Thrilled to announce our first institutional funding round with a $400 million strategic investment from Citadel Securities valuing https://t.co/dwRH3Ycaul at $20 billion. An incredible milestone 10 years in on our journey and the beginning of a new phase of growth. Grateful to our team who got us here, our customers and community who supported us in both bull and bear and finally to our new partners for their trust. Together we will capture new opportunities at this critical juncture for the industry and win. Onwards!
This first-of-its-kind procedure was performed at @UHN Toronto Western Hospital as part of our clinical trials. The participant was controlling a cursor with their thoughts within an hour of surgery, and recovery is progressing as expected.
Neuralink devices are investigational and have not been approved by the FDA or other regulatory authorities. This video features voluntary clinical trial participants sharing their personal experiences, which may not reflect all participants or future outcomes.
We like to say “the best step is no step” and deleting the durectomy takes one of the most delicate manual steps out of the procedure. This potentially means a safer, more repeatable surgery, and a real path to scaling Neuralink to the many people who could benefit.
This isn't easy. The dura can be over 10x thicker than our electrode threads, which are thinner than a human hair. The brain beneath it is constantly moving, and the membrane hides the very blood vessels we need to avoid.
The dura is the brain's armor: a membrane so tough that a surgeon normally cuts through it with a scalpel. For the first time in our clinical trials, we inserted the electrode threads of our implant straight through the dura and into the cortex, keeping the dura intact.
Here's how we did it 🧵
Elon says Neuralink may try direct human-to-human communication by reading their thoughts.
This would be a game changer. When we speak, our thoughts have to be compressed down into words.
Then the recipient has to uncompress the thoughts in their own mind. Hopefully, they uncompress it in the way it was intended.
With direct Neuralink-to-Neuralink communication, the raw thoughts could be delivered.
This would drastically improve communication accuracy, precision, and efficiency.
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.
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.
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.
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.
We're looking for exceptional engineers to help take it to the next level. Explore opportunities at https://t.co/XXGoQDpfDk.
Neuralink devices are investigational and not FDA approved. This video features voluntary clinical trial participants sharing their personal experiences, which may not reflect all participants or future outcomes.
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.
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.
Interested in joining our team? Explore open roles at https://t.co/XXGoQDpfDk.
Note: Neuralink devices are investigational and are not commercially available or FDA approved. This video features voluntary participants in clinical trials who chose to share their personal experiences. Their statements reflect individual perspectives and experiences, which may not be representative of all participants or future outcomes.
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.