Researchers in the Neuromechatronics Lab at Carnegie Mellon University have already proven that spinal cord stimulation can help people regain movement after stroke, but until now they didn’t quite know how.
In a new study, published today in Cell Reports Medicine, a research team led by Doug Weber, professor of mechanical engineering and neuroscience, and Ph.D. candidate Luigi Borda report that epidural spinal cord stimulation works by restoring inhibitory spinal circuits. These circuits enable the nervous system to coordinate opposing muscles, such as the biceps and triceps, which must work together to bend and straighten the elbow. After a stroke, those neural control circuits are disrupted. The new study found that spinal cord stimulation helps restore that balance, allowing stroke survivors to move their arms more smoothly, quickly and efficiently.
“This discovery allows us to move beyond simply strengthening weak muscles; we can now fine-tune stimulation to release the ‘brakes’ on overactive muscles, providing a more effective and personalized path to recovery,” said Weber.









