Abstract
Concussion, or mild traumatic brain injury (mTBI), is a major public health concern, linked with persistent post-concussive syndrome, and chronic traumatic encephalopathy. At present, standard clinical imaging fails to reliably detect traumatic axonal injury associated with concussion and post-concussive symptoms. Diffusion tensor imaging (DTI) is an MR imaging technique that is sensitive to changes in white matter microstructure. Prior studies using DTI did not jointly investigate white matter microstructure in athletes, a population at high risk for concussive and subconcussive head traumas, with those in typical emergency room (ER) patients. In this study, we determine DTI scalar metrics in both ER patients and scholastic athletes who suffered concussions and compared them to those in age-matched healthy controls. In the early subacute post-concussion period, athletes demonstrated an elevated rate of regional decreases in axial diffusivity (AD) compared to controls. These regional decreases of AD were especially pronounced in the cerebellar peduncles, and were more frequent in athletes compared to the ER patient sample. The group differences may indicate differences in the mechanisms of the concussive impacts as well as possible compound effects of cumulative subconcussive impacts in athletes. The prevalence of white matter abnormality in cerebellar tracts lends credence to the hypothesis that post-concussive symptoms are caused by shearing of axons within an attention network mediated by the cerebellum, and warrant further study of the correlation between cerebellar DTI findings and clinical, neurocognitive, oculomotor, and vestibular outcomes in mTBI patients.
Highlights
Over 1.7 million Americans suffer a traumatic brain injury (TBI) each year [1]
No significant differences between athlete and emergency room (ER) subjects were found in the voxel-wise comparison
The present study shows early subacute post-concussion abnormalities in regional white matter microstructures in both scholastic athletes and ER patients
Summary
Moderate to severe TBI can often be diagnosed early through computed tomography (CT) and conventional magnetic resonance (MR) imaging. Concussion, or mild TBI (mTBI), makes up the great majority of TBI, but cannot be reliably detected by CT or conventional MR imaging techniques [2], which remain the standard of care. The severity of a concussive injury is assessed by clinical evaluation of symptoms [3]. Many concussed patients have symptoms including headaches, fatigue, insomnia, depression, attention problems, and memory problems [3], and while the majority recover within a few weeks, nearly a third continue to have persistent post-concussive symptoms [4,5,6]. Current assessment does not reliably predict which mTBI patients will go on to suffer post-concussive symptoms [7]; objective quantification of concussive injuries is needed
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