Carnegie Mellon University researchers have pioneered the CMU Array—a new type of microelectrode array for brain computer interface platforms. It holds the potential to transform how doctors are able to treat neurological disorders.
3D printed at the nanoscale, the ultra-high-density microelectrode array (MEA) is fully customizable. This means that one day, patients suffering from epilepsy or limb function loss due to stroke could have personalized medical treatment optimized for their individual needs.
The collaboration combines the expertise of Rahul Panat, associate professor of mechanical engineering, and Eric Yttri, assistant professor of biological sciences. The team applied the newest microfabrication technique, Aerosol Jet 3D printing, to produce arrays that solved the major design barriers of other brain computer interface (BCI) arrays. The findings were published in Science Advances.
Researchers pioneer nanoprinting electrodes for customized treatments of neurological disorders > Nanoprinting electrodes for customized treatments of disease 🦠 > Researchers used Aerosol Jet 3D printing to produce a new type of microelectrode array that…https://t.co/h3wKZDp0TM
— Tuan TRANPHAM • 🦕 (@ttranpham) October 6, 2022