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 ...

In our latest interview, News-Medical speaks with Rosanna Zhang from ACROBiosystems about utilizing organoids for disease ...

High-density microelectrode arrays (HD-MEAs) play a crucial role in assessing the functional characteristics of cerebral organoids. As a pioneer in this area, 3Brain specializes in developing top-tier ...

Brain organoids, three-dimensional models of the brain, are a boon to neuroscience, making it possible to study the development, evolution and disease of the brain in a model that is based on human ...

In the patterned brain organoids, by contrast, FGF8 is the only signal that specifies the different domains. Analyzing the brain organoids, the scientists conclude that the FGF8 source in the ...

Lab-grown “reductionist replicas” of the human brain are helping scientists understand fetal development and cognitive disorders, including autism. But ethical questions loom. Brain organoids, which ...

Johns Hopkins University researchers have grown a novel whole-brain organoid, complete with neural tissues and rudimentary blood vessels—an advance that could usher in a new era of research into ...

Pea-sized brains grown in a lab have for the first time revealed the unique way neurons might misfire due to schizophrenia and bipolar disorder, psychiatric ailments that affect millions of people ...

As brain organoids replicate aspects of the brain's physiology, organoids hold the potential to reveal new insights about human tissue biology and disease - in a way that other, non-human, models such ...