When we think of brain-computer interfaces (BCIs) that use electrodes, we usually think of Utah arrays that are placed directly on the brain during open brain surgery, or with thin electrodes ...

Scientists have developed tiny robotic nerve "cuffs" to diagnose and treat neurological disorders. The flexible devices offer ...

The revolution in personalized medicine is well underway—with wearable devices and DIY home testing, it's easier than ever to ...

In the world of brain-computer interfaces, it can seem as if one company sucks up all the oxygen in the room. Last month, ...

When we think of brain-computer interfaces (BCIs) that use electrodes, we usually think of Utah arrays that are placed directly on the brain during open brain surgery, or with thin electrodes ...

The Medtronic Sphere-360 pulsed field ablation catheter uses nitinol for a feature that's unique within Medtronic's PFA ...

Scientists built a "smart filter" that can work with a cheap smartphone camera to transform low-resolution photos into ...

Inside this week's $200 million funding deal of Blackrock Neurotech: Where will the money go, and what does it mean for the industry?

Research Expo is unique in that graduate students are judged not just on the technical merits of their research, but also on ...

For seven and a half years, he lived with this device—an electrode array nestled into his motor cortex that transmitted signals to a computer, which then activated electrodes wrapped around his arm.

Researchers deploy an array of microscopic coils to create a magnetic field and stimulate individual neurons. The magnetic field can induce an electric field in any nearby neurons, the same effect ...

Using a variety of electrodes, researchers connected the 2D semiconductor ... Now, CNSI researchers illustrated that a ...