Abstract

ObjectivesDespite 3.8 million concussions occurring annually in the United States, the pathophysiological sequelae of the injury are still poorly understood. Animal and human studies have consistently reported deficits in cerebral blood flow (CBF) following concussion suggesting impairments in CBF regulation. Reductions in CBF are also associated with functional outcomes. The purpose of the study was to examine dynamic cerebral autoregulation (dCA) in an ongoing prospective cohort of collegiate athletes 3 days, 21 days, and 90 days following a concussion and compare them with non‐injured controls.Materials and MethodsTwenty‐seven NCAA and recreational athletes (20±1 years) with a physician diagnosed sports‐related concussions were enrolled in the study. For the injured athletes, data was collected on days 3,21, and 90 following concussion. Twenty‐five age and sports matched non‐injured controls (20±1 years) were also enrolled. For non‐injured controls, data was collected at one time point. Symptom number and severity was measured using the Sports Concussion Assessment Tool (SCAT‐3). Depression scores were assessed with Patient Health Questionnaire‐9 (PHQ‐9). Continuous mean arterial blood pressure (MBP) was obtained with finger photoplethysmography and middle cerebral artery blood flow velocity (MCAV) was obtained with a 2 MHz transcranial Doppler ultrasonography while subjects were seated in an upright position. dCA was estimated from transfer function (Tf) analysis of beat‐to‐beat spontaneous fluctuations in MBP and MCAV within the low (LF, 0.07–0.20 Hz) and high (HF, 0.20–0.35 Hz) frequency ranges. Effective dCA would attenuate spontaneous changes in MCAV in response to variations in MBP, which would correspond to relatively low transfer function gain. Independent and paired t‐tests were used to compare dCA between days 3, 21, and 90 following concussion with the non‐injured controls.ResultsCompare to the controls, concussed athletes exhibited greater symptom number on day‐3 (12.2±6.8 vs. 2.4±3.4; p<0.001) and higher PHQ‐9 score (8.7±5.6 vs. 2.1±2.1; p<0.001). LF Tf gain was higher on day‐3 (1.26±0.34U vs. 1.04±0.28U; p=0.016) compared to the controls. LF Tf gain continued to be high on day‐21 (1.30±0.45U; p=0.025) compared to the non‐injured controls despite no differences in symptoms number or depression scores between the groups. LF Tf gain was comparable to the controls on day‐90.ConclusionsDynamic cerebral autoregulation appears to be impaired at least up to 21 days following concussion despite improvement in symptom and depression. Cerebral autoregulation estimated from transcranial Doppler ultrasonography may be useful as a potential vascular biomarker for return‐to‐play decisions following a concussion preventing the risk of second‐impact syndrome.Support or Funding InformationThis work was supported by SMU University Research Council Grant, Spring 2015 & Texas Institute for Brain Injury and Repair (TIBIR) Pilot Grant 2016.This abstract is from the Experimental Biology 2018 Meeting. There is no full text article associated with this abstract published in The FASEB Journal.

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