Understanding the dynamics of neuronal communication is crucial for advancing neuroscience research and developing effective therapies for neurological disorders. Neuronal network models have been ...

The microelectrode array with neural networks from different origins (cell line) over time: left to right shows progression from 6 days after plating to 37 days after plating on the microelectrode ...

Increasing the proximity of microelectrode arrays (MEA) to targeted neural tissues can establish efficient neural interfaces for both recording and stimulation applications. This has been achieved by ...

Cultured neural tissues have been widely used as a simplified experimental model for brain research. However, existing devices for growing and recording neural tissues, which are manufactured using ...

Silicon-based neural microneedle arrays, such as the Utah Array, have demonstrated excellent performance in chronic recordings from the cerebral cortex. Unlike planar thin-film electrodes with ...

A research group led by Prof. Cai Xinxia from the Aerospace Information Research Institute (AIR) of the Chinese Academy of Sciences developed a novel drug-loaded hydrogel-coated microelectrode array ...

Researchers used 3D printing and capillary action to create customizable neural chips, expanding design freedom for brain research, biosensors and biocomputing. (Nanowerk News) Cultured neural tissues ...

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 ...

Neural organoids have been heralded as having huge potential for advancing our knowledge of the brain in several fields. These include exploring the responses of brain tissue to drugs, investigating ...