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 ...

Novel study by researchers at the Rambam Health Care Campus could help 21 million people worldwide suffering from the severe lifelong mental disorder The post In breakthrough, Israeli scientists use ...

We don’t think of ourselves as anything like electrical devices, but there are actually some similarities. Really? The nervous system communicates through electricity. Wait—doesn’t the body run on ...

If deep brain stimulation (DBS) can help people with Parkinson’s disease walk and speak again, could it help people with Alzheimer’s disease, too? It’s a natural question, and one that researchers are ...

Deep Brain Stimulation (DBS) is an advanced neurosurgical therapy that uses controlled electrical signals to manage Parkinson ...

More than one million Americans are living with Parkinson’s disease and another 90,000 people are expected to be diagnosed ...

Parkinson's Disease is a movement disorder that affects the nervous system. Deep Brain Stimulation surgery, or DBS, is helping those living with the condition.

An early-stage clinical trial has shown that deep brain stimulation (DBS) applied to the cerebellum may aid the recovery of upper limb function after stroke. Researchers studied 12 people with ...

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, ...

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

Doctors and researchers at the University of Pittsburgh and UPMC have developed a new treatment for epilepsy patients who don't respond to medication and aren't candidates for surgery. Their approach, ...

Researchers have built AI systems capable of steering targeted brain circuits in real time, moving neuroscience closer to ...