The locus coeruleus is emerging as a major new area of research interest, with many important functions such as regulating ...

TU Delft researchers 3D print ‘brain-like environment’ - mimicking the soft neural tissue and the brain's extracellular matrix fibers.

Key cells in the brain, neurons, form networks by exchanging signals, enabling the brain to learn and adapt at incredible speed. Researchers have now developed a 3D-printed 'brain-like environment' ...

The 3D-printed brain-like model from TU Delft promotes structured neuronal networks, offering a new tool for investigating ...

Key cells in the brain, neurons, form networks by exchanging signals, enabling the brain to learn and adapt at incredible speed.

Researchers have developed a 3D-printed |brain-like environment| where neurons grow similarly to a real brain.

Key cells in the brain, neurons, form networks by exchanging signals, enabling the brain to learn and adapt at incredible speed. Researchers of the ...

By crafting an artificial brain-like environment with microscopic nanopillars, researchers have successfully guided neurons to grow in structured networks. This innovation could revolutionize how scie ...

Key cells in the brain, neurons, form networks by exchanging signals, enabling the brain to learn and adapt at incredible ...

Key cells in the brain, neurons, form networks by exchanging signals, enabling the brain to learn and adapt at incredible speed. Researchers of the Delft University of Technology in The Netherlands ...

Sphere of Influence. In iAssembloids, microglia (red) form projections (white arrows), while astrocytes (green) assume star shapes typically found in the brain. [Courtesy of Kampmann et al., 2025.] ...