Trageting abnormal brain cells linked to chronic inflammation may be key to treating people with progressive forms of MS, a ...

Loss of RTN4RL2 disrupts synapse formation and function between inner hair cells and spiral ganglion neurons, leading to elevated auditory thresholds and highlighting its critical role in hearing.

In the lab, Johns Hopkins University neuroscientist Minhyeok Chang and colleagues identified tiny tubular bridges in the ...

A Northwestern Medicine study has revealed a key mechanism underlying the development of motor neuron diseases, offering new insights into potential treatment options, according to a study published ...

G. sulfurreducens communicate with each other through tiny, protein-based wires that researchers at the University of Massachusetts Amherst have harvested and used to make artificial neurons that can, ...

Researchers have identified a rare type of brain cell that may drive the chronic inflammation and neurodegeneration seen in progressive multiple sclerosis (MS).

Scientists have identified an unusual type of brain cell that may play a vital role in progressive multiple sclerosis (MS), ...

Scientists have identified an unusual type of brain cell that may play a vital role in progressive multiple sclerosis (MS), ...

The dorsal vagal complex is a highly intricate structure composed of distinct transcriptional classes of glial and neuronal cells, exhibiting many similarities but also notable differences between ...

By profiling brains from healthy people aged one to 104, researchers found that mutations accumulate in some genes more than ...

A new mechanism underlying depression has been discovered. This finding is expected to provide clues for the treatment and ...

Researchers at Oregon Health & Science University have achieved a scientific first: transforming human skin cells into eggs that can be fertilized in the lab. Their study, published Tuesday in Nature ...