Older Compared With Younger Adults Performed 467 Fewer Sit-to-Stand Trials, Accompanied by Small Changes in Muscle Activation and Voluntary Force

Older Compared With Younger Adults Performed 467 Fewer Sit-to-Stand Trials, Accompanied by Small Changes in Muscle Activation and Voluntary Force

Background: Repetitive sit-to-stand (rSTS) is a fatigue perturbation model to examine the age-effects on adaptability in posture and gait, yet the age-effects on muscle activation during rSTS per se are unclear. We examined the effects of age and exhaustive rSTS on muscle activation magnitude, onset...

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Published in:Frontiers in aging neuroscience Vol. 13; p. 679282
Main Authors: Santos, Paulo Cezar Rocha dos, Lamoth, Claudine J. C., Gobbi, Lilian Teresa Bucken, Zijdewind, Inge, Barbieri, Fabio Augusto, Hortobágyi, Tibor
Format: Journal Article
Language:English
Published: Lausanne Frontiers Research Foundation 21-06-2021
Frontiers Media S.A
Subjects:
Adaptability
Age
Aging
electromyography - EMG
fatigue
Force
functionality
Gait
Hip
Knee
Muscle contraction
Muscle function
muscle strength
Muscles
Neuroscience
Older people
Posture
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Summary:Background: Repetitive sit-to-stand (rSTS) is a fatigue perturbation model to examine the age-effects on adaptability in posture and gait, yet the age-effects on muscle activation during rSTS per se are unclear. We examined the effects of age and exhaustive rSTS on muscle activation magnitude, onset, and duration during ascent and descent phases of the STS task. Methods: Healthy older ( n = 12) and younger ( n = 11) adults performed rSTS, at a controlled frequency dictated by a metronome (2 s for cycle), to failure or for 30 min. We assessed muscle activation magnitude, onset, and duration of plantar flexors, dorsiflexors, knee flexors, knee extensors, and hip stabilizers during the initial and late stages of rSTS. Before and after rSTS, we measured maximal voluntary isometric knee extension force, and rate of perceived exertion, which was also recorded during rSTS task. Results: Older vs. younger adults generated 35% lower maximum voluntary isometric knee extension force. During the initial stage of rSTS, older vs. younger adults activated the dorsiflexor 60% higher, all 5 muscle groups 37% longer, and the hip stabilizers 80% earlier. Older vs. younger adults completed 467 fewer STS trials and, at failure, their rate of perceived exertion was ~17 of 20 on the Borg scale. At the end of the rSTS, maximum voluntary isometric knee extension force decreased 16% similarly in older and younger, as well as the similar age groups decline in activation of the dorsiflexor and knee extensor muscles (all p < 0.05). Conclusion: By performing 467 fewer STS trials, older adults minimized the potential effects of fatigability on muscle activation, voluntary force, and motor function. Such a sparing effect may explain the minimal changes in gait after rSTS reported in previous studies, suggesting a limited scope of this perturbation model to probe age-effects on muscle adaptation in functional tasks.
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Reviewed by: David George Behm, Memorial University of Newfoundland, Canada; Siddharth Bhardwaj, Indian Institute of Technology Gandhinagar, India; Craig David Workman, The University of Iowa, United States
Edited by: Rubem C. A. Guedes, Federal University of Pernambuco, Brazil
ISSN:1663-4365
1663-4365
DOI:10.3389/fnagi.2021.679282