Insights into Parkinson's balance problems


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Loss of balance and falls are big concerns for people living with Parkinson’s disease and their caregivers.

Researchers at Emory and Georgia Tech recently published a paper in PLOS ONE providing insights into how sensory and motor information are misrouted when people with Parkinson’s are attempting to adjust their balance.

When the researchers examined 44 people with Parkinson’s, their history of recent falls correlated with the presence and severity of abnormal muscle reactions. This could help clinicians predict whether someone is at high risk of falling and possibly monitor responses to therapeutic interventions.

“Disorganized sensorimotor signals cause muscles in the limbs to contract, such that both a muscle promoting a motion and its antagonist muscle are recruited. It’s like stepping on the gas and the brake at the same time.”

J. Lucas McKay
People with Parkinson’s tend to lose their balance in situations when they are actively trying to control their center of mass, such as when they are getting up from a chair or turning around. Disorganized sensorimotor signals cause muscles in the limbs to contract, such that both a muscle promoting a motion and its antagonist muscle are recruited. It’s like stepping on the gas and the brake at the same time, says J. Lucas McKay, associate director of Emory’s Neuromechanics Laboratory and first author of the paper.

Physical therapists are sometimes taught that balance reactions in Parkinson’s patients are slower than they should be. “We show this is not true,” McKay says. “The reactions are on time but disorganized.”

McKay says that sensorimotor problems may be a result of degeneration of regions of the brain outside of and after the dopaminergic cells in the basal ganglia.

“We have to speculate, but the sensory misrouting would be occurring in brain regions like the thalamus—not usually the ones we think about in Parkinson’s, such as the basal ganglia,” he says. “This suggests that future therapies involving these areas could reduce falls.”

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