Abstract
Sit-to-stand is a fundamental activity of daily living, which becomes increasingly difficult with advancing age. Due to severe loss of leg strength old adults are required to change the way they rise from a chair and maintain stability. Here we examine whether old compared to young adults differently prioritize task-important performance variables and whether there are age-related differences in the use of available motor flexibility. We applied the uncontrolled manifold analysis to decompose trial-to-trial variability in joint kinematics into variability that stabilizes and destabilizes task-important performance variables. Comparing the amount of variability stabilizing and destabilizing task-important variables enabled us to identify the variable of primary importance for the task. We measured maximal isometric voluntary force of three muscle groups in the right leg. Independent of age and muscle strength, old and young adults similarly prioritized stability of the ground reaction force vector during sit-to-stand. Old compared to young adults employed greater motor flexibility, stabilizing ground reaction forces during sit-to-sand. We concluded that freeing those degrees of freedom that stabilize task-important variables is a strategy used by the aging neuromuscular system to compensate for strength deficits.
Highlights
Sit-to-stand is a fundamental activity of daily living performed up to 70 times a day [1,2]
The purpose of the current study was to establish the performance variable of primary importance and whether old differed from young adults in the flexibility of their motor behaviour as they perform the sit-to-stand task
We hypothesized that young adults prioritize the control of the center of mass (CoM) whereas old adults prioritize the control of the ground reaction forces (GRF) vector
Summary
Sit-to-stand is a fundamental activity of daily living performed up to 70 times a day [1,2]. Due to the decline in maximal leg strength, healthy old compared to young adults use twice as much of the available leg strength and operate at 80-100% of maximum muscular capacity [9,10]. This high physiological demand forces old compared with young adults to adjust the way they stand up from a chair and seek stability. The present paper aims to establish whether these adaptations affect old adults in their choice of the primary performance variable and whether there are age-related differences in flexibility of motor behaviour during the sit-to-stand task
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