- Tainted Cucumbers Now Linked to 100 Salmonella Cases in 23 States
- Check Your Pantry, Lay’s Classic Potato Chips Recalled Due to Milk Allergy Risk
- Norovirus Sickens Hundreds on Three Cruise Ships: CDC
- Not Just Blabber: What Baby’s First Vocalizations and Coos Can Tell Us
- What’s the Link Between Memory Problems and Sexism?
- Supreme Court to Decide on South Carolina’s Bid to Cut Funding for Planned Parenthood
- Antibiotics Do Not Increase Risks for Cognitive Decline, Dementia in Older Adults, New Data Says
- A New Way to Treat Sjögren’s Disease? Researchers Are Hopeful
- Some Abortion Pill Users Surprised By Pain, Study Says
- Who is At Risk For Cybercrime?
Brain Zap Treatment Could Get Arms, Hands Moving After Head Injury
Patients who lose the use of their hands and arms after a stroke or traumatic brain injury could regain some function through deep brain stimulation (DBS), new research demonstrates.
DBS involves surgical placement of electrodes to deliver electrical impulses to areas of the brain regulating specific activity. It is often used to treat control movement problems associated with Parkinson’s disease.
“Arm and hand paralysis significantly impacts the quality of life of millions of people worldwide,” said corresponding author Elvira Pirondini, an assistant professor of physical medicine at the University of Pittsburgh. “Currently, we don’t have effective solutions for patients who suffered a stroke or traumatic brain injury, but there is growing interest in the use of neuro-technologies that stimulate the brain to improve upper-limb motor functions.”
The team proposed using DBS to stimulate a structure deep within the brain called the motor thalmus, a key hub of movement control. Because this had never been done before, they first tested it in monkeys, which have the same links as people between the motor cortex and muscles.
As soon as the stimulation was turned on, the monkeys had significantly better muscle activation and grip. No involuntary movement was seen.
Then, they repeated the procedure using the same stimulation settings in a human volunteer who was already set to undergo DBS implantation to help with arm tremors caused by a brain injury that severely paralyzed both arms.
Again, range and strength of motion immediately improved as soon as the stimulation was turned on. The participant was able to lift a moderately heavy weight and reach, grasp and lift a drinking cup more efficiently and smoothly than without the stimulation.
The promising findings were published Oct. 1 in the journal Nature Communications.
“DBS has been life-changing for many patients,” senior study author Dr. Jorge González-Martinex, director of Pitt’s epilepsy and movement disorders program, said in a university news release. “It offers new hope to millions of people worldwide.”
Their team is now working to test the long-term effects of DBS and to learn whether continuing stimulation could further boost arm and hand function in patients with traumatic brain injury or stroke.
More information
There’s more about deep brain stimulation at the American Brain Foundation.
SOURCE: University of Pittsburgh, news release, Oct. 1, 2024
Source: HealthDay
Copyright © 2024 HealthDay. All rights reserved.