This bioengineering breakthrough has found a way to make neurons grown in a dish react just like the real thing. "Neurons that fire together, wire together" describes the neural plasticity seen in ...

A new bioluminescent tool allows neurons to glow on their own, letting scientists track brain activity without harmful lasers ...

Researchers have engineered a next-generation glutamate sensor, iGluSnFR4, capable of detecting the faintest incoming ...

Scientists are building experimental computers from living human brain cells and testing how they learn and adapt.

For more than a century, neuroscience textbooks have treated damaged neurons in the adult central nervous system as a dead end, especially in the delicate circuitry that carries visual information ...

A novel electrode platform detects dopamine from single living brain organoids in real time, enabling non-destructive ...

Neurons are not known for their regenerative powers. Some neurons are very slow to repair after injury, and some are never able to heal damage. This can lead to a devastating loss of function and ...

Understanding the brain's intricate machinery and how it orchestrates behaviors is a long-standing challenge in neuroscience. Yet, how can we ever hope to understand complex behaviors such as ...

Unlike the brain and spinal cord, peripheral nerve cells, whose long extensions reach the skin and internal organs, are capable of regenerating after injury. This is why injuries to the central ...

Scientists from Singapore have streamlined the process of using human stem cells to mass produce GABAergic neurons (GNs) in the laboratory. This new protocol provides scientists with a robust source ...

"Neurons that fire together, wire together" describes the neural plasticity seen in human brains, but neurons grown in a dish don't seem to follow these rules. Neurons that are cultured in-vitro form ...