Reversing Paralysis

in #disease8 years ago

 Scientists are making remarkable  progress at using brain implants to restore the freedom of movement that  spinal cord injuries take away.

The French neuroscientist was watching a macaque monkey as it hunched  aggressively at one end of a treadmill. His team had used a blade to  slice halfway through the animal’s spinal cord, paralyzing its right  leg. Now Courtine wanted to prove he could get the monkey walking again.  To do it, he and colleagues had installed a recording device beneath  its skull, touching its motor cortex, and sutured a pad of flexible  electrodes around the animal’s spinal cord, below the injury. A wireless  connection joined the two electronic devices.The result: a  system that read the monkey’s intention to move and then transmitted it  immediately in the form of bursts of electrical stimulation to its  spine. Soon enough, the monkey’s right leg began to move. Extend and  flex. Extend and flex. It hobbled forward. “The monkey was thinking, and  then boom, it was walking,” recalls an exultant Courtine, a professor  with Switzerland’s École Polytechnique Fédérale de Lausanne. 

In recent years, lab animals and a few people have controlled  computer cursors or robotic arms with their thoughts, thanks to a brain  implant wired to machines. Now researchers are taking a significant next  step toward reversing paralysis once and for all. They are wirelessly  connecting the brain-reading technology directly to electrical  stimulators on the body, creating what Courtine calls a “neural bypass”  so that people’s thoughts can again move their limbs.  

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You are doing good work. keep it up dear.

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