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Human Locomotion under Reduced Gravity Conditions: Biomechanical and Neurophysiological Considerations

BioMed Research International, ISSN: 2314-6141, Vol: 2014, Page: 547242
2014
  • 41
    Citations
  • 0
    Usage
  • 146
    Captures
  • 2
    Mentions
  • 18
    Social Media
Metric Options:   Counts1 Year3 Year

Metrics Details

  • Citations
    41
  • Captures
    146
  • Mentions
    2
    • References
      2
      • Wikipedia
        2
  • Social Media
    18
    • Shares, Likes & Comments
      18
      • Facebook
        18

Review Description

Reduced gravity offers unique opportunities to study motor behavior. This paper aims at providing a review on current issues of the known tools and techniques used for hypogravity simulation and their effects on human locomotion. Walking and running rely on the limb oscillatory mechanics, and one way to change its dynamic properties is to modify the level of gravity. Gravity has a strong effect on the optimal rate of limb oscillations, optimal walking speed, and muscle activity patterns, and gait transitions occur smoothly and at slower speeds at lower gravity levels. Altered center of mass movements and interplay between stance and swing leg dynamics may challenge new forms of locomotion in a heterogravity environment. Furthermore, observations in the lack of gravity effects help to reveal the intrinsic properties of locomotor pattern generators and make evident facilitation of nonvoluntary limb stepping. In view of that, space neurosciences research has participated in the development of new technologies that can be used as an effective tool for gait rehabilitation.

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