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Flexible circumferential bioelectronics to enable 360-degree recording and stimulation of the spinal cord

Ben J. Woodington, Lei Jiang, Alejandro Carnicer‐Lombarte, Amparo Güemes, Tobias E. Naegele, Sam Hilton, Salim El Hadwe, Rikin Trivedi, George G. Malliaras, Damiano G. Barone

2024Science Advances33 citationsDOIOpen Access PDF

Abstract

The spinal cord is crucial for transmitting motor and sensory information between the brain and peripheral systems. Spinal cord injuries can lead to severe consequences, including paralysis and autonomic dysfunction. We introduce thin-film, flexible electronics for circumferential interfacing with the spinal cord. This method enables simultaneous recording and stimulation of dorsal, lateral, and ventral tracts with a single device. Our findings include successful motor and sensory signal capture and elicitation in anesthetized rats, a proof-of-concept closed-loop system for bridging complete spinal cord injuries, and device safety verification in freely moving rodents. Moreover, we demonstrate potential for human application through a cadaver model. This method sees a clear route to the clinic by using materials and surgical practices that mitigate risk during implantation and preserve cord integrity.

Topics & Concepts

Spinal cordInterfacingSensory systemNeuroscienceMedicineStimulationDorsumSpinal cord stimulatorSpinal cord injuryBiomedical engineeringComputer scienceNeurophysiologyAnatomyComputer hardwareSpinal cord stimulationBiologyNeuroscience and Neural EngineeringMuscle activation and electromyography studiesEEG and Brain-Computer Interfaces
Flexible circumferential bioelectronics to enable 360-degree recording and stimulation of the spinal cord | Litcius