Abstract
Homo sapiens constitute the only currently obligate bipedal mammals and, as it stands, upright bipedal locomotion is a defining characteristic of humans. Indeed, while the evolution to bipedalism has allowed for the upper limbs to be liberated from ground contact during ambulation, their role in locomotion is far from obsolete. Rather, there is reason to believe that arm swing offers important mechanical and neurological advantages to bipedal locomotion. In this short review, we present some compelling findings on the neural connections between the arms and legs during human locomotion. We begin with a description of the importance of arm swing during walking from a mechanical perspective. Then, we examine evidence for the existence of interappendicular connections that converge along with peripheral afferents, descending inputs, and propriospinal projections, onto the neural circuits innervating the muscles of the arms and legs. The varied effects of interappendicular coupling on the neural control of locomotion are also examined in cases of neurological injury. We use the insight gained from these collected works as well as those from our own studies on locomotor training to discuss strategies to use interappendicular connections to rehabilitate walking in individuals experiencing loss of function after debilitating spinal cord injury.
Keywords: Locomotion, interlimb coupling, spinal cord injury, human, passive walking, automaticity, central pattern generation, BWSTT, physical rehabilitation.
Current Pharmaceutical Design
Title:The Utility of Interappendicular Connections in Bipedal Locomotion
Volume: 23 Issue: 12
Author(s): David McMillan, Ray de Leon, Pierre A. Guertin and Christine Dy*
Affiliation:
- School of Kinesiology and Nutritional Science, California State University, Los Angeles, Los Angeles, California,United States
Keywords: Locomotion, interlimb coupling, spinal cord injury, human, passive walking, automaticity, central pattern generation, BWSTT, physical rehabilitation.
Abstract: Homo sapiens constitute the only currently obligate bipedal mammals and, as it stands, upright bipedal locomotion is a defining characteristic of humans. Indeed, while the evolution to bipedalism has allowed for the upper limbs to be liberated from ground contact during ambulation, their role in locomotion is far from obsolete. Rather, there is reason to believe that arm swing offers important mechanical and neurological advantages to bipedal locomotion. In this short review, we present some compelling findings on the neural connections between the arms and legs during human locomotion. We begin with a description of the importance of arm swing during walking from a mechanical perspective. Then, we examine evidence for the existence of interappendicular connections that converge along with peripheral afferents, descending inputs, and propriospinal projections, onto the neural circuits innervating the muscles of the arms and legs. The varied effects of interappendicular coupling on the neural control of locomotion are also examined in cases of neurological injury. We use the insight gained from these collected works as well as those from our own studies on locomotor training to discuss strategies to use interappendicular connections to rehabilitate walking in individuals experiencing loss of function after debilitating spinal cord injury.
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Cite this article as:
McMillan David, de Leon Ray, Guertin A. Pierre and Dy Christine*, The Utility of Interappendicular Connections in Bipedal Locomotion, Current Pharmaceutical Design 2017; 23 (12) . https://dx.doi.org/10.2174/1381612822666161216115947
DOI https://dx.doi.org/10.2174/1381612822666161216115947 |
Print ISSN 1381-6128 |
Publisher Name Bentham Science Publisher |
Online ISSN 1873-4286 |
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