A UNIGE team has discovered a new brain mechanism responsible for modulating sensory signals. It could be involved in the ...

Dr. Jerzy Kupiec-Weglinski has led organ transplant research at UCLA for nearly three decades. Kupiec-Weglinski, the vice ...

A new microscope combines ultrafast light pulses with sound detection to map single-cell molecular activity far deeper than ...

New research reveals this inconsistency may be due to a feedback loop between the thalamus and somatosensory cortex, where thalamic input subtly changes how sensitive cortical neurons are to incoming ...

The University of California develops a brain-computer interface that records neural signals to decipher words, intonation, and rhythm ...

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

A study by the Hospital del Mar Research Institute and Yale University reveals that genes linked to autism, schizophrenia and Parkinson’s disease are active in fetal neural stem cells.

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.

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

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

The origin of some neuropsychiatric diseases, such as autism, bipolar disorder, or depression, and certain neurodegenerative ...