With the introduction of adaptive deep brain stimulation (aDBS) for Parkinson's disease, new questions emerge regarding who, why, and how to treat. This paper outlines the pathophysiological rationale ...

For decades, scientists have searched for a safe way to reach deep parts of the human brain without cutting into the skull. That goal now feels closer.

Living with a brain disorder often means relying on medication that does not work for everyone and, in some cases, surgery. EU-funded researchers are now investigating whether nanotechnology could one ...

Tardive dyskinesia (TD) can be addressed by the right intervention even in severe, refractory cases. These cases, characterized by involuntary muscle movements, are most often caused by antipsychotics ...

Discover how TMS therapy targets depression at the source. A deep dive into the physics, safety protocols, and FDA-cleared ...

Researchers have uncovered a fast-acting brain network that may determine how effectively deep brain stimulation improves Parkinson’s symptoms. Parkinson’s disease can make everyday movements slow, ...

A UNSW biomedical expert explains how neurostimulation can already treat conditions like chronic pain, Parkinson's disease and hearing loss - and why ...

A high-frequency brain signal in the frontal cortex is linked to OCD compulsions. Targeted deep brain stimulation rapidly reduced symptoms in severe cases.