derived either from mouse brain tissue or from human stem cells, on the nanopillars. In traditional flat petri dishes and 2D biomaterials, neurons grew in random directions. But on the 3D-printed ...

Research reveals why misplaced neurons in the brain are overactive and lead to developmental disorders. Research reveals why misplaced neurons in the brain are overactive and lead to developmental ...

This inspired Su-Chun Zhang, a stem cell biologist at Duke-National University ... to select cell types and spatial distributions to replicate brain tissue. Traditional 3D bioprinting stacks cell ...

Research reveals why misplaced neurons in the brain are overactive and lead to developmental disorders.

Securing neurons from the brain is also not as easy as isolating most other cell types. It is no secret that the ability to transform normal cells into induced pluripotent stem cells revolutionized ...

including the cerebellum and brain stem. These also fulfill critical functions. Running through parts of the brain are a dozen pairs of cranial nerves, which link the brain directly to muscles and ...

highlights included the 3D-printing of functional human brain tissue, a bilingual brain-reading device, and stem cell therapy aimed at restoring human vision. CAE vice-president Wang Chen unveiled ...