Laboratory assessment of a head impact sensor for youth soccer ball heading impacts using an anthropomorphic test device

Abstract: Recent advances in technology have enabled the development of instrumented equipment, which estimate the head impact kinematics of athletes in vivo. One such headband-mounted impact sensor is the SIM-G (Triax Technologies, Norwalk, CT, USA), which has been previously used to investigate the biomechanics of soccer heading by human subjects. Previous studies have evaluated the accuracy of the SIM-G for pure rotation and pendulum, impulse hammer and drop rig impacts. The current study used a soccer ball heading m… Show more

“…From the same on-field soccer head impact dataset [ 54 ], we evaluated the rate and interval between multiple headers on the field and found that at the 95th percentile, there were 6 and 4 impacts per hour for boys and girls, respectively, with an interval of 8 min. The most typical pattern for repeated impact was a single ‘high’, and 4 to 5 ‘median’ level loads.…”

Multiple Head Rotations Result in Persistent Gait Alterations in Piglets

“…From the same on-field soccer head impact dataset [ 54 ], we evaluated the rate and interval between multiple headers on the field and found that at the 95th percentile, there were 6 and 4 impacts per hour for boys and girls, respectively, with an interval of 8 min. The most typical pattern for repeated impact was a single ‘high’, and 4 to 5 ‘median’ level loads.…”

Multiple Head Rotations Result in Persistent Gait Alterations in Piglets

Quantifying head impact exposure, mechanisms and kinematics using instrumented mouthguards in female high school lacrosse