Researchers at Carnegie Mellon University have used a nanoscale 3D printing technique that allows them to customize the microelectrode arrays used for brain computer interfaces. The approach is called ...

Figure 1. Schematic of highly stretchable MEA (sMEA) with protruding microelectrodes. On January 14th, the KAIST research team led by Professor Hyunjoo J. Lee from the School of Electrical Engineering ...

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 ...

Drug development for the treatment of amyloid lateral sclerosis (ALS) requires an understanding of how genetic mutations lead to the ALS phenotype. Researchers use human induced pluripotent stem cell ...

Researchers have developed a new generation of microelectrode-array chips for measuring nerve impulses, enabling studies of how thousands of nerve cells interact with each other. For over 15 years, ...

ETH researchers have developed a new generation of microelectrode- array chips for measuring nerve impulses, enabling studies of how thousands of nerve cells interact with each other. For over 15 ...

A KAIST research team has developed a highly stretchable microelectrode array (sMEA) designed for non-invasive electrophysiological signal measurement of organoids. The team was led by Professor ...

Brain organoids are self-organizing tissue cultures grown from patient cell-derived induced pluripotent stem cells. They form tissue structures that resemble the brain in vivo in many ways. This makes ...