A new study reveals that nerve cells receive periodic infusions of mitochondria from neighboring cells — and this may point ...

For millions living with nerve pain, even a light touch can feel unbearable. Scientists have long suspected that damaged ...

Researchers developed a way to directly reprogram human glial cells into PV interneurons without passing through a stem‑cell stage.

A new Nature study suggests chronic nerve pain could be eased by an unexpected source: healthy mitochondria. Duke University School of Medicine researchers found that delivering this fresh energy ...

Transferring mitochondria, or the glial cells that produce them, to mice with nerve damage mitigated pain, suggesting a ...

For millions living with nerve pain, even a light touch can feel unbearable. Scientists have long suspected that damaged nerve cells falter because ...

For millions living with nerve pain, even a light touch can feel unbearable. Scientists have long suspected that damaged ...

Researchers say study findings may lead to a more promising future for cell therapy targeting stroke and other neurological disorders.

Alzheimer’s may advance by breaking the brain’s internal clock—and resetting it could help fight the disease. Alzheimer’s disease often interferes with a person’s normal daily patterns. Early warning ...

This perspective argues that Parkinson’s disease may involve functional iron deficiency, where bioavailable iron is limited despite normal or elevated total iron in the brain. The authors propose that ...

A study reveals that two-thirds of genetic risks for mental health conditions are shared, challenging traditional diagnostic ...

Every year, millions of lives are suddenly, swiftly transformed by a stroke, which occurs when a blood vessel travelling ...