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Journal Article

Citation

Wellinghoff MA, Bunchman AM, Dean JC. J. Neurophysiol. 2014; 111(5): 1120-1131.

Affiliation

Medical University of South Carolina.

Copyright

(Copyright © 2014, American Physiological Society)

DOI

10.1152/jn.00251.2013

PMID

24335207

Abstract

While performing a simple bouncing task, humans modify their preferred movement period and pattern of plantarflexor activity in response to changes in system mechanics. Over time, the preferred movement pattern gradually adapts toward the resonant frequency. The purpose of the present experiments was to determine whether humans undergo a similar process of gradually adapting their stride period and plantarflexor activity following a change in mechanical demand while walking. Participants walked on a treadmill while we measured stride period and plantarflexor activity (medial gastrocnemius and soleus). Plantarflexor activity during stance was divided into a storage phase (30-65% stance) and a return phase (65-100% stance) based on when the Achilles tendon has been previously shown to store and return mechanical energy. Participants walked either on constant inclines (0%, 1%, 5%, 9%), or on a variable incline (0-1%) for which they were unaware of the incline changes. For variable incline trials, participants walked under both single-task and dual-task conditions in order to vary the cognitive load. Both stride period and plantarflexor activity increased at steeper inclines. During single-task walking, small changes in incline were followed by gradual adaptation of storage phase medial gastrocnemius activity. However, this adaptation was not present during dual-task walking, indicating some level of cognitive involvement. The observed adaptation may be the result of using afferent feedback in order to optimize the contractile conditions of the plantarflexors during the stance phase. Such adaptation could serve to improve metabolic economy, but may be limited in clinical populations with disrupted proprioception.


Language: en

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