China has made medical history. Researchers from Fudan University have created a revolutionary brain-spinal interface that helped paralyzed patients move their legs within 24 hours of surgery. The system bypasses damaged spinal cords using dual implants that form a “neural bridge” between the brain and lower body.
Unlike past systems that relied on external computers or months of rehab, this breakthrough delivers near-instant neural reactivation. One patient, previously unable to stand, took assisted steps just two weeks after the operation.
This innovation could reshape rehabilitation and spinal injury treatment globally.
#NeuroTech #ChinaInnovation #SpinalImplant #MedicalBreakthrough #BrainComputerInterface
Unlike past systems that relied on external computers or months of rehab, this breakthrough delivers near-instant neural reactivation. One patient, previously unable to stand, took assisted steps just two weeks after the operation.
This innovation could reshape rehabilitation and spinal injury treatment globally.
#NeuroTech #ChinaInnovation #SpinalImplant #MedicalBreakthrough #BrainComputerInterface
China has made medical history. Researchers from Fudan University have created a revolutionary brain-spinal interface that helped paralyzed patients move their legs within 24 hours of surgery. The system bypasses damaged spinal cords using dual implants that form a “neural bridge” between the brain and lower body.
Unlike past systems that relied on external computers or months of rehab, this breakthrough delivers near-instant neural reactivation. One patient, previously unable to stand, took assisted steps just two weeks after the operation.
This innovation could reshape rehabilitation and spinal injury treatment globally.
#NeuroTech #ChinaInnovation #SpinalImplant #MedicalBreakthrough #BrainComputerInterface
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