Fear of Falling Alters Anticipatory Postural Control during Cued Gait Initiation

Toby J Ellmers,Amy Maslivec,William R Young

doi:10.1016/j.neuroscience.2020.04.050

Toby J Ellmers, Amy Maslivec + Show 1 more

Open Access

https://doi.org/10.1016/j.neuroscience.2020.04.050

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Journal: Neuroscience	Publication Date: May 12, 2020
Citations: 12	License type: cc-by

Affiliation: Brunel University London, Imperial College London

Abstract

Fear of falling can have a profound influence on anticipatory postural control during dynamic balance tasks (e.g., rise-to-toes and leg-raise tasks), with fearful individuals typically exhibiting postural adjustments of smaller magnitudes prior to movement onset. However, very little is known about how fear of falling influences the generation of anticipatory postural adjustments (APAs) during gait initiation; a task in which producing smaller APAs may compromise stability. Sixteen young adults initiated gait as fast as possible following an auditory cue during two conditions: Baseline (ground level), and Threat (fear of falling induced via a platform raised 1.1 m). While the magnitude and duration of APAs did not change between conditions, participants executed steps of shorter lengths during Threat. As APAs during gait initiation are typically proportionate to the length of the first step, the APAs during Threat are therefore disproportionately large (given the shorter step length). We suggest that such failure to scale the APA to the magnitude of the motor output represents a fear-related ‘overcompensation’, whereby fearful participants sought to ensure that the APA was sufficient for ensuring that their centre of mass was positioned above the support leg prior to gait initiation. During conditions of threat, participants also exhibited greater postural sway prior to initiating gait (i.e., following the auditory cue) and took longer to generate the APA (i.e., impaired reaction). As greater reaction times during voluntary stepping is consistently associated with increased fall-risk, we suggest this as one mechanism through which fear of falling may reduce balance safety.

Highlights

Humans experience frequent disturbances to the equilibrium of vertical posture (Maki and McIlroy, 1997; Santos et al, 2010a,b)
We first computed the latency of the anticipatory postural adjustments (APAs), and observed significantly longer onset latency during Threat (Z = À2.12, p = .017, r = 0.53) (Fig. 4)
Increased APA latency during gait initiation has been reported previously in participants performing a cognitive dual-task (Melzer et al, 2010; Martin et al, 2011; Uemura et al, 2012; Callisaya et al, 2016). This strongly implies that the rapid initiation of an APA during forward stepping requires cognitive resources

Summary

Introduction

Humans experience frequent disturbances to the equilibrium of vertical posture (Maki and McIlroy, 1997; Santos et al, 2010a,b). These disturbances can manifest as either external perturbations (such as slipping on an icy pavement) or internal, self-initiated movements (such as reaching forwards to grasp an item from a cupboard). While CPAs reflect a programmed neuromuscular response to a loss of equilibrium, APAs are initiated to minimise the possibility that a loss of equilibrium will occur at all (Maki and McIlroy, 2007; Weerdesteyn et al, 2008)

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