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Newswise Researchers at Shepherd Center are studying whether stimulating the brain before rehabilitation could yield greater gains in motor function for people recovering from stroke.
Shepherd Center is one of 12 U.S. centers participating in a clinical trial that is evaluating whether coupling navigated transcranial magnetic stimulation (TMS) of the brain with standard occupational therapy can measurably improve hand and arm function following a stroke. Experts say this approach could unlock a totally new, non-invasive treatment to promote recovery and function.
Its really a seminal study in neurorehabilitation that, if successful, will change common practices for how we take care of certain stroke patients, said Ford Vox, M.D., a physical medicine and rehabilitation physician at Shepherd Center and primary investigator for this study. We have this golden opportunity right after someone has a stroke when we know people are most likely to improve or recover function, and this therapy may offer patients the best potential.
Shepherd Center is testing a navigated brain stimulation system developed by a Finnish medical technology company called Nexstim. It uses TMS therapy to apply a mild electromagnetic current to excite the brain, a technique that can be used to both investigate the brains functions and change them. The technique is growing in popularity as a way to map the brain before surgery and as a treatment for depression. Nexstims device provides visual guidance to the operator, who uploads and correlates MRI pictures of the patients brain with the devices infrared guidance system. Then, the device creates a 3-D model of the patients brain, pinpointing the target site for stimulation in real time (called stereotactic guidance).
In this new trial, clinicians believe TMS works by slowing activity in the healthy area of the brain, which can become overly active following a stroke, causing detriment to the injured side.
By reducing brain activity on the side of the brain that was not injured, the injured side may actually have a better chance of recovery, Dr. Vox explained.
The technology is akin to a more advanced version of constraint-induced therapy in which clinicians physically tie down a patients good arm, which forces the patient to use the injured side. With Nexstims non-invasive device, researchers are using electromagnetism to slow activity in portions of the healthy brain hemisphere that control the uninjured arm, similarly forcing the brain to use its injured half.
People who have experienced a stroke often have limited resources and rehabilitation benefits, Dr. Vox noted. If initial results are confirmed, patients might be able to get that much more out of the limited time they have with therapists by using this technology.
See the article here:
Clinical Trial Tests Possible Benefits of Brain Stimulation on Hand and Arm Movement Following Stroke