Head Trauma not Associated with Long Term Effects on Autonomic Function

Abstract

Contact-sports can elicit concussions, which impacts autonomic function, as well as elicit repetitive head trauma, where autonomic function has not yet been assessed. Purpose To determine if differences in autonomic function exist among three groups (CTRL: healthy non-contact-sport participant; RHT: repetitive head trauma contact-sport participant; CONC: previous concussion). Methods Forty men (16) and women (24), aged 18-37 (22±3), participated. Participants were grouped based on their sport and concussion history (CTRL, RHT, CONC). The participant was outfitted with equipment to evaluate heart rate, blood pressure, and cerebral-artery blood flow velocity (CBFv), as the participant performed three stimuli: deep breathing, Valsalva maneuver, and a 70° head-up tilt test. All group comparisons were analyzed using a one-way ANOVA; all data are presented as means ± standard deviation. Results The groups did not differ in respiratory sinus arrhythmia (CTRL: 22±6bpm, RHT: 21±8bpm, CONC: 19±7bpm; p=0.471), Valsalva ratio (CTRL: 2.19±0.39, RHT: 2.09±0.37, CONC: 2.00±0.47; p=0.519), CBFv (CTRL: 47.74±25.28cm/s, RHT: 40.99±10.93cm/s, CONC: 43.97±17.55cm/s; p=0.657), or tilt time (CTRL: 806.09±368.37sec, RHT: 943.07±339.54sec, CONC: 978.40±387.98sec; p=0.479). However, CONC (113.24±11.64mmHg) had a significantly higher mean systolic blood pressure during the tilt test than CTRL (102.66±7.79mmHg; p=0.026), while RHT (107.9±9.0mmHg) was not significantly different than CTRL (p=0.39) or CONC (p=0.319). Conclusion Concussions do not seem to have lasting effects on autonomic function. Overwhelmingly, dysautonomia is not present during chronic recovery from concussions or in individuals with RHT from contact-sports.