehabilitation Research Centre, Auckland University of Technology, Auckland, New Zealand

Submitted 3 October 2007; accepted in final form 17 February 2008

The human motor system regulates arm mechanics to produce stablepostures during interactions with different physical environments.This occurs partly via involuntary mechanisms, including stretchreflexes. Previous single-joint studies demonstrated enhancedreflex sensitivity during interactions with compliant environments,suggesting reflex gain increases to enhance limb stability whenthat stability is not provided by the environment. This studyexamined whether similar changes in reflex gain are presentthroughout the limb following perturbations that simultaneouslyinfluence multiple joints. Furthermore, we investigated whetherany observed modulation was accompanied by task-specific changesin reflex coordination across muscles, a question that cannotbe addressed using single-joint perturbations. Reflexes wereelicited during the maintenance of posture by perturbing thearm with a three degrees of freedom robot, configured to haveisotropic stiffness of either 10 N/m (compliant) or 10 kN/m(stiff). Perturbation characteristics were matched in both environments.Reflex magnitude was quantified by the average rectified electromyogram,recorded from eight muscles crossing the elbow and shoulder.Reflex coordination was assessed using independent componentsanalysis to compare reflex activation patterns during interactionswith stiff and compliant environments. Stretch reflex sensitivityincreased significantly in all muscles during interactions withthe compliant environment and these changes were not due tochanges in background muscle activity. However, there was nosignificant difference in the reflex coordination patterns observedduring interactions with the stiff and compliant environments.These results suggest that reflex modulation occurred throughaltered use of fixed muscle coordination patterns rather thanthrough a change in reflex coordination.

Address for reprint requests and other correspondence: E. J. Perreault, Sensory Motor Performance Program, Room 1403, Rehabilitation Institute of Chicago, 345. E. Superior St., Chicago, IL 60611 (E-mail: e-perreault{at}northwestern.edu

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