Your doctor and hospital should be following this closely for their aphasia patients. Assuming that they even know about this. YOUR RESPONSIBILITY is to ensure they are following this. If you don't do this your children and grandchildren will be screwed when they have strokes. Aphasia will probably require a different method since word production may not even be possible.
Computer implant translates paralyzed man’s brain activity directly into words and sentences
A brainstem stroke following a horrible car crash left a 20-year-old man paralyzed, robbing him of speech. Eighteen years after his dreadful accident, the man is now able to communicate with the outside world thanks to a medical implant that converts brain waves into sentences on a computer. Although this is just a proof-of-concept, the research is extremely promising, suggesting it may one day be possible to restore sophisticated communication abilities to people who became speech impaired because of an injury.
“Most of us take for granted how >Associated Press
People who are paralyzed and have a speech disability have very limited options for communication. The patient mentioned in this new research, for instance, would communicate using a pointer attached to a baseball cap in a pecking motion on a touchscreen to type words or letters. Other patients who might not even be able to use their necks rely on devices that track eye movements and translate them into a cursor movement to select words or letters on a computer screen.
While these options allow paralyzed patients a semblance of connection with the outside world, they’re painfully slow. This is where brain-computer interfaces come in. Their jaw-dropping ability to transform neural activity into an actionable potential has been impressive, to say the least.
These include implants that transform the thoughts of a patient imagining they were writing a sentence by hand
with a pen into the actual sentence on a computer screen. Brain-computer interfaces can also be used by paralyzed patients to control mechanical arms, exoskeletons, and even drones. Such interfaces can also facilitate a telepathic-like exchange of information between two people.Rather than making a mind-controlled prosthetic, Chang and colleagues’ work centers on a neuroprosthetic for speech. The device converts brainwaves that normally control the subtle movements of the lips, jaw, tongue, and larynx to form sounds into words or entire sentences on a computer screen.
After implanting electrodes on the surface of the patient’s brain area responsible for controlling speech, the computer algorithm was trained with neural patterns as the man attempted to say common words such as “water” or “good”. The training took place over the course of 50 sessions spaced over almost two years.
The algorithm was thus taught to associated specific brain wave patterns with 50 words that could be used to form over 1,000 sentences. Previously, Chen’s lab had spent years mapping the brain’s areas responsible for speech, so they had a lot of experience.
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