Investigating the Biomechanical Mechanism of Concussions in Sports

Mild traumatic brain injury (mTBI), commonly known as concussion, is a major public health concern. Around 42 million of the world's population sustain mTBIs annually. In Canada, ice hockey has the highest sports concussion rates in children and youth. In British Columbia, 2.4 million dollars were spent on hospitalization for mTBI in 2010. Furthermore, recent studies have linked multiple mTBIs from sports with heightened risk of long term brain changes. Despite the prevalence, the diagnosis and prevention of this condition is currently ineffective, due to the lack of knowledge of the injury mechanism.

In the proposed research program, I aim to gain a better understanding of the mechanism of mTBI. Specifically, I will study sports-related mTBI in ice hockey athletes, and investigate the effect of head accelerations on brain function. Players will be instrumented with mouthguard sensors to measure head motion and wearable electroencephalogram (EEG) sensors to measure brain response during practices and games. From the analysis of these data, we will gain a better understanding of the cause of injury. This understanding can help develop better diagnostic and prevention technologies to improve concussion management in and beyond BC.