Frontiers in Neuroscience (Dec 2023)

Interleaved configurations of percutaneous epidural stimulation enhanced overground stepping in a person with chronic paraplegia

  • Ashraf S. Gorgey,
  • Ashraf S. Gorgey,
  • Siddharth Venigalla,
  • Muhammad Uzair Rehman,
  • Botros George,
  • Enrico Rejc,
  • Jan J. Gouda,
  • Jan J. Gouda

DOI
https://doi.org/10.3389/fnins.2023.1284581
Journal volume & issue
Vol. 17

Abstract

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Descending motor signals are disrupted after complete spinal cord injury (SCI) resulting in loss of standing and walking. We previously restored standing and trunk control in a person with a T3 complete SCI following implantation of percutaneous spinal cord epidural stimulation (SCES). We, hereby, present a step-by-step procedure on configuring the SCES leads to initiate rhythmic lower limb activation (rhythmic-SCES) resulting in independent overground stepping in parallel bars and using a standard walker. Initially, SCES was examined in supine lying at 2 Hz before initiating stepping-like activity in parallel bars using 20 or 30 Hz; however, single lead configuration (+2, −5) resulted in lower limb adduction and crossing of limbs, impairing the initiation of overground stepping. After 6 months, interleaving the original rhythmic-SCES with an additional configuration (−12, +15) on the opposite lead, resulted in a decrease of the extensive adduction tone and allowed the participant to initiate overground stepping up to 16 consecutive steps. The current paradigm suggests that interleaving two rhythmic-SCES configurations may improve the excitability of the spinal circuitry to better interpret the residual descending supraspinal signals with the ascending proprioceptive inputs, resulting in a stepping-like motor behavior after complete SCI.

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