Intel and Brown University Deploy AI to Help Paralyzed Patients
Brown University is exploring concepts with Intel technology for an Intelligent Spine Interface project that aims to use AI to restore movement and bladder control for patients paralyzed by severe spinal cord injuries. During the two-year program, researchers will record motor and sensory signals from the spinal cord and use artificial neural networks to learn how to stimulate the post-injury site to communicate motor commands.
“As a Ph.D. student at Brown, I investigated how to interface the brain with machines as an application. Now at Intel, we’re combining our AI expertise with Brown University’s cutting-edge medical research to help solve a critical medical problem: how to reconnect the brain and spine after a major spinal injury,“ said Naveen Rao, Intel corporate vice president and general manager of the AI Products Group.
Surgeons at Rhode Island Hospital near Brown University will implant electrode arrays on both ends of a patient’s injury site, creating an intelligent bypass to eventually allow the severed nerves to communicate in real time. Researchers are considering Intel AI open source software such as nGraph and Intel AI accelerator hardware to meet the real-time requirements of this application.
“A spinal cord injury is devastating, and little is known about how remaining circuits around the injury may be leveraged to support rehabilitation and restoration of lost function. Listening for the first time to the spinal circuits around the injury and then taking action in real time with Intel’s combined AI hardware and software solutions will uncover new knowledge about the spinal cord and accelerate innovation toward new therapies,” said David Borton, assistant professor of engineering, Brown University.