Keeping Your Balance While Balancing a Cylinder: Interaction Between Postural and Voluntary Goals

Overview

Journal Exp Brain Res

Specialty Neurology

Date 2012 Sep 12

PMID 22965549

Citations 2

Authors

Selma Papegaaij

Andrea C de Lima-Pardini

Beth A Smith

Egbert Otten

Rajal G Cohen

Fay B Horak

Affiliations

Soon will be listed here.

Abstract

The present study investigated whether postural responses are influenced by the stability constraint of a voluntary, manual task. We also examined how task constraint and first experience (the condition with which the participants started the experiment) influence the kinematic strategies used to simultaneously accomplish a postural response and a voluntary task. Twelve healthy, older adults were perturbed during standing, while holding a tray with a cylinder placed with the flat side down (low constraint, LC) or with the rolling, round side down (high constraint, HC). Central set changed according to the task constraint, as shown by a higher magnitude of both the gastrocnemius and tibialis anterior muscle activation bursts in the HC than in the LC condition. This increase in muscle activation was not reflected, however, in changes in the center of pressure or center of mass displacement. Task constraint influenced the peak shoulder flexion for the voluntary tray task but not the peak hip flexion for the postural task. In contrast, first experience influenced the peak hip flexion but not the peak shoulder flexion. These results suggest an interaction between two separate control mechanisms for automatic postural responses and voluntary stabilization tasks.

Citing Articles

Aging increases flexibility of postural reactive responses based on constraints imposed by a manual task.

de Lima-Pardini A, Coelho D, Silva M, Azzi N, Martinelli A, Horak F Front Aging Neurosci. 2014; 6:327.

PMID: 25520656 PMC: 4253961. DOI: 10.3389/fnagi.2014.00327.

Postural adjustments to support surface perturbations during reaching depend upon body-target reference frame.

Hilderley A, Leonard J, Green A, Ouckama R, Stapley P Exp Brain Res. 2014; 233(1):303-16.

PMID: 25294498 DOI: 10.1007/s00221-014-4113-8.

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