IEEE Transactions on Neural Systems and Rehabilitation Engineering (Jan 2024)

Walking Ankle Biomechanics of Individuals With Transtibial Amputations Using a Prescribed Prosthesis and a Portable Bionic Prosthesis Under Myoelectric Control

  • Nicole E. Stafford,
  • Eddie B. Gonzalez,
  • Daniel P. Ferris

DOI
https://doi.org/10.1109/TNSRE.2024.3440257
Journal volume & issue
Vol. 32
pp. 3036 – 3047

Abstract

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Individuals with transtibial amputation can activate residual limb muscles to volitionally control robotic ankle prostheses for walking and postural control. Most continuous myoelectric ankle prostheses have used a tethered, pneumatic device. The Open Source Leg allows for myoelectric control on an untethered electromechanically actuated ankle. To evaluate continuous proportional myoelectric control on the Open Source Ankle, we recruited five individuals with transtibial amputation. Participants walked over ground with an experimental powered prosthesis and their prescribed passive prosthesis before and after multiple powered device practice sessions. Participants averaged five hours of total walking time. After the final testing session, participants indicated their prosthesis preference via questionnaire. Participants tended to increase peak ankle power after practice (powered $0.80~\pm ~1.02$ W/kg and passive $0.39~\pm ~0.31$ W/kg). Additionally, participants tended to generate greater ankle work with the powered prosthesis compared to their passive device ( $0.13~\pm $ .15 J/kg increase). Although work and peak power generation were not statistically different between the two prostheses, participants preferred walking with the prosthesis under myoelectric control compared to the passive prosthesis. These results indicate individuals with transtibial amputation learned to walk with an untethered powered prosthesis under continuous myoelectric control. Four out 5 participants generated larger magnitudes in peak power compared to their passive prosthesis after practice sessions. An additional important finding was participants chose to walk with peak ankle powers about half of what the powered prosthesis was capable of based on mechanical testing.

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