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| bbc.co.uk |
Checking all possibilities
Researchers and engineers have tried to see if an interface that uses functional near-infrared spectroscopy, or NIRS, would work. Through this method, they would measure brain hemodynamic responses that are usually associated with neuronal activity.
Scientists have also tried to use brain-computer interfaces that depend on neuroelectrical technology, like an electroencephalogram or EEG, though the endeavor ultimately failed in its goal of helping completely locked-in syndrome patients communicate.
A glimpse into the future
This latest technique, though, as Dr. Curtis Cripe mentions, seemed to produce a hopeful outcome. It is a non-invasive brain-computer interface that combines NIRS and EEG technologies. This method measures frontocentral blood oxygen levels and electrical changes that occur in the brain.
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| singularityhub.com |
Brain-computer interfaces have helped patients communicate in the past; however, Dr. Curtis Cripe says that the NIRS is the only technique that works on people with complete lock-in syndrome.
Just the beginning
This also comes as very welcome news for people unable to communicate because of other health reasons such as amyotrophic lateral sclerosis or ALS, which can lead to paralysis, or those paralyzed because of a stroke or a spinal cord injury.
Finally, Dr. Curtis Cripe points out that this is just the beginning, and studies on brain-computer interfaces are projected to have even broader applications in the future.
Dr. Curtis Cripe is the head of research and development at NTL Group, which is made up of an international team of neuroengineers and neuroscientists from multiple disciplines to bring the latest in neurotechnology and programs. In Dr. Cripe's series of posts here, he shares his insights on neuroscience, neuroengineering, psychology, and other related subjects.
