Preliminary results show the device, created at Cedars-Sinai and developed by NeuroVision Imaging, may provide highly predictive early detection of changes associated with Alzheimer’s disease
A noninvasive optical imaging device developed at Cedars-Sinai can provide early detection of changes that later occur in the brain and are a classic sign of Alzheimer’s disease, according to preliminary results from investigators conducting a clinical trial in Australia.
The researchers will present their findings July 15 in an oral presentation at the Alzheimer’s Association International Conference 2014 in Copenhagen, Denmark. They also were invited by conference organizers to participate in a “breaking news” news conference beginning at 7:30 a.m. Sunday, July 13 in Copenhagen, 1:30 a.m. EDT.
For the first time ever, a paralyzed man can move his fingers and hand with his own thoughts thanks to an innovative partnership between The Ohio State University Wexner Medical Center and Battelle.
Ian Burkhart, a 23-year-old quadriplegic from Dublin, Ohio, is the first patient to use Neurobridge, an electronic neural bypass for spinal cord injuries that reconnects the brain directly to muscles, allowing voluntary and functional control of a paralyzed limb. Burkhart is the first of a potential five participants in a clinical study.
“It’s much like a heart bypass, but instead of bypassing blood, we’re actually bypassing electrical signals,” said Chad Bouton, research leader at Battelle. “We’re taking those signals from the brain, going around the injury, and actually going directly to the muscles.”
The Neurobridge technology combines algorithms that learn and decode the user’s brain activity and a high-definition muscle stimulation sleeve that translates neural impulses from the brain and transmits new signals to the paralyzed limb. In this case, Ian’s brain signals bypass his injured spinal cord and move his hand, hence the name Neurobridge.