Skip to main content

Stimulating the deep brain

Electrodes inserted into an area of the brain that plays a critical role in movement can alleviate Parkinson's symptoms


Bradley Greger
August 13, 2020

Parkinson’s disease is a neurodegenerative disorder that affects a specific area of the brain — the substantia nigra. It can result in tremors, a slowness of movement known as bradykinesia, uncontrollable muscle contractions known as dystonia, and difficulty with walking and balance.

Deep brain stimulation, or DBS, is a surgical procedure that’s been used to treat Parkinson’s for more than 20 years. Using magnetic resonance imaging, DBS electrodes are inserted into an area of the brain that plays a critical role in movement — either the subthalamic nucleus or the globus pallidus. A small impulse generator, similar to a pacemaker, is also implanted under the skin of the patient’s chest to provide electrical impulses to the electrodes in the brain. The electrical impulses reduce the patient’s symptoms and improves their ability to move.

Video by Deanna Dent/Media Relations and Strategic Communications

Arizona State University neuroscientist Bradley Greger has teamed up with Barrow Neurological Institute neurosurgeon Dr. Francisco Ponce to evaluate DBS for its possible use in treating other neurological disorders.

For the study, while the DBS electrodes are being implanted, a second, temporary implant is added to identify what’s happening in the brain during DBS treatment. Directly measuring the effect of DBS on brain activity will aid in extending the use of DBS in other neurological disorders.

Barrow Neurological patient Kimball Rogers and his family agreed to be part of the research. They are sharing their experiences to provide other Parkinson’s patients with information about the value of the procedure and the research.

Top photo: ASU Associate Professor Bradley Greger poses for a portrait in the operating room of St. Joseph's Hospital and Medical Center on Aug. 8, 2018, in Phoenix. Greger's research and work focuses on neuroscience, bioengineering and data analysis. Photo courtesy of Gary L. Armstrong/St. Joseph Hospital and Medical Center

More Science and technology

 

A robotic hand reaches up into a network of connected lines and dots, an unseen light source illuminates the hand.

National Humanities Center renews partnership with Lincoln Center for responsible AI research

The National Humanities Center has announced  that Arizona State University's Lincoln Center for Applied Ethics is one of four organizations to receive funding for the second phase of their…

Group of men standing for group picture holding trophies.

ASU student and hackathon enthusiast explores bridge between humanities, technology

While science and the humanities are seemingly two completely different worlds, the truth is they often go hand in hand. Mannan Anand, a second-year student at Arizona State University studying…

Illustration of a semiconductor being put together

Advanced packaging the next big thing in semiconductors — and no, we're not talking about boxes

Microchips are hot. The tiny bits of silicon are integral to 21st-century life because they power the smartphones we rely on, the cars we drive and the advanced weaponry that is the backbone of…