How do breakdancers avoid breaking their necks?

A term emerged in the 1980s for a spinal cord injury caused by breaking called ‘break-dancing neck.’

Author: Aliza Rudavsky on Aug 08, 2024
 
Source: The Conversation
A breaker pulls off a headspin at a nightclub in the late 1980s. Dave Hogan/Hulton Archive via Getty Images

For the first time, street dancers from 15 countries, in addition to one woman from the Refugee Olympic Team, will be competing for gold, silver and bronze, as breaking makes its debut at the 2024 Paris Olympics.

The sport has come a long way from its origins in the Bronx. But the body-contorting, mind-boggling moves that once could be seen only at playgrounds and block parties will now dazzle billions of viewers around the world.

If you’re watching breaking for the first time, you might find yourself stunned that humans can even perform these moves without getting hurt.

As a former dancer, current performing arts physical therapist and biomechanics researcher, I study how dancers twist and bend their bodies in unexpected ways. I train them so that they can safely perform, even as they push their bodies to extremes.

Breakdancers – also known as B-boys, B-girls or breakers – don’t just need to concoct creative moves. They have to develop incredible strength and body control to pull them off – perhaps none more daunting than the headspin.

Nothing routine about breaking

Breaking is a form of street dance that developed in the 1960s and 1970s, drawing from hip-hop, martial arts and gymnastics.

At the Olympics, two athletes at a time will compete in improvised battles, in which competitors take turns trying to one-up each other with their best moves and style.

A panel of judges scores the dancers based on five criteria: originality, technique, musicality, execution and vocabulary, which refers to the range of moves deployed. It’s somewhat similar to how gymnastics or figure skating are scored, but because of the back-and-forth between the two competitors, breaking involves far more improvisation.

Battles force the athletes to be extremely versatile; they must respond to their competitors, which means that those who have the most robust and varied training protocols are most likely to score the most points and walk away uninjured.

The headspin, in particular, requires powerfully built neck muscles – and might leave some spectators scratching their heads. How can breakers spin on their skulls – supporting the weight of their bodies – without snapping their necks?

The biomechanics of the headspin

While there isn’t a lot of research on the specific mechanics of headspins, a spinning top can help explain how this amazing move is pulled off.

A spinning object maintains its state of rotation due to what’s known as the conservation of angular momentum. When the object spins about a vertical axis, gravity does not act to slow it down or cause it to topple. It is only when friction slows the rotation, or the object starts to wobble, that gravity finishes that job and causes it to fall.

So, to perform a headspin, breakers must ensure they’re spinning fast enough – and ensure their torsos are rigid enough. Maintaining a uniform spin requires stacking the torso as vertically as possible on top of the head and stiffening the neck muscles to support it – all while limiting any bend or strain of the neck.

Breakers can modulate the speed of the spin by bringing their arms and legs closer in or farther away from the rotational axis. They can also stop, start or speed up by pumping their arms.

Breakers can move their arms to speed up and slow down while performing headspins.

As a breaker spins, the rotational forces can actually reduce the downward pressure on the head. There can even be some sliding and shifting across the floor via the head.

A B-boy slides across the dance floor on his head during a performance in New Orleans.

Elite B-boys and B-girls make headspinning look easy, but it puts a lot of load on the neck and can risk serious injuries.

One study showed that while breakers didn’t have more neck flexibility than nonbreakers, they did have significantly more neck strength in all neck motions and in holding the neutral position, which is critical for achieving a headspin. Another study showed that nearly half of all breakers report neck pain and strains.

There’s even a term for a spinal cord injury caused by extreme strain on the neck from breaking that was first described in the New England Journal of Medicine in 1985 called “break-dancing neck.”

So, to all those competing on the world stage for the first time, break a leg – just don’t break a neck.

Aliza Rudavsky does not work for, consult, own shares in or receive funding from any company or organization that would benefit from this article, and has disclosed no relevant affiliations beyond their academic appointment.

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