“People with cerebellar abnormalities often experience motor issues,” Van Overwalle explains. “For example, they struggle to smoothly touch their nose with a finger. These difficulties highlight the cerebellum’s essential role in refining motor movements.”
However, Van Overwalle’s research extends beyond motor functions, exploring the cerebellum’s involvement in social and cognitive abilities. His findings reveal that abnormalities in the cerebellum not only lead to motor deficits but are also linked to emotional and behavioral disorders. He references research on individuals with autism, demonstrating how non-invasive brain stimulation techniques like magnetic stimulation can improve social task performance.
“We’ve seen improvements in the sequence of cognitive tasks in people with autism through magnetic stimulation,” says Van Overwalle. “We’re now testing more complex tasks to see if these effects can be further enhanced, with the ultimate goal of developing practical treatments for people with autism.”
A notable breakthrough is the use of transcranial electrical stimulation (tES), a more affordable and accessible technique compared to magnetic stimulation. While the effects of tES are still limited, the research group is committed to further development, seeing its potential for wide-scale application in the future.
This research offers a fresh perspective on the cerebellum’s role and paves the way for new treatments for psychiatric and neurological conditions, such as autism spectrum disorders. “Our hope is to refine these techniques further to improve social and cognitive functions in people with autism,” concludes Van Overwalle.