RT Journal Article
SR Electronic
T1 Test-Retest Reliability of Electronic Handgrip Dynamometry and Accelerometry Measured Muscle Function in Older Adults
JF The Annals of Family Medicine
JO Ann Fam Med
FD American Academy of Family Physicians
SP 6608
DO 10.1370/afm.22.s1.6608
VO 22
IS Supplement 1
A1 McGrath, Ryan
A1 Tomkinson, Grant
A1 Rhee, Yeong
A1 Hackney, Kyle
A1 Christensen, Bryan
YR 2024
UL http://www.annfammed.org/content/22/Supplement_1/6608.abstract
AB Context: Handgrip strength is a convenient and reliable measure of strength capacity that generalizes to muscle function. Measures of handgrip strength are collected in primary care settings as a vital sign for the prevention of health conditions related to low muscle strength. However, conventional handgrip dynamometers and methods focus exclusively on strength capacity, which is a single aspect of how muscles function. Utilizing new electronic handgrip dynamometer and accelerometer technologies may allow for additional muscle function attributes to be feasibly measured, which in turn, may help elevate prognostic value and specificity for intervention referral. However, before such measures can be considered in clinical settings, their test-retest reliability needs to be established.Objective: We sought to determine the test-retest reliability of electronic handgrip dynamometry and accelerometry measured muscle function in older adults.Study Design and Analysis: We utilized a 2-visit cross-sectional design, wherein participants visited our location twice approximately 1-week apart. Interclass correlation coefficients were used for the analyses.Setting or Dataset: We collected data on n=123 older adults in a laboratory setting.Population Studied: Generally healthy community-dwelling older adults.Intervention/Instrument: Electronic handgrip dynamometers and accelerometers were used to measure each aspect of muscle function.Outcome Measures: Test-retest reliability of strength, asymmetry, submaximal control, rate of force development, bilateral coordination, fatigability, and contractile steadiness as measured with electronic handgrip dynamometry and accelerometry.Results: The intraclass coefficients for each muscle function measurement were moderate-to-excellent: 0.99 for maximal strength, 0.99 for asymmetry, 0.65 for submaximal control, 0.92 for rate of force development, 0.99 for bilateral coordination, 0.94 for fatigability, and 0.78 for contractile steadiness.Conclusions: Measuring additional aspects of muscle function with electronic handgrip dynamometry and accelerometry showed promising test-retest reliability in older adults. Primary care providers and clinical investigations may consider utilizing these new tools and methods for more comprehensively assessing muscle function.