Neuralink

@neuralink • 1,760,832 subscribers

Creating a general-purpose, high-bandwidth interface to the brain

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Neuralink

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Our goal at Neuralink is to restore abilities that were thought to be lost forever due to injury, accident, or disease. See how Audrey, who is paralyzed due to spinal cord injury, uses her brain-computer interface to play video games with her mind.

Moments after implantation, our device can provide visibility into real-time neural activity. This video shows the gradual increase in activity as one of our recent participants wakes up post-procedure 🌅🧠

We are building surgery simulations for faster iteration and better test coverage. Join us to help expand this capability🦾 #techtuesday

Our surgical team enhances their skills by training on realistic, patient-specific head and brain models, ensuring surgeries are tailored to each individual for safety and success 🧠

Wireless charging of implants needs to be easy, performant, and safe. Here’s a demonstration of how we stress test our control loops that manage the charger’s output power to wirelessly charge our implant at various distances and angles📈

It can be difficult to visualize how tiny our threads are. We had a banana for scale, but Pager ate it 🍌

During the final inspection, we capture and stitch images of our arrays and use image detection algorithms to identify defects. Join us in refining our algorithms to distinguish between various types of particles and developing defect-free microfabrication processes 0⃣ #techtuesday

We attach our custom ASICs to our implant PCBA using flip chip bonding process. Here’s a sped up version of that process where we pick up the chip, apply flux, precisely align, and bond to the board.🎯 #techtuesday

Videos

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We're building a surgical robot capable of reaching any brain region. The goal: a generalized neural interface to help solve any condition that originates in the brain.

Our robot is designed to insert hundreds of ultra-fine, flexible threads with thousands of electrodes within microns of targeted neurons while avoiding vasculature and adapting to real-time brain motion.

ALS has gradually taken away Kenneth’s ability to speak. Through Neuralink’s VOICE clinical trial, he’s exploring how a brain-computer interface designed to translate thought to speech could help restore autonomy in his daily life. Watch to learn more:

We are working to restore mobility that was lost due to disease or spinal cord injury by allowing participants to control robotic arms with their thoughts. See how this is possible.

What is neuron degeneration? Skyler, a machine learning engineer at Neuralink, shares how brain-computer interfaces could bypass neural pathways that are broken due to ALS, helping restore the ability to speak to those who have lost it.

“When you haven’t heard someone talk for four years, the thought that they might be able to talk again was mind blowing."

After a car accident left her paralyzed from the neck down, Audrey didn’t think she would be able to draw or paint again. 20 years later, she became the first female participant in our clinical trials. Now, she uses her brain-computer interface to create art with her mind.

We now have 21 participants enrolled in trials worldwide. Check out how our Neuralnauts are driving BCI technology forward.

“That first signature resembled my actual, physical handwriting.”

ALS took Nick’s arm mobility. Now, he can control a robotic arm with his Neuralink device to feed himself. “Life with my BCI has been and continues to be so surreal and so rewarding. Can’t wait to see what comes next!”

Life with ALS or a spinal cord injury often means navigating a gradual or sudden loss of independence. Neuralink aims to restore autonomy to those with unmet medical needs—starting with device control and communication, and expanding toward vision and other applications.

Redefining the boundaries of human capability requires pioneers. If you have quadriplegia and want to explore new ways of controlling your computer, we invite you to participate in our clinical trial.

ALS is a disease that takes everything. Our goal is to give something back. Kenneth, who has been losing his ability to move and speak due to ALS, is exploring how Neuralink’s brain-computer interface technology can help translate neural signals into life-changing impact.

The needle grasps and inserts each electrode thread of our implant into the brain. We've built the technology to produce these needles in-house, using lasers to mill features invisible to the naked eye.

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Watch the latest update from the Neuralink team.

Check out our latest video to learn more about our PRIME Study! 🧠📱

We currently have over 20 of our latest generation implants that have passed the 5-year mark of accelerated aging on benchtop (and still going!) 5⃣🚀 #techtuesday

We’ve built a surgical robot to automate key steps in the process of receiving a Neuralink implant to promote safety, reliability, and scalability. Learn more about the role of the robot and its future potential from the engineers helping develop it.

🪡 We often get questions about the safety of our implant’s electrode threads. In this video, Dave, a member of our technical staff, shares data highlighting the leap forward in safety that our technology provides.