The relationship between directional components of dynamic response and maximum principal strain for impacts to an American football helmet

Abstract: Impact parameters used to design the American football helmet and the parameters associated with mechanisms of concussive injury are not consistent. Head impacts resulting in concussive injury in football are characterized as events creating rotational motion of the head that generate brain tissue strain. The extent of tissue strain influences the resulting severity of injury. Helmet technology aimed to decrease brain tissue strain by reducing the extent of brain motion could help reduce injury risk. Current h… Show more

“…These findings correlate with prior studies that have also found a relationship between impact location and brain strain. 17,[37][38][39] For example, Tiernan and Byrne 39 found that lateral impacts resulted in greater corpus collosum strain and frontal impacts result in greater mid brain strain, when the same kinematic measures were impacted at each location. Additionally, Miller et al 17 also found that impacts to the side had higher peak rotational velocity, VSM, M95T compared to the front.…”

Head Impact Kinematics and Brain Deformation in Paired Opposing Youth Football Players

“…These findings correlate with prior studies that have also found a relationship between impact location and brain strain. 17,[37][38][39] For example, Tiernan and Byrne 39 found that lateral impacts resulted in greater corpus collosum strain and frontal impacts result in greater mid brain strain, when the same kinematic measures were impacted at each location. Additionally, Miller et al 17 also found that impacts to the side had higher peak rotational velocity, VSM, M95T compared to the front.…”

Head Impact Kinematics and Brain Deformation in Paired Opposing Youth Football Players