Details
| Originalsprache | Englisch |
|---|---|
| Seiten (von - bis) | 67-80 |
| Seitenumfang | 14 |
| Fachzeitschrift | Human movement science |
| Jahrgang | 62 |
| Publikationsstatus | Veröffentlicht - Dez. 2018 |
| Extern publiziert | Ja |
Abstract
It is crucial to understand age-related degenerative processes that affect dynamic postural control and ultimately increase the risk of falling for older adults. Mediolateral stability during gait, which requires active control of foot placement, may be particularly diminished with age. Using the uncontrolled manifold-analysis (UCM), we aimed to quantify the effect of age and uneven surfaces on the ability to rely on motor equivalent control to stabilize the mediolateral trajectory of the swing limb during gait. The UCM analysis tests the extent to which all available degrees of freedom (DoF) that contribute to a task-relevant performance variable co-vary so as to stabilize, i.e., reduce the variance of, that performance variable. Within the UCM analysis, variability is partitioned into two components: “good” variance that has no effect on the performance variable, and “bad” variance, that results in a variable performance. A synergy index quantifies the relative amount of “good” variance compared to “bad” variance. Thirteen healthy younger (mean age 23 years) and 11 healthy older adults (mean age 73 years) walked across an even lab floor and a more challenging uneven surface. The UCM analysis was performed using lower extremity segment angles as the DoF that contribute to the mediolateral trajectory of the swing limb. We found that both, young and older adults were able to exploit motor flexibility to stabilize the foot trajectory regardless of walking condition, resulting in similar synergy indices. However, to counteract the age-related increase in performance destabilizing variability on the uneven surface, older adults increased “good” variability to similar degree. We conclude that increasing variability is not a sign of decreased motor control but rather an intentional strategy of the neuromuscular system to compensate for possible age-related declines in strength and balance. There is great potential to improve fall prevention programs by introducing tasks that promote, rather than limit, exploration of motor solutions to strengthen appropriate synergies.
ASJC Scopus Sachgebiete
- Biochemie, Genetik und Molekularbiologie (insg.)
- Biophysik
- Medizin (insg.)
- Orthopädie und Sportmedizin
- Psychologie (insg.)
- Experimentelle und kognitive Psychologie
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in: Human movement science, Jahrgang 62, 12.2018, S. 67-80.
Publikation: Beitrag in Fachzeitschrift › Artikel › Forschung › Peer-Review
}
TY - JOUR
T1 - Healthy aging does not impair lower extremity motor flexibility while walking across an uneven surface
AU - Eckardt, Nils
AU - Rosenblatt, Noah J.
PY - 2018/12
Y1 - 2018/12
N2 - It is crucial to understand age-related degenerative processes that affect dynamic postural control and ultimately increase the risk of falling for older adults. Mediolateral stability during gait, which requires active control of foot placement, may be particularly diminished with age. Using the uncontrolled manifold-analysis (UCM), we aimed to quantify the effect of age and uneven surfaces on the ability to rely on motor equivalent control to stabilize the mediolateral trajectory of the swing limb during gait. The UCM analysis tests the extent to which all available degrees of freedom (DoF) that contribute to a task-relevant performance variable co-vary so as to stabilize, i.e., reduce the variance of, that performance variable. Within the UCM analysis, variability is partitioned into two components: “good” variance that has no effect on the performance variable, and “bad” variance, that results in a variable performance. A synergy index quantifies the relative amount of “good” variance compared to “bad” variance. Thirteen healthy younger (mean age 23 years) and 11 healthy older adults (mean age 73 years) walked across an even lab floor and a more challenging uneven surface. The UCM analysis was performed using lower extremity segment angles as the DoF that contribute to the mediolateral trajectory of the swing limb. We found that both, young and older adults were able to exploit motor flexibility to stabilize the foot trajectory regardless of walking condition, resulting in similar synergy indices. However, to counteract the age-related increase in performance destabilizing variability on the uneven surface, older adults increased “good” variability to similar degree. We conclude that increasing variability is not a sign of decreased motor control but rather an intentional strategy of the neuromuscular system to compensate for possible age-related declines in strength and balance. There is great potential to improve fall prevention programs by introducing tasks that promote, rather than limit, exploration of motor solutions to strengthen appropriate synergies.
AB - It is crucial to understand age-related degenerative processes that affect dynamic postural control and ultimately increase the risk of falling for older adults. Mediolateral stability during gait, which requires active control of foot placement, may be particularly diminished with age. Using the uncontrolled manifold-analysis (UCM), we aimed to quantify the effect of age and uneven surfaces on the ability to rely on motor equivalent control to stabilize the mediolateral trajectory of the swing limb during gait. The UCM analysis tests the extent to which all available degrees of freedom (DoF) that contribute to a task-relevant performance variable co-vary so as to stabilize, i.e., reduce the variance of, that performance variable. Within the UCM analysis, variability is partitioned into two components: “good” variance that has no effect on the performance variable, and “bad” variance, that results in a variable performance. A synergy index quantifies the relative amount of “good” variance compared to “bad” variance. Thirteen healthy younger (mean age 23 years) and 11 healthy older adults (mean age 73 years) walked across an even lab floor and a more challenging uneven surface. The UCM analysis was performed using lower extremity segment angles as the DoF that contribute to the mediolateral trajectory of the swing limb. We found that both, young and older adults were able to exploit motor flexibility to stabilize the foot trajectory regardless of walking condition, resulting in similar synergy indices. However, to counteract the age-related increase in performance destabilizing variability on the uneven surface, older adults increased “good” variability to similar degree. We conclude that increasing variability is not a sign of decreased motor control but rather an intentional strategy of the neuromuscular system to compensate for possible age-related declines in strength and balance. There is great potential to improve fall prevention programs by introducing tasks that promote, rather than limit, exploration of motor solutions to strengthen appropriate synergies.
KW - Code:R
KW - Elderly
KW - Gait
KW - Irregular surface
KW - Motor redundancy
KW - Uncontrolled manifold
UR - http://www.scopus.com/inward/record.url?scp=85053758430&partnerID=8YFLogxK
U2 - 10.1016/j.humov.2018.09.008
DO - 10.1016/j.humov.2018.09.008
M3 - Article
C2 - 30248484
AN - SCOPUS:85053758430
VL - 62
SP - 67
EP - 80
JO - Human movement science
JF - Human movement science
SN - 0167-9457
ER -