There’s this really wacky treadmill in Maryland that might be changing how we understand the brain’s control of walking. Needless to say, this is pretty exciting for offering therapy for brain injured people who’ve had trouble walking. But, at least to my way of thinking, the implications might also extend to athletic and performance instruction.
What makes the treadmill wacky is that it can go forward and backward — at the same time! Instead of one belt turning under a walker, this thing uses two, one for each leg. The belts can turn in different directions and at different speeds. Sounds like patting you head and rubbing your stomach at the same time, but volunteers participating in a study at the Kenney Krieger Institue quickly adapted to it.
In fact, they adapted so well that they couldn’t stop the odd walking pattern the treadmill had required of them, even when they got off of it. It took about 15 minutes for their brains to adapt and resume their regular walking gait.
The odd pattern of the treadmill had disrupted their brain’s walking pattern and put the new one in it’s place. And they weren’t able to consciously override it.
Researchers who conducted the treadmill study concluded that there are different and separate brain systems that control each leg during walking, and each direction, forward or backward. I understand this is contrary to the current theory of walking control.
There are some pretty exciting implications for therapy here. According to the lead author:
“The notion that we can leverage the brain’s adaptive capacity and effectively ,dial in, the patterns of movement that we want patients to learn is incredibly exciting,” said Dr. Amy Bastian, senior study author and Director of the Motion Analysis Laboratory at the Kennedy Krieger Institute. “These findings significantly enhance our understanding of motor skills, effective therapeutic approaches and the true adaptive nature of the brain.”
But I wonder if these findings might also apply to learning or refining movement-based skills, like those in athletics or performance arts. After all, the treadmill effectively completely disrupted habitual walking patterns and put new ones in their place, at least temporarily.
And here’s the key thing — this “learning” happened without conscious thinking from the treadmill walkers. No figuring out how to do a certain step, like you might do in dance class. The new pattern just happened, then went away.
How could this sort of thing be used in skills instruction? By disrupting a habitual way of performing a skill, old ways of interfering with learning new patterns would be removed automatically. Seems to me that this “new state” would be more conductive to learning a different motor pattern.
And though this new state might be temporary, it would still allow a way to actually feel what it’s like to make a certain movement without habitual ways of interfering with it. The key here would be in developing and using enough awareness during the temporary period.
This would go well beyond just getting feedback while learning. And, for sure, it would be a whole lot better than the traditional “demonstrate and imitate” method used by many instructors.
Tags: learning brain skills feldenkrais