Acute Changes in Plasma Total Tau Levels Are Independent of Subconcussive Head Impacts in College Football Players

• Published in: Journal of neurotrauma Vol. 35; no. 2; pp. 260 - 266
• Main Authors: Kawata, Keisuke, Rubin, Leah H, Wesley, Leroy, Lee, Jong Hyun, Sim, Thomas, Takahagi, Masahiro, Bellamy, Al, Tierney, Ryan, Langford, Dianne
• Format: Journal Article
• Language: English
• Published: United States Mary Ann Liebert, Inc 15.01.2018
• Subjects: Athletes; College football; Complications; Concussion; Convergence; Head; Head injuries; Studies; Tau protein; Traumatic brain injury; traumatic brain injury; Tau; head impact kinematics; subconcussion; biomarker
• ISSN: 0897-7151; 1557-9042
• DOI: 10.1089/neu.2017.5376

Athletes in contact sports sustain repetitive subconcussive head impacts in a brief window, yet neurophysiological sequelae from repetitive subconcussion remain unclear. This prospective longitudinal study examined a relationship between changes in plasma Tau protein levels and subconcussive impact kinematic data in 23 Division I collegiate football players during a series of pre-season practices. Plasma measures for Tau and S100β proteins, symptom scores, and near point of convergence were obtained at pre-season baseline and pre-/post-practices. During each practice, impact frequency and linear and rotational head accelerations were recorded via an accelerometer-embedded mouth guard. There were significant elevations in plasma Tau levels at all post-practice time-points, compared with those of pre-practice and baseline levels. However, the highest degree of elevation in plasma Tau was observed after the first practice, for which players sustained the lowest number of hits and magnitudes for these hits. Subconcussive impact exposure during practice (e.g., head impact frequency and magnitude) did not predict increased plasma Tau levels. Concussion history and years of football experience also were unrelated to changes in plasma Tau levels. Increases in plasma Tau levels were associated with increases in S100β levels only after the first practice. There were no significant associations between changes in Tau levels, symptom scores, or near point of convergence. These data suggest that the changes in levels of circulating Tau protein were independent of subconcussive head impact exposure, pointing to the possibility that other factors may have played roles in changes in plasma Tau levels.