Annual changes in appendicular skeletal muscle mass and quality in adults over 50 y of age, assessed using bioelectrical impedance analysis

It is essential to monitor changes in skeletal muscles to control healthy aging. The aim of this study was to assess changes in muscle mass, strength, and functional quality taking place in the course of aging and to analyze their correlations with recorded changes in impedance. The study, carried o...

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Published in:Nutrition (Burbank, Los Angeles County, Calif.) Los Angeles County, Calif.), 2021-10, Vol.90, p.111342-111342, Article 111342
Main Authors: Kołodziej, Małgorzata, Ignasiak, Zofia, Ignasiak, Tomasz
Format: Article
Language:English
Subjects:
Accuracy
Adults
Aging
Appendicular skeletal muscles
Bioelectrical impedance analysis
Bioelectricity
Body composition
Functionals
Grip strength
Impedance
Longitudinal studies
Longitudinal study
Mathematical analysis
Men
Muscle quality
Muscle strength
Muscles
Musculoskeletal system
Older people
Parameters
Phase shift
Physical fitness
Prophylaxis
Quality assessment
Reactance
Skeletal muscle
Women
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Summary:It is essential to monitor changes in skeletal muscles to control healthy aging. The aim of this study was to assess changes in muscle mass, strength, and functional quality taking place in the course of aging and to analyze their correlations with recorded changes in impedance. The study, carried out in two stages at a 1-y interval, covered 313 subjectively healthy adults ages 50 to 83 y. Hand grip strength and knee extensor strength were measured. Impedance parameters were measured using bioelectrical impedance analysis, and body composition components, including appendicular skeletal muscle mass, were estimated. The rates of annual changes in the analyzed parameters and their correlations with changes in impedance were calculated. The annual losses in muscle strength and functional quality were found to be considerably larger than the losses in appendicular skeletal muscle mass. Larger decreases in leg muscle strength were recorded in women than in men. The decline in reactance and phase angle were positively correlated with the decrease in the indices evaluating muscle condition. Muscle mass deficits are not the main cause of the decline in muscle functional quality in older adults. Changes in muscle condition impairing muscle functions can be identified by changes in impedance components. An analysis of changes in phase angle and reactance would facilitate the assessment of muscle quality in geriatric prophylaxis and in screening, but it is necessary to establish normalized reference values for older adults. •Adults over age 50 y were tested twice at a 1-y intervals.•Muscle functional quality deteriorated over the year.•The loss of strength was greater than the loss of muscle mass.•The loss of muscle strength was independent of changes in body composition.•Reactance and phase angle identified the changes in quality of skeletal muscle.
ISSN:0899-9007
1873-1244
DOI:10.1016/j.nut.2021.111342