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A direct spinal cord–computer interface enables the control of the paralysed hand in spinal cord injury

Daniela Souza de Oliveira, Matthias Ponfick, Dominik I. Braun, Marius Oßwald, Marek Sierotowicz, S. K. Chatterjee, Douglas J. Weber, Bjoern M. Eskofier, Claudio Castellini, Dario Farina, Thomas M. Kinfe, Alessandro Del Vecchio

2024Brain34 citationsDOIOpen Access PDF

Abstract

Paralysis of the muscles controlling the hand dramatically limits the quality of life for individuals living with spinal cord injury (SCI). Here, with a non-invasive neural interface, we demonstrate that eight motor complete SCI individuals (C5-C6) are still able to task-modulate in real-time the activity of populations of spinal motor neurons with residual neural pathways. In all SCI participants tested, we identified groups of motor units under voluntary control that encoded various hand movements. The motor unit discharges were mapped into more than 10 degrees of freedom, ranging from grasping to individual hand-digit flexion and extension. We then mapped the neural dynamics into a real-time controlled virtual hand. The SCI participants were able to match the cue hand posture by proportionally controlling four degrees of freedom (opening and closing the hand and index flexion/extension). These results demonstrate that wearable muscle sensors provide access to spared motor neurons that are fully under voluntary control in complete cervical SCI individuals. This non-invasive neural interface allows the investigation of motor neuron changes after the injury and has the potential to promote movement restoration when integrated with assistive devices.

Topics & Concepts

Spinal cord injuryPhysical medicine and rehabilitationBrain–computer interfaceSpinal cordMotor controlParalysisTetraplegiaMotor unitWearable computerNeuroscienceNeurophysiologyPsychologyMedicineComputer scienceElectroencephalographySurgeryEmbedded systemEEG and Brain-Computer InterfacesMuscle activation and electromyography studiesSpinal Cord Injury Research
A direct spinal cord–computer interface enables the control of the paralysed hand in spinal cord injury | Litcius