Vie, May 5th 2023
(SwissTech) Scientists undertaking multi-year research at the .NeuroRestore research center in Lausanne have identified the neurons that need to be activated and restored through spinal cord stimulation to enable patients with paralysis to stand up, walk and rebuild their muscles.
Their results have been recently published in the journal Naturaleza.
The team led by Grégoire Courtine from the Swiss Federal Institute of Technology Lausanne (EPFL) and Jocelyne Bloch from Lausanne University Hospital demonstrated the effectiveness of the therapy in nine patients. Not only did these patients’ motor function improve, the improvements persisted after their neuro-rehabilitation, when electrical stimulation was switched off.
This success indicated that the nerve fibers used for walking had reorganized, explain the researchers. While studying the underlying mechanisms in mice, the team identified a surprising feature in a family of neurons that expresses a gene called Vsx2. These neurons are not needed for walking in healthy mice, but are essential for restoring motor function after spinal cord injury.
For the first time, scientists were able to visualize spinal cord activity in a walking patient, leading to an unexpected discovery. During spinal cord stimulation, patients’ neuronal activity decreased when they were walking. The experts suspected that this could be because of their neuronal activity.
This paves the way to more targeted treatments for paralysed patients. We can now try to manipulate these neurons to regenerate the spinal cord.
Jordan Squair, .NeuroRestore Research Centre
To prove this, they created the first 3D molecular cartography of the spinal cord. The high-precision model allowed the scientists to observe that spinal cord stimulation activates Vsx2 neurons. These Vsx2 spinal cord neurons are not normally needed for walking, as the researchers had also observed in the mice. They are, however, essential for electro-stimulated movement of the legs following a spinal cord injury.
Stay tuned for more scientific and medical breakthroughs from Switzerland.
This article was reprinted with permission from SwissTech.
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