Validity and Reliability of the Posturographic Outcomes of a Portable Balance Board

Validity and Reliability of the Posturographic Outcomes of a Portable Balance Board

In view of the frequent use of the portable balance board (Tymo<sup>®</sup>, Tyromotion, Graz, Austria) in neurorehabilitation, the objective of this study is to assess its posturographic validity and reliability in comparison to a floor-embedded force platform (AMTI, Watertown, MA, USA)...

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Bibliographic Details
Main Authors: Patricia Meier, Maité Calisti, Inge Werner, Daniel Debertin, Lukas Mayer-Suess, Michael Knoflach, Peter Federolf
Format: Article
Language:English
Published: MDPI AG 2025-02-01
Series:Sensors
Subjects:
postural control
force plate
balance board
balance
balance assessment
repeated measurements
Online Access:https://www.mdpi.com/1424-8220/25/5/1309
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Summary:In view of the frequent use of the portable balance board (Tymo<sup>®</sup>, Tyromotion, Graz, Austria) in neurorehabilitation, the objective of this study is to assess its posturographic validity and reliability in comparison to a floor-embedded force platform (AMTI, Watertown, MA, USA), as well as its clinical validity in stroke patients. To evaluate posturographic validity, thirty healthy participants were tested in four different measurement conditions (M1–M4: standing with/without a balance pad, eyes open/closed) while simultaneously measuring with both devices placed on top of each other. Clinical validity is obtained by correlating stroke patients’ Tymo<sup>®</sup> outcome variables (path length and ellipse) of M1–M4 with Berg Balance Scale (BBS) results. Reliability is determined by correlating repeated measurements. The Center of pressure (COP) paths of both force plates show a very strong correlation. The repeated measurement reliability of both force plates is comparable. Tymo<sup>®</sup> outcome variables exhibit moderate to strong correlation with the BBS and demonstrated repeated measurement reliability analogous to healthy participants. Therefore, the Tymo<sup>®</sup> device demonstrates measurement accuracy comparable to a gold-standard device while offering the advantages of portability and user-friendly software. Tymo<sup>®</sup> is suitable for assessing balance in stroke patients, though protocol adaptations and averaging repeated measurements are recommended to enhance feasibility and reliability.
ISSN:1424-8220

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