You are currently viewing Controlling Apple Vision Pro with your brain is one step closer to reality

Controlling Apple Vision Pro with your brain is one step closer to reality

Synchron brain computer interfaces could control Apple Vision Pro Illustration source: Synchron

Synchron has developed a non-invasive brain-computer interface capable of controlling devices like Apple Vision Pro, and it has reached the one-year milestone without serious adverse effects to patients.

Brain-computer interfaces are among the latest moonshot technologies being chased in the consumer market. Clinical trials began for Synchron’s minimally invasive brain implant in 2022, and it has evolved from potential iPhone and iPad control to Apple Vision Pro control over the years.

According to a press release from Synchron, all six patients with the brain-computer interface had no device-related serious adverse events resulting in death or permanent increase in disability during the first-year post-implant period. Basically, the implanted device didn’t cause any problems, and it demonstrated consistent results in capturing brain signals for motor intent.

“The COMMAND study results represent a major medical milestone, confirming the safety of the Stentrode BCI with no neurologic safety events reported during the 12-month study period,” said Levy, M.D., MBA, FAANS, FACS, Co-Principal Investigator, COMMAND trial, and president of UB Neurosurgery (UBNS) in the statement. “This minimally invasive approach has the potential to unlock BCI technology at scale for the millions of patients with paralysis and other mobility challenges.”

The COMMAND study is the first FDA-approved trial of a permanently implanted brain computer interface. Unlike other brain implants that require dangerously invasive surgery, Synchron’s implant is attached via the jugular vein through a minimally invasive endovascular procedure.

The goal of such implants is to allow people that have severe brain injury from events like stroke that result in paralysis to regain some level of functional independence. The patients involved in the initial trial all have severe chronic bilateral upper-limb paralysis that were unresponsive to therapy.

Once installed and functional, the brain computer interface can interpret signals and turn them into actions like moving a cursor or clicking. Such a device could control an iPhone, iPad, smart home appliance, or Apple Vision Pro.

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