How To Create Speech From Brain Signals

“In my head, I churn over every sentence ten times, delete a word, add an adjective, and learn my text by heart, paragraph by paragraph,” wrote Jean-Dominique Bauby in his memoir, “The Diving Bell and the Butterfly.” In the book, Mr. Bauby, a journalist and editor, recalled his life before and after a paralyzing stroke that left him virtually unable to move a muscle; he tapped out the book letter by letter, by blinking an eyelid.

Thousands of people are reduced to similarly painstaking means of communication as a result of injuries suffered in accidents or combat, of strokes, or of neurodegenerative disorders such as amyotrophic lateral sclerosis, or A.L.S., that disable the ability to speak.

Now, scientists are reporting that they have developed a virtual prosthetic voice, a system that decodes the brain’s vocal intentions and translates them into mostly understandable speech, with no need to move a muscle, even those in the mouth. (The physicist and author Stephen Hawking used a muscle in his cheek to type keyboardcharacters, which a computer synthesized into speech.)

It’s formidable work, and it moves us up another level toward restoring speech” by decoding brain signals, said Dr. Anthony Ritaccio, a neurologist and neuroscientist at the Mayo Clinic in Jacksonville, Fla., who was not a member of the research group.

The new system, described on Wednesday in the journal Nature,deciphers the brain’s motor commands guiding vocal movement during speech — the tap of the tongue, the narrowing of the lips — and generates intelligible sentences that approximate a speaker’s natural cadence. Experts said the new work represented a “proof of principle,” a preview of what may be possible after further experimentation and refinement. The system was tested on people who speak normally; it has not been tested in people whose neurological conditions or injuries, such as common strokes, could make the decoding difficult or impossible. For the new trial, scientists at the University of California, San Francisco, and U.C. Berkeley recruited five people who were in the hospital being evaluated for epilepsy surgery.

Many people with epilepsy do poorly on medication and opt to undergo brain surgery. Before operating, doctors must first locate the “hot spot” in each person’s brain where the seizures originate; this is done with electrodes that are placed in the brain, or on its surface, and listen for telltale electrical stormsPinpointing this location can take weeks. In the interim, patients go through their days with electrodes implanted in or near brain regions that are involved in movement and auditory signaling. These patients often consent to additional experiments that piggyback on those implants.

Five such patients at U.C.S.F. agreed to test the virtual voice generator. Each had been implanted with one or two electrode arrays: stamp-size pads, containing hundreds of tiny electrodes, that were placed on the surface of the brain. As each participant recited hundreds of sentences, the electrodes recorded the firing patterns of neurons in the motor cortex. The researchers associated those patterns with the subtle movements of the patient’s lips, tongue, larynx and jaw that occur during natural speech. The team then translated those movements into spoken sentences.

Source: https://www.nytimes.com/