Paralyzed man speaks and sings with AI brain-computer interface
Sign up for my FREE CyberGuy ReportGet my best tech tips, urgent security alerts, and exclusive deals delivered straight to your inbox. Plus, you'll get instant access to my Ultimate Scam Survival Guide - free when you join my CYBERGUY.COM/NEWSLETTER.
The heart of this system is four microelectrode arrays, surgically implanted in the part of the brain responsible for producing speech. These tiny devices pick up the neural activity that happens when someone tries to speak. The signals are then fed into an AI-powered decoding model, which converts them into audible speech in just ten milliseconds. That's so fast, it feels as natural as a regular conversation.
What's especially remarkable is that the system can recreate the user's own voice, thanks to a voice cloning algorithm trained on recordings made before the onset of ALS. This means the person's digital voice sounds like them, not a generic computer voice. The system even recognizes when the user is trying to sing and can change the pitch to match simple melodies. It can also pick up on vocal nuances, like asking a question, emphasizing a word, or making interjections such as "aah," "ooh," or "hmm." All of this adds up to a much more expressive and human-sounding conversation than previous technologies could offer.
The process starts with the participant attempting to speak sentences shown on a screen. As they try to form each word, the electrodes capture the firing patterns of hundreds of neurons. The AI learns to map these patterns to specific sounds, reconstructing speech in real-time. This approach allows for subtle control over speech rhythm and tone, giving the user the ability to interrupt, emphasize, or ask questions just as anyone else would.
One of the most striking outcomes from the UC Davis study was that listeners could understand nearly 60 percent of the synthesized words, compared to just four percent without the BCI. The system also handled new, made-up words that weren't part of its training data, showing its flexibility and adaptability.
Being able to communicate in real-time, with one's own voice and personality, is a game-changer for people living with paralysis. The UC Davis team points out that this technology allows users to be more included in conversations. They can interrupt, respond quickly, and express themselves with nuance. This is a big shift from earlier systems that only translated brain signals into text, which often led to slow, stilted exchanges that felt more like texting than talking.
As David Brandman, the neurosurgeon involved in the study, put it, our voice is a core part of our identity. Losing it is devastating, but this kind of technology offers real hope for restoring that essential part of who we are.
While these early results are promising, the researchers are quick to point out that the technology is still in its early stages. So far, it's only been tested with one participant, so more studies are needed to see how well it works for others, including people with different causes of speech loss, like stroke. The BrainGate2 clinical trial at UC Davis Health is continuing to enroll participants to further refine and test the system.
Restoring natural, expressive speech to people who have lost their voices is one of the most meaningful advances in brain-computer interface technology. This new system from UC Davis shows that it's possible to bring real-time, personal conversation back into the lives of those affected by paralysis. While there's still work to be done, the progress so far is giving people a chance to reconnect with their loved ones and the world around them in a way that truly feels like their own.
As brain-computer interfaces become more advanced, where should we draw the line between enhancing lives and altering the essence of human interaction? Let us know by writing to us at Cyberguy.com/Contact.
Sign up for my FREE CyberGuy ReportGet my best tech tips, urgent security alerts, and exclusive deals delivered straight to your inbox. Plus, you'll get instant access to my Ultimate Scam Survival Guide - free when you join my CYBERGUY.COM/NEWSLETTER.
Copyright 2025 CyberGuy.com. All rights reserved.
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Yahoo
13 minutes ago
- Yahoo
Patient used AI to find Providence's innovative heart surgery. What role should the technology play in health care?
Jul. 4—Scheduled for open heart surgery, Jim Powers used Google to find other options for his heart condition. The Google AI overview summary led him to an innovative surgery at Providence Sacred Heart Medical Center. As artificial intelligence becomes more ingrained in society, more people may look to the technology to influence health decisions — for good or ill. The 78-year-old Powers is grateful to the new technology for bringing him to Sacred Heart. But AI's reliability remains uncertain, and Powers' surgeon warns against counting on it over a doctor's advice. "I think it is very helpful to do your own research," Providence Heart Institute surgeon Justin Reeves said. "But I also think you have to understand that you may not come to a conclusion that is in your best interest. You still need the input of someone who's an actually trained professional in the field." Powers first discovered his heart condition last spring after feeling some pressure in the chest while mowing the lawn of his Post Falls home. Within a few days, he was in the emergency room, which found a blocked artery putting him at high risk of a heart attack. The hospital in Coeur d'Alene scheduled his open-heart surgery the following week. The prospect of his chest being opened and the long recovery associated with the surgery scared Powers and his wife. They had seen friends go through similar procedures and how slow the recovery could be. They had just bought a new home in southern Idaho, and the surgery could have delayed or prevented their upcoming move. "It was terrifying," wife Pamela Powers said. "I was just so worried for him." Over the weekend ahead of the surgery, Jim Powers looked online for other options in the area. Before he could look through his Google results, the platform's AI assistant recommended a new robotic, microscopic surgery conducted by Sacred Heart. The Spokane Providence Heart Institute is one of the few programs in the country offering minimally invasive coronary artery bypass grafting surgery. The traditional surgery opens the chest and divides the sternum, and the heart is temporarily stopped while surgeons sew in new arteries. The robotic procedure, which Providence has offered for the past 1 1/2 years, works by making a 5-centimeter incision between the ribs. Surgeons use microscopic robotics to graft the artery while the heart continues to beat. "There are many benefits compared to the other surgery," Reeves said. "You avoid dividing the bone. You don't have to use the bypass machine to stop the heart. Because of that, we see people recover two to three times faster than they generally would." According to Reeves, patients typically recover from the robotic surgery within two weeks, while it can take months for the bone to heal from open heart surgery. Two weeks after the procedure, Jim Powers could not be better. "I've had no pain. I've been up and about," he said last month just before his appointment two weeks after the procedure. "I haven't used any painkillers at all," His wife added she "had trouble getting him to rest." Not being too savvy with the internet, Jim Powers doubts he would have found out about the surgery if it had not been for the AI summary. "I think it's just tremendous," he said. "It is tremendous what technology can do these days. I remember just digging through the internet to find this stuff, but the fact AI popped it up on the first inquiry was extremely helpful, especially for folks who aren't really familiar or comfortable with a computer." While the use of AI is helpful in this context, it may also lead elderly individuals down false rabbit holes. AI can present incorrect information if the model is not trained on a data set with correct information. Reeves said Jim Powers used the technology the right way to inform his decisions but ultimately relying on expert advice. The retiree was the first individual among Reeves' patients to cite AI, but the internet is often a tool patients use to diagnosis themselves. Sometimes when the internet convinces someone of a particular treatment, it can be difficult to change their mind, he said. "Someone came to me wanting a robotic surgery, and he was just a really bad candidate for it," he said. "And a really high-risk candidate for the surgery. I tried to convince him, but all his research on the internet led him to falsely believe this was the best option. And it was very difficult to convince him otherwise." Reeves has not personally used AI in his practice, but providers are increasingly using the technology, not just patients. It has been adopted especially by fields of medicine that require physicians to compare large data sets to find anomalies in patients. University of Washington Chair of Radiology Dushyant Sahani believes AI can be especially useful in his field during cancer screenings. "Physicians are overwhelmed with managing the data," he said. "And we want the physician to focus more time with the patient and provide them the best experience. Health care is one of the best human endeavors, but it's also a journey of data. And in the modern world, we have so much data, but we need a better way of using this data for appropriate decision-making." Sahani is a co-founder of UW's Institute of Medical Data Science, which supports health care-related artificial intelligence initiatives. AI also can help triage and prioritize care. Often, medicine's role is to decide how to prioritize patients who need care first or need more care, as well as assist in administrative tasks such as writing notes following a doctor visit or helping patients schedule their appointments. Spokane Providence, the largest health system in Spokane, uses AI to complete administrative tasks and assist medical professionals in diagnosis at Sacred Heart and other facilities. "Providence is taking a thoughtful, responsible approach to integrating artificial intelligence across our health system," Providence spokesperson Jen York said. "Years of investment in digital infrastructure already have positioned us to safely scale generative AI tools that support caregivers, enhance patient care, and prevent burnout. While AI holds great promise for transforming health care, our top priority remains the safety and privacy of our patients." MultiCare Deaconess Hospital introduced several autonomous robots that use AI to traverse the hospital and deliver supplies and complete menial tasks. While stressing the need for careful implementation, Reeves is hopeful AI and the internet broadly will provide patients with better care and more informed health care options. "I do actually think that it could be helpful," Reeves said. "It helps us to get connected to where the patient looks for information. But there is still a lot of judgment necessary, and I think we're pretty far off from using it in the day-to-day of what we do in the operating room."
Bloomberg
33 minutes ago
- Bloomberg
Nvidia Partner Hon Hai Meets Sales Estimates on Strong AI Demand
Hon Hai Precision Industry Co. reported 15.8% growth in quarterly sales on robust demand for AI servers and iPhones. Revenue totaled NT$1.8 trillion ($62 billion) in the three months to June, largely in line with analysts' expectations, results showed Saturday. Hon Hai expects third-quarter sales to grow sequentially and year-on-year.
Yahoo
33 minutes ago
- Yahoo
Edgewise Therapeutics Reports Positive Results for Muscular Dystrophy Treatment
Edgewise Therapeutics Inc. (NASDAQ:EWTX) is one of the best up and coming stocks to invest in now. On June 26, Edgewise Therapeutics announced positive results from its sevasemten program for Becker and Duchenne muscular dystrophies. For Becker muscular dystrophy, the company reported positive data from MESA, which is an open-label extension trial that provides continued access to sevasemten for participants previously enrolled in ARCH, CANYON, GRAND CANYON, or DUNE trials. Sevasemten maintained a favorable safety profile over up to 3 years of treatment. For Duchenne muscular dystrophy, Edgewise announced encouraging topline data from its Phase 2 LYNX and FOX trials. A scientist in a lab coat using a microscope to study a cultured biopharmaceutical product. Sevasemten is an orally administered and first-in-class fast skeletal myosin inhibitor designed to protect against contraction-induced muscle damage in muscular dystrophies like Becker and Duchenne. Becker muscular dystrophy is a rare, genetic, debilitating, and degenerative neuromuscular disorder primarily affecting males, with no currently approved therapies. Duchenne muscular dystrophy is a severe degenerative muscle disorder, the most common type of muscular dystrophy, with a median life expectancy of around 30 years. Edgewise Therapeutics Inc. (NASDAQ:EWTX) is a biopharmaceutical company that discovers, develops, and commercializes therapies for the treatment of muscle disorders. While we acknowledge the potential of EWTX as an investment, we believe certain AI stocks offer greater upside potential and carry less downside risk. If you're looking for an extremely undervalued AI stock that also stands to benefit significantly from Trump-era tariffs and the onshoring trend, see our free report on the . READ NEXT: and . Disclosure: None. This article is originally published at Insider Monkey. Error in retrieving data Sign in to access your portfolio Error in retrieving data Error in retrieving data Error in retrieving data Error in retrieving data
