Dancers maximize cognitive function and muscle memory through practice.
When was the last time you went out dancing? I make a habit of going to my local dance club called the Atlantic House at least once a week. I have been dancing to DJ David LaSalle’s music in the same spot in front of a huge speaker since 1988. Some of my friends make fun of me for ‘chasing butterflies’ and acting like a fool on the dance floor. I don’t care. I know that dancing and spontaneously trying to spin like Michael Jackson is good for my brain.
While researching this blog, I pulled up some old footage of Michael Jackson spinning. He was an incredible dancer. Please take a minute to watch Michael Jackson dance here. In this video you can see how practicing a dance move like ‘spinning’ from childhood reshapes the cerebellum (down brain) and allows a dancer to create superfluidity and not get dizzy while rotating quickly.
Professional dancers don’t get dizzy. Why?
Do you feel dizzy sometimes when you stand up? Does a fear of falling prevent you from exploring the world more? If you are prone to dizziness, a new study has found that dancing may help improve your balance and make you less dizzy. In September 2013, researchers from Imperial College London reported on specific differences in the brain structure of ballet dancers that may help them avoid feeling dizzy when they perform pirouettes. You don't have to train to become a professional ballet dancer to benefit from some type of dance.
Normally, the feeling of dizziness stems from the vestibular organs in the inner ear. These fluid-filled chambers sense rotation of the head through tiny hairs that sense the fluid moving. After turning around rapidly, the fluid continues to move, which can make you feel like you're still spinning.
In dancers, both the eye reflexes and their perception of spinning lasted a shorter time than in the rowers. Sensory input evokes low-order reflexes of the cerebellum and higher-order perceptual responses of the cerebrum. Vestibular stimulation elicits vestibular-ocular reflex (VOR) and self-motion perception (e.g., vertigo) whose response durations are normally equal.
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