Virginia Tech just released the safety ratings for 40 equestrian helmets following an initiative undertaken with funding from eventing supporter Jacqueline Mars, the U.S. Equestrian Federation, U.S. Eventing Association and the U.S. Hunter Jumper Association.
The project involves the same system Virginia Tech uses for its football helmet ratings. The best helmets get the most stars. The interesting thing is the wide variance in price among the top choices. So yes, you can afford a top-rated helmet. Click here to see where your helmet fits in.
Over the past two years, Virginia Tech researchers analyzed over 100 videos of riders falling off horses, precisely measured the hardness of the sand, dirt, grass, and synthetic surfaces underfoot at equestrian events, and dragged dummy heads and other equipment — and boxes and boxes of helmets — out to Virginia Tech’s equestrian facilities to simulate falls.
Then the team of researchers from the Department of Biomedical Engineering and Mechanics took all that data back to the lab to recreate those events in a series of controlled, quantitative tests. They used those tests to assess 40 equestrian helmets from different manufacturers. The result is the first set of equestrian helmet ratings from the Virginia Tech Helmet Lab.
If a rider’s head hits the ground in a fall, their helmet can determine whether the rider makes it through without an injury. That’s why the Helmet Lab wanted to determine which helmets perform better than others. Of the 40 models included in this initial set of ratings, two earned the top score of five stars. Eleven earned four, and the rest earned three or below. Price isn’t necessarily a predictor of quality: One of the two five-star helmets retails for $460, and the other for $58.
The ratings apply to falls that occur at all gaits, as well as jumping.
The lab’s extensive testing also shed more light on what happens during real impact in the equestrian arena and illuminated some gaps between the required safety standards these helmets have to pass before going on the market and the actual impact they’re subjected to when a rider is wearing them.
“Standards for equestrian helmets are typically based on severe impacts,” said Stefan Duma, director of the Institute for Critical Technology and Applied Science at Virginia Tech.
“What we found is that a lot of riders come off at lower velocities, and many helmets are too stiff to effectively cushion those softer impacts. The helmets that perform better are able to deal with different energy levels.”
Virginia Tech’s ratings also go beyond the existing standards by using a formula that considers the rotational acceleration that occurs when a rider’s head hits the ground, in addition to linear acceleration.
This is the lab’s ninth major ratings release since researchers began rating helmets in 2011. They have tested and rated helmets for varsity, youth, and flag football; soccer; cycling; hockey; snow sports; and whitewater sports, transforming the science of sports safety by giving athletes, parents, and coaches unbiased, quantitative data they can use to choose the safest equipment.
“With every sport we look at we go through detailed analysis to make sure that the biomechanics we’re testing relate specifically to those athletes,” said the director.
“For these ratings, we determined what the acceleration profile would look like for a rider falling on the ground. Then we take that trace and bring it into the lab and recreate it, to make sure that our testing matches what a rider would experience if they fell off a horse.”
The pendulum impactor used for the equestrian helmet testing sits in a lab space outfitted with custom-built test equipment in the basement of the headquarters of the Institute for Critical Technology and Applied Science.
When the pendulum strikes a head form protected by one of the helmets being tested, sensors inside the head form record the blow. Each helmet model was tested at three impact locations and two impact speeds that are representative of real-world falls.
T“The U.S. Equestrian Federation is not only fully committed to the welfare and protection of horses but also of our people,” said David O’Connor, chief of sport at the U.S. Equestrian Federation.
“The launch of the rating system developed through the helmet research done by the Virginia Tech Helmet Lab is an exponential step in improving equipment in the world that will reduce the risk of injuries. We are proud to have supported this research and congratulate the Virginia Tech Helmet Lab on their progressive work for the benefit of all equestrians.”