Restoring movement after spinal cord injury focus of new research

People with spinal cord injuries often experience life-long movement impairment or paralysis with no cure. Electrical spinal cord stimulation can help restore some movement.
When coupled with rehabilitative exercise, electrical spinal cord stimulation can help restore some movement, though the mechanisms of how the nerves in the spinal cord recover are unknown (Image source-Unsplash)
When coupled with rehabilitative exercise, electrical spinal cord stimulation can help restore some movement, though the mechanisms of how the nerves in the spinal cord recover are unknown (Image source-Unsplash)
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People with spinal cord injuries often experience life-long movement impairment or paralysis, for which there is no cure. When coupled with rehabilitative exercise, electrical spinal cord stimulation can help restore some movement, though the mechanisms of how the nerves in the spinal cord recover are unknown.

Ismael Seáñez, assistant professor of biomedical engineering in the McKelvey School of Engineering at Washington University in St. Louis, will lead an interdisciplinary team of Washington University researchers and physicians to understand the changes in the neural circuits that may result in motor function improvements through using spinal cord stimulation with a five-year, $1 million grant from the National Institutes of Health’s National Institute of Neurological Disorders and Stroke.

When coupled with rehabilitative exercise, electrical spinal cord stimulation can help restore some movement, though the mechanisms of how the nerves in the spinal cord recover are unknown (Image source-Unsplash)
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Seáñez, also an assistant professor of neurological surgery at the School of Medicine, plans to begin a clinical trial with patients with spinal cord injuries as well as those without spinal cord injuries as controls. He will use commercially available, noninvasive spinal cord stimulation devices that engage movement in the patients with spinal cord injury to determine how the central nervous system changes with the stimulation and movement.

Ismael Seáñez, assistant professor of biomedical engineering will understand the changes in the neural circuits that may result in motor function improvements through using spinal cord stimulation with a five-year, $1 million grant from the National Institutes of Health’s National Institute of Neurological Disorders and Stroke (Image source- Unsplash)
Ismael Seáñez, assistant professor of biomedical engineering will understand the changes in the neural circuits that may result in motor function improvements through using spinal cord stimulation with a five-year, $1 million grant from the National Institutes of Health’s National Institute of Neurological Disorders and Stroke (Image source- Unsplash)

While the spinal cord stimulation devices are attached externally by the patient or a caregiver, they only work when attached to the patient, so any movement that might take place while the devices are attached cannot be repeated when they are removed, Seáñez said.

When coupled with rehabilitative exercise, electrical spinal cord stimulation can help restore some movement, though the mechanisms of how the nerves in the spinal cord recover are unknown (Image source-Unsplash)
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“We’ve been first working on optimizing the way we can stimulate the spinal cord and using different stimulation parameters to more selectively target different muscle groups to look at how the stimulation interacts with the brain,” he said. “Now, we are looking at how the pathways are changing and whether different exercises used in physical therapy can accelerate the excitement of different neuropathways,” Seáñez said. (FH/NW)

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