All posts tagged: implant

A New Implant Aims to Rewire Stroke Patients’ Brains

A New Implant Aims to Rewire Stroke Patients’ Brains

Published by skeptic

Stroke is one of the leading causes of long-term disability, with roughly two-thirds of survivors experiencing significant impairments in their hands and arms. While some people eventually regain that function, many live with persistent paralysis or weakness. Epia Neuro, a newly launched startup out of San Francisco, wants to help more stroke patients regain hand function with a brain implant and motorized glove. It’s among a growing number of companies developing brain-computer interfaces, devices that read neural signals from the brain and translate them into specific actions. The space has seen a huge influx of investment in recent years, with Elon Musk’s Neuralink raising $500 million last year and Sam Altman’s Merge Labs emerging from stealth in January with $252 million in funding. Neuralink and others are building devices that give people with severe motor disabilities the ability to control a computer or speak with a digital voice. Epia’s technology aims to help people move their own hands again. “These patients have very weak grip. It’s a very common problem,” says Michel Maharbiz, Epia’s CEO …

An implant under the skin could replace insulin injections

An implant under the skin could replace insulin injections

Published by Jenni Sidey

A small device implanted just beneath the skin, roughly the size of a large postage stamp and weighing about two grams, kept diabetic mice and rats healthy for three months without a single dose of immunosuppressive medication. That result, published in the journal Device by researchers at MIT, represents a meaningful step toward something diabetes patients have long needed: a way to receive transplanted insulin-producing cells without the drugs that prevent the immune system from destroying them. The implanted device has a built-in mechanism for keeping living pancreatic islet cells alive. The substrate material protects the transplanted pancreatic islet cells by allowing them access to a continuous supply of oxygen generated within the substrate itself. This process occurs without the need for complex systems to supply oxygen. Instead, it uses moisture present within the body as the source for generating the oxygen needed for the islet cells. The concept of islet cell transplantation is not new. Physicians have known for many years that taking insulin-producing cells from a donor can restore normal glucose control. A …

Meet the Man Making Music With His Brain Implant

Meet the Man Making Music With His Brain Implant

Published by skeptic

Galen Buckwalter didn’t hesitate to get a craniotomy in 2024 as part of a brain implant study at Caltech. The 69-year-old research psychologist wanted to contribute to cutting-edge science that could help other people with paralysis. Buckwalter has been a quadriplegic since a diving accident at age 16 left him paralyzed from the chest down. The six chips in his brain, made by Blackrock Neurotech, read activity from his neurons and decode movement intention. They enable him to operate a computer with his thoughts, feel sensation in his fingers that he had lost, and, more recently, make music with his mind. Known as a brain-computer interface, or BCI, the technology is being developed by Paradromics, Synchron, Elon Musk’s Neuralink, and others to restore communication and movement in people with severe motor disabilities. But Buckwalter’s experience shows that the technology can be used in ways that are not purely functional—for instance, as an outlet for creative expression. Other BCI recipients are using their implants to make digital art with their thoughts. A 2023 gallery exhibit at …

New implant can read leg movement signals from amputated nerves

New implant can read leg movement signals from amputated nerves

Published by Jenni Sidey

When a person loses a leg above the knee, the nerves that once moved that leg don’t simply go quiet. They keep firing. The brain still sends signals down through what remains, still attempts to flex the ankle, extend the knee, curl the toes, even when none of those structures exist anymore. The signals travel to the end of what’s left and stop there, carrying movement instructions that have nowhere to go. For decades, those signals were essentially inaccessible, too faint and too difficult to interpret reliably. Prosthetic legs, unlike their arm counterparts, have largely operated on autopilot, using mechanical systems and built-in sensors to approximate walking without any direct input from the user’s own nervous system. In a study published in Nature Communications, the researchers describe the first successful decoding of leg movement signals recorded directly from the remaining nerves of people with above-knee amputations. Using hair-thin implantable electrodes and an AI system designed to process signals the way biological neurons do, they extracted not just broad movement categories but precise, detailed intentions, including …

Inside the neural implant letting paralyzed patients type at 110 characters per minute

Inside the neural implant letting paralyzed patients type at 110 characters per minute

Published by Jenni Sidey

Before his disease took his voice, he could type a message as fast as anyone. Now, with electrodes no larger than a grain of rice embedded near the surface of his brain, he can do it again, at 110 characters per minute, with an error rate that would make most smartphone users envious. That’s the core of what researchers from Mass General Brigham Neuroscience Institute and Brown University are reporting in Nature Neuroscience: a brain-computer interface that lets people with paralysis type using a standard QWERTY keyboard, not by moving their hands, but by simply attempting to. The system interprets the brain’s intention to move specific fingers and translates those signals into letters, in real time, with no physical movement required. Two participants tested the device as part of the BrainGate2 clinical trial. One has amyotrophic lateral sclerosis, a progressive disease that attacks the nerve cells controlling movement and speech. The other has a cervical spinal cord injury. Both used the system from their homes, not a research lab, a detail the team considers significant. …

Psychologists implant false beliefs to understand how human memory fails

Psychologists implant false beliefs to understand how human memory fails

Published by José Betancourt

A recent study published in Applied Cognitive Psychology provides evidence that the types of false memories people form depend on how believable an event is and how often they are told it occurred. The findings suggest that highly plausible events are much more likely to generate false beliefs, but only when people are led to believe the event happened just once. These insights help clarify how suggestion can distort human memory in everyday situations and legal settings. To understand the new study, it helps to distinguish between false beliefs and false memories. A false belief occurs when a person is confident that a specific event happened to them, even if they cannot visualize it. A false memory goes a step further and involves vivid, sensory details of an event that never actually took place, making it feel like a genuine recollection. While memory is generally reliable, it is not perfect. It is reconstructive, meaning it tends to be malleable and prone to errors. When people are exposed to suggestive questions or misleading information, they can …

What It’s Like to Have a Brain Implant for 5 Years

What It’s Like to Have a Brain Implant for 5 Years

Published by skeptic

Initially, Gorham used his brain-computer interface for single clicks, Oxley says. Then he moved on to multi-clicks and eventually sliding control, which is akin to turning up a volume knob. Now he can move a computer cursor, an example of 2D control—horizontal and vertical movements within a two-dimensional plane. Over the years, Gorham has gotten to try out different devices using his implant. Zafar Faraz, a field clinical engineer for Synchron, says Gorham directly contributed to the development of Switch Control, a new accessibility feature Apple announced last year that allows brain-computer interface users the ability to control iPhones, iPads, and the Vision Pro with their thoughts. In a video demonstration shown at an Nvidia conference last year in San Jose, California, Gorham demonstrates using his implant to play music from a smart speaker, turn on a fan, adjust his lights, activate an automatic pet feeder, and run a robotic vacuum in his home in Melbourne, Australia. “Rodney has been pushing the boundaries of what is possible,” Faraz says. As a field clinical engineer, Faraz …

Severe myopia and glaucoma – symptoms, Lasik risk and new microshunt implant explained

Severe myopia and glaucoma – symptoms, Lasik risk and new microshunt implant explained

Published by Sam Flores

WHAT ARE THE CAUSES? Myopia is a strong risk factor. For starters, myopic eyeballs are already stretched, making their optic nerves more fragile and susceptible to damage. “Weakness of the optic nerve as it enters the back of the eye is why there can be glaucomatous damage at relatively low pressures,” according to a study. In fact, said Dr Fan, “severe myopia (above 600 degrees) increases your life-time risk of glaucoma by about two to three times”. The other risk factors, he added, include age, a family history, diabetes, trauma and the use of steroids. “Certain types of glaucoma are also associated with changes in our vascular system, such as having migraines, joint disorders and being female (for example, women’s hormonal changes and longer life expectancy can lead to a higher cumulative risk of age-related glaucoma).” “Typical glaucoma usually affects both eyes but one eye may be more severe compared to the other,” said Dr Fan. Unlike myopia, presbyopia doesn’t directly cause or lead to glaucoma, according to this study. Both conditions may seem related …

This Chinese Startup Wants to Build a New Brain-Computer Interface—No Implant Required

This Chinese Startup Wants to Build a New Brain-Computer Interface—No Implant Required

Published by skeptic

China’s brain-computer interface industry is growing fast, and the newest company to emerge from the country is aiming to access the brain without the use of invasive implants. Gestala, newly founded in Chengdu with offices in Shanghai and Hong Kong, plans to use ultrasound technology to stimulate—and eventually read from—the brain, according to CEO and cofounder Phoenix Peng. It’s the second company to launch in recent weeks with the aim of tapping into the brain with ultrasound. Earlier this month, OpenAI announced a major investment in brain-computer interface startup Merge Labs, cofounded by its CEO, Sam Altman, along with other tech executives and members of Forest Neurotech, a California-based nonprofit research organization. Best known as a type of medical test, ultrasound uses high-frequency sound waves to create images of internal organs and to visualize blood flow. One of the most common uses of ultrasound is to monitor the development of a fetus during pregnancy. But researchers have also been interested in ultrasound’s potential to treat diseases, not just diagnose them. Depending on the intensity of …