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Short-term Performance-based Error-augmentation versus Error-reduction Robotic Gait Training for Individuals with

P C Kao1, S Srivastava2, J S Higginson3

  • 1Department of Physical Therapy, University of Massachusetts Lowell, USA.

Physical Medicine and Rehabilitation International
|June 24, 2016
PubMed
Summary
This summary is machine-generated.

Robotic exoskeleton training for stroke survivors showed that error-augmentation, not error-reduction, significantly modified gait patterns. This suggests error-augmentation may be more effective for retraining walking post-stroke.

Keywords:
Force fieldGait rehabilitationRehabilitation roboticsStrokeWalking

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Area of Science:

  • Neuroscience
  • Robotics
  • Rehabilitation Medicine

Background:

  • Locomotion training with robotic exoskeletons is crucial for gait retraining in neurologically impaired individuals.
  • Identifying effective control algorithms is key to successful rehabilitation following neurological injury, such as stroke.

Purpose of the Study:

  • To investigate how two robotic exoskeleton training paradigms, error-augmentation and error-reduction, influence walking patterns in chronic post-stroke individuals.
  • To serve as a proof-of-concept for future robotic-assisted locomotion training strategies after stroke.

Main Methods:

  • Four chronic post-stroke individuals were trained to match a prescribed walking pattern template using robotic forces.
  • Robotic forces were applied to either decrease (error-reduction) or increase (error-augmentation) deviations in ankle malleolus paths.
  • Subject performance was quantified by measuring the deviation between actual and target malleolus paths.

Main Results:

  • Error-reduction training resulted in minimal modification of gait patterns, with one subject showing a 16% reduction in deviation and another a 12% increase.
  • Error-augmentation training led to more significant changes, with one subject achieving 58% reduced deviation and another a 37% increase in deviation.
  • Findings indicate error-augmentation may be more effective in promoting gait pattern modification compared to error-reduction.

Conclusions:

  • Error-reduction force fields appear to have limited impact on modifying post-stroke gait patterns.
  • Error-augmentation force fields show potential in guiding gait towards or even beyond a target walking template.
  • Further research is needed to assess the long-term effects of these training paradigms on over-ground walking and functional recovery.