Use of the Brief-BESTest partially instrumented with accelerometry to detect balance deterioration in middle-age

Guy Baranes; Roee Hayek; Itai Gutman; Silvi Frenkel-Toledo; Shmuel Springer

doi:10.1007/s40520-024-02868-7

Use of the Brief-BESTest partially instrumented with accelerometry to detect balance deterioration in middle-age

Aging Clin Exp Res. 2024 Nov 9;36(1):214. doi: 10.1007/s40520-024-02868-7.

Authors

Guy Baranes¹, Roee Hayek¹, Itai Gutman¹, Silvi Frenkel-Toledo², Shmuel Springer^{3

4}

Affiliations

¹ Faculty of Health Sciences, Department of Physical Therapy, The Neuromuscular & Human Performance Laboratory, Ariel University, Ariel, Israel.
² Faculty of Health Sciences, Department of Physical Therapy, Brain and Motor Behavior Laboratory, Ariel University, Ariel, Israel.
³ Faculty of Health Sciences, Department of Physical Therapy, The Neuromuscular & Human Performance Laboratory, Ariel University, Ariel, Israel. shmuels@ariel.ac.il.
⁴ Research Associate Canadian Center for Activity and Ageing, University of Western Ontario, London, ON, N6A 3K7, Canada. shmuels@ariel.ac.il.

Abstract

Background: Most standardized balance tests cannot detect subtle balance deterioration in middle age, or identify those at higher risk for accelerated balance decline due to a ceiling effect.

Aims: To determine whether the Brief Balance Evaluation Systems Test (Brief-BESTest), partially instrumented with accelerometry, can detect balance deterioration in middle age and identify individuals with poor balance.

Methods: We studied young (25.3 ± 2.3 years), early middle-aged (47.7 ± 2.6 years), and late middle-aged adults (60.6 ± 3.6 years), with 25 participants in each age group. Subjects wore an accelerometer on their lower back while performing the Brief-BESTest. Balance measurements included the Brief-BESTest total and sub-measures scores, and postural sway during the Brief-BESTest standing tasks, calculated by the 95% confidence ellipse trajectory of the center of mass (COM-95% ellipse).

Results: Compared to the two middle-aged groups, young adults had better total Brief-BESTest and sub-measures scores, apart from the Stability-in-Gait sub-measure, and less postural sway during the Sensory-Orientation sub-measure. The total Brief-BESTest scores as well as the Biomechanical-Constraints and Sensory-Orientation sub-measures differed also between early and late middle-aged adults. Both the Brief-BESTest total scores and the Sensory-Orientation postural sway values demonstrated increased variation with age, allowing to identify subjects with poor balance. A moderate negative correlation (r = -0.43) was found between the Brief-BESTest total score and the COM-95% ellipse size, and a moderate agreement (k = 0.56) in identifying subjects with poor performance in the early but not the late middle age group.

Conclusions: The Brief-BESTest test combined with accelerometry could be a suitable screening tool to identify middle-aged people with early balance deterioration and potentially identify those with poor balance and a possible higher risk for falls. Clinicians and policymakers can use our findings to implement balance assessment programs in patients < 65 years, leading to preventive strategies before the risk increases.

Keywords: Accelerometry balance assessment; Aging; Balance assessment; Brief-BESTest; Middle-age; Sway.

MeSH terms

Accelerometry* / instrumentation
Accelerometry* / methods
Accidental Falls / prevention & control
Adult
Aging / physiology
Female
Humans
Male
Middle Aged
Postural Balance* / physiology
Young Adult