Slow but Steady: Similar Sit-to-Stand Balance at Seat-Off in Older vs. Younger Adults

Slow but Steady: Similar Sit-to-Stand Balance at Seat-Off in Older vs. Younger Adults

Many older adults suffer injuries due to falls as the ability to safely move between sitting and standing degrades. Unfortunately, while existing measures describe sit-to-stand (STS) performance, they do not directly measure the conditions for balance. To gain insight into the effect of age on STS b...

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Bibliographic Details
Main Authors: Lizeth H. Sloot, Matthew Millard, Christian Werner, Katja Mombaur
Format: Article
Language:English
Published: Frontiers Media S.A. 2020-10-01
Series:Frontiers in Sports and Active Living
Subjects:
sit-to-stand
balance
static
dynamic
foot placement estimator
coordination
Online Access:https://www.frontiersin.org/articles/10.3389/fspor.2020.548174/full
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spelling doaj-455ca4d16fa1453b91edb3f25dde9f0f2020-11-25T03:05:39ZengFrontiers Media S.A.Frontiers in Sports and Active Living2624-93672020-10-01210.3389/fspor.2020.548174548174Slow but Steady: Similar Sit-to-Stand Balance at Seat-Off in Older vs. Younger AdultsLizeth H. Sloot0Matthew Millard1Christian Werner2Katja Mombaur3Optimization, Robotics & Biomechanics, Institute of Computer Engineering, Heidelberg University, Heidelberg, GermanyOptimization, Robotics & Biomechanics, Institute of Computer Engineering, Heidelberg University, Heidelberg, GermanyCenter for Geriatric Medicine, Agaplesion Bethanien Hospital Heidelberg, Heidelberg University, Heidelberg, GermanyDepartment of Systems Design Engineering, Department of Mechanical and Mechatronics Engineering, University of Waterloo, Waterloo, ON, CanadaMany older adults suffer injuries due to falls as the ability to safely move between sitting and standing degrades. Unfortunately, while existing measures describe sit-to-stand (STS) performance, they do not directly measure the conditions for balance. To gain insight into the effect of age on STS balance, we analyzed how far 8 older and 10 young adults strayed from a state of static balance and how well each group maintained dynamic balance. Static balance was evaluated using the position of the center-of-mass (COM) and center-of-pressure (COP), relative to the functional base-of-support (BOS). As the name suggests, static balance applies when the linear and angular velocity of the body is small in magnitude, in the range of that observed during still standing. Dynamic balance control was evaluated using a model-based balance metric, the foot-placement-estimator (FPE), relative to the COP and BOS. We found that the older adults stay closer to being statically balanced than the younger participants. The dynamic balance metrics show that both groups keep the FPE safely within the BOS, though the older adults maintain a larger dynamic balance margin. Both groups exhibit similar levels of variability in these metrics. Thus, the conservative STS performance in older adults is likely to compensate for reduced physical ability or reduced confidence, as their dynamic balance control does not seem affected. The presented analysis of both static and dynamic balance allows us to distinguish between STS performance and balance, and as such can contribute to the identification of those older adults prone to falling, thus ultimately reducing the number of falls during STS transfers.https://www.frontiersin.org/articles/10.3389/fspor.2020.548174/fullsit-to-standbalancestaticdynamicfoot placement estimatorcoordination
collection DOAJ
language English
format Article
sources DOAJ
author Lizeth H. Sloot
Matthew Millard
Christian Werner
Katja Mombaur
spellingShingle Lizeth H. Sloot
Matthew Millard
Christian Werner
Katja Mombaur
Slow but Steady: Similar Sit-to-Stand Balance at Seat-Off in Older vs. Younger Adults
Frontiers in Sports and Active Living
sit-to-stand
balance
static
dynamic
foot placement estimator
coordination
author_facet Lizeth H. Sloot
Matthew Millard
Christian Werner
Katja Mombaur
author_sort Lizeth H. Sloot
title Slow but Steady: Similar Sit-to-Stand Balance at Seat-Off in Older vs. Younger Adults
title_short Slow but Steady: Similar Sit-to-Stand Balance at Seat-Off in Older vs. Younger Adults
title_full Slow but Steady: Similar Sit-to-Stand Balance at Seat-Off in Older vs. Younger Adults
title_fullStr Slow but Steady: Similar Sit-to-Stand Balance at Seat-Off in Older vs. Younger Adults
title_full_unstemmed Slow but Steady: Similar Sit-to-Stand Balance at Seat-Off in Older vs. Younger Adults
title_sort slow but steady: similar sit-to-stand balance at seat-off in older vs. younger adults
publisher Frontiers Media S.A.
series Frontiers in Sports and Active Living
issn 2624-9367
publishDate 2020-10-01
description Many older adults suffer injuries due to falls as the ability to safely move between sitting and standing degrades. Unfortunately, while existing measures describe sit-to-stand (STS) performance, they do not directly measure the conditions for balance. To gain insight into the effect of age on STS balance, we analyzed how far 8 older and 10 young adults strayed from a state of static balance and how well each group maintained dynamic balance. Static balance was evaluated using the position of the center-of-mass (COM) and center-of-pressure (COP), relative to the functional base-of-support (BOS). As the name suggests, static balance applies when the linear and angular velocity of the body is small in magnitude, in the range of that observed during still standing. Dynamic balance control was evaluated using a model-based balance metric, the foot-placement-estimator (FPE), relative to the COP and BOS. We found that the older adults stay closer to being statically balanced than the younger participants. The dynamic balance metrics show that both groups keep the FPE safely within the BOS, though the older adults maintain a larger dynamic balance margin. Both groups exhibit similar levels of variability in these metrics. Thus, the conservative STS performance in older adults is likely to compensate for reduced physical ability or reduced confidence, as their dynamic balance control does not seem affected. The presented analysis of both static and dynamic balance allows us to distinguish between STS performance and balance, and as such can contribute to the identification of those older adults prone to falling, thus ultimately reducing the number of falls during STS transfers.
topic sit-to-stand
balance
static
dynamic
foot placement estimator
coordination
url https://www.frontiersin.org/articles/10.3389/fspor.2020.548174/full
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