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Journal of Neurology
Journal of Neurology
Volume 271, Issue 9 September 2024

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Anna Vasilevskaya, Chloe Anastassiadis, Maria Carmela Tartaglia

Background The long-term consequences of concussions may include pathological neurodegeneration as seen in Alzheimer’s disease (AD) and chronic traumatic encephalopathy (CTE). Tau-PET showed promise as a method to detect tau pathology of CTE, but more studies are needed Objective This study aimed (1) to assess the association of imaging evidence of tau pathology with brain volumes in retired athletes and (2) to examine the relationship between tau-PET and neuropsychological functioning.

Methods Former contact sport athletes were recruited through the Canadian Football League Alumni Association or the Canadian Concussion Centre clinic. Athletes completed MRI, [18F]flortaucipir tau-PET, and a neuropsychological battery. Memory composite was created by averaging the Rey Auditory Verbal Learning Test and Rey Visual Design Learning Test z-scores. Grey matter (GM) volumes were age/intracranial volume corrected using normal control MRIs. Tau-PET % positivity in GM was calculated as the number of positive voxels (=/+1.3 standardized uptake value ratio (SUVR)/total voxels).

Results 47 retired contact sport athletes negative for AD (age:51±14; concussions/athlete:15±2) and 54 normal controls (age:50±13) were included. Tau-PET positive voxels had significantly lower GM volumes, compared to tau-PET negative voxels (-0.37±0.41 vs.?-0.31±0.37, paired p=.006). There was a significant relationship between GM tau-PET % positivity and memory composite score (r=-.366, p=.02), controlled for age, PET scanner, and PET scan duration. There was no relationship between tau-PET measures and concussion number, or years of sport played.

Conclusion A higher tau-PET signal was associated with reduced GM volumes and lower memory scores. Tau-PET may be useful for identifying those at risk for neurodegeneration.