Brain Sciences | Free Full-Text | Ipsi- and Contralateral Oligo- and Polysynaptic Reflexes in Humans Revealed by Low-Frequency Epidural Electrical Stimulation of the Lumbar Spinal Cord
Epidural electrical stimulation of the cervical dorsal roots restores voluntary upper limb control in paralyzed monkeys | Nature Neuroscience
Epidural stimulation restores muscle synergies by modulating neural drives in participants with sensorimotor complete spinal cord injuries | Journal of NeuroEngineering and Rehabilitation | Full Text
Our neurostimulation funding - SpinalCure Australia
Frontiers | Restoring Sensorimotor Function Through Neuromodulation After Spinal Cord Injury: Progress and Remaining Challenges
Epidural Stimulation Now - Given the current U.S. population size of 327 million people, a recent estimate showed that the annual incidence of Spinal Cord Injury (SCI) is approximately 54 cases per
Utilizing a Double Epidural Electrical Stimulation Implant For SCI
Frontiers | Epidural Electrical Stimulation: A Review of Plasticity Mechanisms That Are Hypothesized to Underlie Enhanced Recovery From Spinal Cord Injury With Stimulation
Epidural Stimulation for bladder and bowel improvement in SCI patients - Epidural Stimulation Now
Electrical Spinal Cord Stimulation: A New Frontier in Treating Spinal Cord Injuries?
Offering hope for spinal cord injury patients
SEARCH FOR SCI CURE: electrical stimulation providing a lot more applications for recovery of functions — Northern California Spinal Cord Network
Epidural Stimulation Treatment | For Spinal Cord Injury
Schematic illustrating the placement of intraspinal microstimulation... | Download Scientific Diagram
JCM | Free Full-Text | Single Lead Epidural Spinal Cord Stimulation Targeted Trunk Control and Standing in Complete Paraplegia
Spinal motor mapping by epidural stimulation of lumbosacral posterior roots in humans - ScienceDirect
Therapeutic Stimulation for Restoration of Function After Spinal Cord Injury. | Semantic Scholar
Frontiers | Epidural Electrical Stimulation: A Review of Plasticity Mechanisms That Are Hypothesized to Underlie Enhanced Recovery From Spinal Cord Injury With Stimulation