Movement Restored to Paralyzed Limbs through Artificial Brain-Muscle Connections
Published: Oct 21, 2008Researchers in a study funded by the National Institutes of Health (NIH) have demonstrated for the first time that a direct artificial connection from the brain to muscles can restore voluntary movement in monkeys whose arms have been temporarily anesthetized. The results may have promising implications for the quarter of a million Americans affected by spinal cord injuries and thousands of others with paralyzing neurological diseases, although clinical applications are years away.
“This study demonstrates a novel approach to restoring movement through neuroprosthetic devices, one that would link a person’s brain to the activation of individual muscles in a paralyzed limb to produce natural control and movements,” said Joseph Pancrazio, PhD, a program director at the National Institute of Neurological Disorders and Stroke (NINDS).
The research was conducted by Eberhard E. Fetz, Ph.D., professor of physiology and biophysics at the University of Washington in Seattle and an NINDS Javits awardee; Chet T. Moritz, PhD, a post-doctoral fellow funded by NINDS; and Steve I. Perlmutter, PhD, research associate professor. The results appear online at Nature. The study was performed at the Washington National Primate Research Center, which is funded by NIH’s National Center for Research Resources.
In the study, the researchers trained monkeys to control the activity of single nerve cells in the motor cortex, an area of the brain that controls voluntary movements. Neuronal activity was detected using a type of brain-computer interface. In this case, electrodes implanted in the motor cortex were connected via external circuitry to a computer. The neural activity led to movements of a cursor, as monkeys played a target practice game.
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