The Synchron company has developed a non-invasive "brain-computer’ interface" to control devices such as the Apple Vision Pro, and has been running successfully for a year now without causing serious side effects to patients.
For those who don't know, the brain-computer interface is a brain-computer interface. (BCI) – is a device that allows a person to control an external device using signals from their brain. It can be used to help people with disabilities, such as paralysis, and it can also be used for scientific research.
Synchron's minimally invasive brain implants, which begin clinical trials in 2022, were originally designed to control iPhones and iPads, but now allow control of more sophisticated devices such as Apple's Vision Pro.
According to Synchron, six patients , who received brain-computer interface implants, experienced no serious device-related side effects during the first year. In short, the implanted device did not cause any problems and worked stably, capturing the brain's signals about movement intentions.
200% Deposit Bonus up to €3,000 180% First Deposit Bonus up to $20,000It is worth noting that the COMMAND study – this is the first FDA-approved trial of a permanently implantable brain-computer interface. Unlike other brain implants that require dangerous, invasive surgery, the Synchron implant is placed using a minimally invasive endovascular procedure through the jugular vein.
"The results of the COMMAND study represent an important medical milestone, confirming the safety of the Stentrode BCI implant, as no neurological safety-related events were reported during the 12-month study period,&rdash; said Dr. Levy, co-investigator of the COMMAND study and president of UB Neurosurgery (UBNS), in a statement. «This minimally invasive approach has the potential to bring BCI technology to millions of patients with paralysis and other mobility impairments at scale. >.
The purpose of this implant – to help people who have been paralyzed by causes such as stroke and have severe brain damage to regain some level of functional independence. The patients who participated in the first study had severe chronic bilateral paralysis of the upper limbs that did not respond to traditional treatment methods.
Thus, the brain-computer interface can interpret brain signals and translate them into actions needed to operate devices such as Apple devices, allowing users to perform certain tasks even if they are physically unable to do so.