Study: Walking backward to get ahead

Study: Walking backward to get ahead

2020-06-30

Walking backward may seem counterintuitive, but to athletes in training, doing so on a treadmill builds strength and agility.

Now, a researcher with the University of Cincinnati Gardner Neuroscience Institute thinks this practice could also help patients who have experienced stroke learn to walk again.

Oluwole Awosika, MD, assistant professor in the department of neurology and rehabilitative medicine at UC and a UC Health stroke expert, is leading research examining how walking backward on a treadmill might impact sensory signaling in the brain and body to improve walking in this group of patients.

He received funding from the American Academy of Neurology ($450,000 over three years) and the National Institutes of Health ($100,000 over two years) to help continue this study.

“Despite current walking rehabilitation strategies, the majority of stroke survivors are unable to walk independently and remain at an increased risk for falls,” Awosika explains. “Backward treadmill training is a novel training approach used by elite athletes to enhance speed, agility and balance; however, it is currently unknown how this exercise interacts with the central nervous system or if it could benefit stroke survivors with remaining walking impairment.

“Knowledge gained from our study will likely lead to more effective walking rehabilitation strategies in stroke and related disorders.”

In this study, researchers will use sensors to measure training-related changes to the sensory pathways in the brain and spinal cord that affect balance and position of the body, as well as walking symmetry. These changes will be compared to study participants who are assigned to walk forward on the treadmill.

“What is known is that backwards walking exercises additional groups of muscles which are underactivated and underutilized with traditional forward walking,” he says. “The use of a treadmill produces a more challenging training, which may lead to faster results and greater cardiovascular conditioning.

“From a neuroscience perspective, we think that backward treadmill training requires continuous awareness of where the foot is in space to keep from falling during training. Therefore, it is possible that it may increase sensory responses, essential for signaling to brain regions controlling balance and walking symmetry, and may improve walking speed.”

The basis for this project originated from a pilot study led by Awosika, and funded by the Neuroscience Institute, which tested and confirmed the safety and likelihood of this rehabilitation approach. This study was published in the journal Brain Communications.

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