• Neurosurgery · Apr 2024

    Case Reports

    Reconnecting the Hand and Arm to the Brain: Efficacy of Neural Interfaces for Sensorimotor Restoration After Tetraplegia.

    • Eric Z Herring, Emily L Graczyk, William D Memberg, Robert Adams, Gaudalupe Fernandez Baca-Vaca, Brianna C Hutchison, John T Krall, Benjamin J Alexander, Emily C Conlan, Kenya E Alfaro, Preethisiri Bhat, Aaron B Ketting-Olivier, Chase A Haddix, Dawn M Taylor, Dustin J Tyler, Jennifer A Sweet, Robert F Kirsch, A Bolu Ajiboye, and Jonathan P Miller.
    • School of Medicine, Case Western Reserve University, Cleveland , Ohio , USA.
    • Neurosurgery. 2024 Apr 1; 94 (4): 864874864-874.

    Background And ObjectivesParalysis after spinal cord injury involves damage to pathways that connect neurons in the brain to peripheral nerves in the limbs. Re-establishing this communication using neural interfaces has the potential to bridge the gap and restore upper extremity function to people with high tetraplegia. We report a novel approach for restoring upper extremity function using selective peripheral nerve stimulation controlled by intracortical microelectrode recordings from sensorimotor networks, along with restoration of tactile sensation of the hand using intracortical microstimulation.MethodsA 27-year-old right-handed man with AIS-B (motor-complete, sensory-incomplete) C3-C4 tetraplegia was enrolled into the clinical trial. Six 64-channel intracortical microelectrode arrays were implanted into left hemisphere regions involved in upper extremity function, including primary motor and sensory cortices, inferior frontal gyrus, and anterior intraparietal area. Nine 16-channel extraneural peripheral nerve electrodes were implanted to allow targeted stimulation of right median, ulnar (2), radial, axillary, musculocutaneous, suprascapular, lateral pectoral, and long thoracic nerves, to produce selective muscle contractions on demand. Proof-of-concept studies were performed to demonstrate feasibility of using a brain-machine interface to read from and write to the brain for restoring motor and sensory functions of the participant's own arm and hand.ResultsMultiunit neural activity that correlated with intended motor action was successfully recorded from intracortical arrays. Microstimulation of electrodes in somatosensory cortex produced repeatable sensory percepts of individual fingers for restoration of touch sensation. Selective electrical activation of peripheral nerves produced antigravity muscle contractions, resulting in functional movements that the participant was able to command under brain control to perform virtual and actual arm and hand movements. The system was well tolerated with no operative complications.ConclusionThe combination of implanted cortical electrodes and nerve cuff electrodes has the potential to create bidirectional restoration of motor and sensory functions of the arm and hand after neurological injury.Copyright © Congress of Neurological Surgeons 2024. All rights reserved.

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