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Supraspinal control of motoneurons after paralysis enabled by spinal cord stimulation.

Marco CapogrossoJosep-Maria BalaguerGenis Prat-OrtegaNikhil VermaPrakarsh YadavErynn SorensenRoberto de FreitasScott EnselLuigi BordaSerena DonadioLucy LiangJonathan HoArianna DamianiErinn GrigsbyDaryl FieldsJorge Gonzalez-MartinezPeter GersztenDouglas WeberElvira Pirondini
Published in: Research square (2024)
Spinal cord stimulation (SCS) restores motor control after spinal cord injury (SCI) and stroke. This evidence led to the hypothesis that SCS facilitates residual supraspinal inputs to spinal motoneurons. Instead, here we show that SCS does not facilitate residual supraspinal inputs but directly triggers motoneurons action potentials. However, supraspinal inputs can shape SCS-mediated activity, mimicking volitional control of motoneuron firing. Specifically, by combining simulations, intraspinal electrophysiology in monkeys and single motor unit recordings in humans with motor paralysis, we found that residual supraspinal inputs transform subthreshold SCS-induced excitatory postsynaptic potentials into suprathreshold events. We then demonstrated that only a restricted set of stimulation parameters enables volitional control of motoneuron firing and that lesion severity further restricts the set of effective parameters. Our results explain the facilitation of voluntary motor control during SCS while predicting the limitations of this neurotechnology in cases of severe loss of supraspinal axons.
Keyphrases
  • spinal cord
  • spinal cord injury
  • neuropathic pain
  • atrial fibrillation
  • molecular dynamics
  • high glucose