Temporal-distance and kinematic adaptations to a novel walking task
The process of relearning locomotor skills is a complex one for the person with a lower-limb amputation and difficult to track in the rehabilitation setting. An in-house designed prosthetic simulator (PS) was created to allow able-bodied individuals to walk in a prosthetic-like situation. The pur...
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| Format: | Others |
| Language: | English |
| Published: |
2009
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| Online Access: | http://hdl.handle.net/2429/15718 |
| Summary: | The process of relearning locomotor skills is a complex one for the person with a
lower-limb amputation and difficult to track in the rehabilitation setting. An in-house
designed prosthetic simulator (PS) was created to allow able-bodied individuals to walk
in a prosthetic-like situation. The purpose of this study was to follow the changes in
selected gait variables during a novel walking task. Kinematic data were collected for
ten able-bodied individuals during 30-minutes of continuous walking with the PS.
Walking speed and selected gait characteristics and the vertical orientation of body
segments were computed every 5% of the total walking distance during the first lab visit
and walking speed again during a second lab visit. Separate repeated measures
ANOVAs were conducted with p < 0.01.
Participants were immediately able to walk unassisted with the PS. Walking speed
on the first test session was initially slow (0.27 m • s-1) but significantly increased over
distance walked (to 0.70 m • s-1). Initial time in stance was significantly greater on the
intact limb (86 %) than on the prosthetic limb (68 %). Prosthetic step length was
significantly longer (0.52 m) than intact step length (-0.10 m). Lower-limb segments
were significantly less vertically oriented at prosthetic/intact foot contact during the
walking task. Initial walking speed on the second session (0.58 m • s-1) was significantly
higher than on the first session. Variability of the measured gait variables was initially
high but decreased within the first 5% of the total distance walked. Walking speed
during the first five strides after removing the PS (1.13 m • s-1) was significantly slower
than the control condition (1.30 m • s-1).
Participants were able to adapt quickly to the new constraints imposed by a PS by
modifying kinematic variables. Changes occurred during the first 5%-10% of total
walking distance suggesting adaptive strategies were developed early in the task. The
presence of a short-term speed after effect suggested that adaptation had occurred.
The findings from this project provide a novel outlook for rehabilitation strategies with
the potential of tracking able-bodied individuals as they learn to walk in a prosthetic-like
situation. === Education, Faculty of === Kinesiology, School of === Graduate |
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