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Journal Article

Citation

Costamagna E, Thies SB, Kenney LPJ, Howard D, Liu A, Ogden D. Med. Eng. Phys. 2017; 47: 167-175.

Affiliation

School of Engineering, University of Edinburgh, Sanderson Bldg, Edinburgh EH9 3FB, UK.

Copyright

(Copyright © 2017, Institute of Physics and Engineering in Medicine, Publisher Elsevier Publishing)

DOI

10.1016/j.medengphy.2017.06.013

PMID

28684213

Abstract

To assist balance and mobility, older adults are often prescribed walking aids. Nevertheless, surprisingly their use has been associated with increased falls-risk. To address this finding we first need to characterise a person's stability while using a walking aid. Therefore, we present a generalisable method for the assessment of stability of walking frame (WF) users. Our method, for the first time, considers user and device as a combined system. We define the combined centre of pressure (CoPsystem) of user and WF to be the point through which the resultant ground reaction force for all feet of both the WF and user acts if theresultant moment acts only around an axisperpendicular tothe ground plane. We also define the combined base of support (BoSsystem) to be the convex polygon formed by the boundaries of the anatomical and WF feet in contact with the ground and interconnecting lines between them. To measure these parameters we have developed an instrumented WF with a load cell in each foot which we use together with pressure-sensing insoles and a camera system, the latter providing the relative position of the WF and anatomical feet. Software uses the resulting data to calculate the stability margin of the combined system, defined as the distance between CoPsystem and the nearest edge of BoSsystem. Our software also calculates the weight supported through the frame and when each foot (of user and/or frame) is on the floor. Finally, we present experimental work demonstrating the value of our approach.

Copyright © 2017 The Authors. Published by Elsevier Ltd.. All rights reserved.


Language: en

Keywords

Biomechanics; Pick-up walker; Real-world monitoring; Stability margin; Walking aids

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