Company is seeking people with paralysis to test its experimental device after getting green light from independent review board
Elon Musk’s brain-implant startup, Neuralink, said it has received approval from an independent review board to begin recruiting patients for its first human trial. The company is seeking people with paralysis to test its experimental device in a six-year study.
Neuralink is one of several companies developing a brain-computer interface (BCI) that can collect and analyze brain signals. But its billionaire executive’s bombastic promotion of the company, including promises to develop an all-encompassing brain computer to help humans keep up with artificial intelligence, has attracted skepticism and raised ethical concerns among neuroscientists and other experts.
Last year, the Food and Drug Administration denied the company’s request to fast-track human trials, but in May approved Neuralink for an investigational device exemption (IDE) that allows a device to be used for clinical studies. The agency has not disclosed how its initial concerns were resolved.
I don’t really know if we’ve had other companies that are crazy enough to pierce the blood brain barrier, just for a brain interface machine.
There have been plenty of brain interface machines, but most are just pieces of headgear that you wear. And they’re just as useful as Musk’s interface… not very.
When you utilize a traditional mouse you are relying on both visual and proprioceptive data, which is interpreted in conjunction in real time by your brain. Without the proprioceptive sensation, your brain loses track of where the mouse is in the operational space. Meaning it takes a large amount of concentration to operate anything with just the aid of visualization.
The biggest problem is that they’ve essentially designed a meningitis machine. For my job we occasionally have to set skull pins for halo devices, basically a cervical immobilizing brace. These pins pierce the skin and are set into the bone of the skull, though we don’t pierce through the skull or damage the blood brain barrier.
These pins are extremely susceptible to infection depending on the level of patient compliance. Because the scalp is not firmly attached to the skull it’s is free to move against the pins and create a lot of skin irritation, which can lead to infections if not properly cleaned on a regular basis.