A new study reveals that astrocyte-derived GABA, not neuronal activity, plays a central role in PTSD by impairing the brain’s ability to extinguish traumatic memories.

Observational and philosophical analysis continued to examine the brain, as well as the impact that thinking, exercises, and ...

However, there remains a missing link: “neural progenitor cells,” which can differentiate into different neurons and glial cells. Now, the search is over. “This gives us an important piece of the ...

Hemostemix (TSXV: HEM) (OTCQB: HMTXF) (FSE: 2VF0) ("Hemostemix" or the "Company") is excited to highlight a groundbreaking ...

Glial cells are now recognised as active participants in synaptic communication, neurogenesis, and neural circuit modulation rather than simply serving as structural or supportive elements (Barres ...

A study by the Hospital del Mar Research Institute and Yale University reveals that genes linked to autism, schizophrenia and ...

The new drug has already passed Phase 1 safety trials in humans, making it a "strong candidate" for future PTSD treatments.

University of Pennsylvania and Syracuse University scientists have discovered that a hindbrain-derived peptide, octadecaneuropeptide (ODN), can suppress appetite and improve glucose regulation without ...

Researchers discovered that PTSD may be driven by excess GABA from astrocytes, not neurons. This chemical imbalance disrupts ...

However, there remains a missing link: “neural progenitor cells,” which can differentiate into different neurons and glial cells. Now, the search is over.

Patients with post-traumatic stress disorder (PTSD) often struggle to forget traumatic memories, even long after the danger ...

Excessive levels of GABA released by astrocytes impair the brain's ability to extinguish fear responses in PTSD, but a newly ...