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Neural mechanisms underlying the recovery of voluntary control of motoneurons after paralysis with spinal cord stimulation

Josep-Maria Balaguer, Genís Prat-Ortega, Julia Ostrowski, Luigi Borda, Nikhil Verma, Prakarsh Yadav, Erynn Sorensen, Roberto de Freitas, Scott Ensel, Serena Donadio, Lucy Liang, Jonathan Ho, Arianna Damiani, Erinn M. Grigsby, Daryl P. Fields, Jorge González-Martínez, Peter C. Gerszten, Lee E. Fisher, Douglas J. Weber, Elvira Pirondini, Marco Capogrosso

2025Neuron8 citationsDOIOpen Access PDF

Abstract

Spinal cord stimulation (SCS) improves motor control after paralysis. This evidence led to the hypothesis that SCS facilitates residual supraspinal inputs to spinal motoneurons. Here, we demonstrate that this hypothesis is not supported by experimental evidence. Instead, we show that residual supraspinal inputs modulate motoneurons' membrane potential to transform subthreshold SCS pulses into suprathreshold action potentials, thereby entraining motoneuron activity to SCS. Despite this entrainment, residual supraspinal inputs can control motoneuron firing rates by modulating the number of subthreshold SCS pulses transformed into action potentials, resulting in volitional modulation of motor output for a restricted set of SCS parameters. Furthermore, we predict that residual supraspinal inhibitory drive can silence unwanted suprathreshold motoneuron activity, enlarging the functional set of SCS parameters. Finally, we demonstrate that this set of functional stimulation parameters is further restricted by lesion severity, highlighting an intrinsic limitation of SCS in cases of severe injury.

Topics & Concepts

NeuroscienceStimulationSpinal cordInhibitory postsynaptic potentialSubthreshold conductionMotor controlParalysisLesionElectrophysiologyMotor systemMedicineFunctional electrical stimulationResidualMotor neuronSet (abstract data type)NeurophysiologyNeuromodulationNeural activityElectromyographyCentral nervous systemPsychologyCentral pattern generatorSpinal Cord Injury ResearchTranscranial Magnetic Stimulation StudiesNerve Injury and Rehabilitation
Neural mechanisms underlying the recovery of voluntary control of motoneurons after paralysis with spinal cord stimulation | Litcius