This article describes an automated brain organoid creation workflow using the CellXpress.ai system, beginning with iPSCs and ...

Scientists have created a digital fruit fly brain simulation using a mapped connectome and AI, letting the virtual insect move, groom, and search for food in a 3D environment.

University of Missouri researchers are developing new ways to better simulate the complex nature of human brain tissue. For years, scientists have worked to uncover how the brain responds to ...

Neural tissue engineering aims to mimic the brain's complex environment, the extracellular matrix, which supports nerve cell growth, development, and proper connectivity. This environment is carefully ...

A 3D model accurately mimicking the Blood-Brain Barrier (BBB) in a laboratory environment has been successfully developed by research teams led by Professor Jinah Jang from the Departments of ...

Scientists created the largest functional map of a brain to date using a piece of a mouse's brain. The map details the wiring that connects neurons, offering insight into brain function and ...

Neuroscientists have been trying to understand how the brain processes visual information for over a century. The development of computational models inspired by the brain's layered organization, also ...

The new organoids were grown in the lab for up to 40 days, and they mimicked the central nervous system of an 11-week-old human embryo. When you purchase through links on our site, we may earn an ...

For Martin Schrimpf, the promise of artificial intelligence is not in the tasks it can accomplish. It’s in what AI might reveal about human intelligence. He is working to build a “digital twin” of the ...