Journal
MEDICAL & BIOLOGICAL ENGINEERING & COMPUTING
Volume 54, Issue 10, Pages 1579-1589Publisher
SPRINGER HEIDELBERG
DOI: 10.1007/s11517-015-1432-2
Keywords
Electrotactile stimulation; Sensory augmentation; Neural prosthesis; Postural control; Prosthetic limb
Categories
Funding
- Swiss National Science Foundation through the National Centre of Competence in Research Robotics
- Gottfried und Julia Bangerter-Rhyner Stiftung
- ETH research grant
- Marie-Curie career integration Grant [PCIG13-GA-2013-618899]
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Despite recent advances in leg prosthetics, transfemoral amputees still experience limitations in postural control and gait symmetry. It has been hypothesized that artificial sensory information might improve the integration of the prosthesis into the human sensory-motor control loops and, thus, reduce these limitations. In three transfemoral amputees, we investigated the effect of Electrotactile Moving Sensation for Sensory Augmentation (EMSSA) without training and present preliminary findings. Experimental conditions included standing with open/closed eyes on stable/unstable ground as well as treadmill walking. For standing conditions, spatiotemporal posturographic measures and sample entropy were derived from the center of pressure. For walking conditions, step length and stance duration were calculated. Conditions without feedback showed effects congruent with findings in the literature, e.g., asymmetric weight bearing and step length, and validated the collected data. During standing, with EMSSA a tendency to influence postural control in a negative way was found: Postural control was less effective and less efficient and the prosthetic leg was less involved. Sample entropy tended to decrease, suggesting that EMSSA demanded increased attention. During walking, with EMSSA no persistent positive effect was found. This contrasts the positive subjective assessment and the positive effect on one subject's step length.
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