World Rugby welcomes largest-ever head impact study in community game
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The study used smart mouthguard technology to measure 17,000 head acceleration events in 328 male players from under 12s to top-grade community rugby.
PHOTO: REUTERS
SYDNEY – World Rugby chief Bill Beaumont has welcomed the largest-ever study of the impact of collisions on the heads of players, as proof that the game is serious about becoming a global leader in athlete welfare.
It used smart mouthguard technology, which will be obligatory in training and matches in elite rugby from 2024, to measure 17,000 head acceleration events in 328 male players from under-12s to top-grade community rugby.
The peer-reviewed report showed that 94 per cent of the g-forces experienced by players were lower than those measured on people jumping on trampolines.
Most of the incidences where higher g-forces were experienced were the result of poor tackle or rucking technique, the study said.
“Using the latest research and technology is at the heart of our six-point plan to make rugby the most progressive sport in the world on player welfare,” Beaumont said in a statement on Monday.
“These studies are concrete proof that World Rugby is putting our time, energy and efforts to back up our words and the insights gained are already helping us make evidence-led moves to make the sport even safer.”
A rash of lawsuits from former players, who say they suffered brain injuries from repeated concussions sustained while playing rugby, present a major threat to the finances of the game. There are also fears that rugby union’s physicality might deter parents from allowing children to take it up.
The Otago Community Head Impact Detection study was a joint project between World Rugby, Prevent Biometrics, New Zealand Rugby (NZR), Otago Rugby and the University of Otago.
“This marks a positive beginning in developing a comprehensive understanding of head impacts in rugby, especially those leading to higher magnitude events,” said NZR’s concussion research scientist Janelle Romanchuk, who co-led the study.
“With this data, we can delve deeper into areas of the game where we can reduce or minimise risks, such as lowering the tackle height or prioritising good technique for both the ball carrier and tackler.”
An extension study on head impacts in elite men and women’s rugby conducted in partnership with Ulster University and England’s Premiership Rugby was also released on Monday.
It concluded that most contacts do not result in significant force to the head and that forwards were more likely to experience the higher head impact events than backs. REUTERS
