The Influence of Prior Head Injury on Late‐Life Cognition and White Matter Microstructure in Older Adults At‐Risk of Alzheimer’s disease

Abstract

AbstractBackgroundThe long‐term combined effects of mild traumatic brain injury (mTBI) and APOE ε4‐allele carrier status (APOE+/‐), a genetic risk factor of Alzheimer’s disease (AD), on cognition and white matter structural integrity in older adults at‐risk of AD is not fully understood.MethodTo investigate mTBI effects on late‐life neurobehavioural outcomes, a subsample of the PREVENT‐AD cohort was analyzed. Participants were cognitively normal adults over age 55 with a parental or multiple‐sibling history of AD. The mTBI group included individuals who self‐reported at least one prior mTBI with loss of consciousness and/or memory gap (n = 48, 33.3% APOE4+). Rey Auditory Verbal Learning Test measured immediate and delayed memory, Color‐Word Interference Test measured cognitive flexibility and inhibitory control, and Trail Making Test measured processing speed and attention.The control group included demographically‐matched (age, sex, years of education) participants from the same cohort without self‐reported mTBI (n = 62, 29.0% APOE4+). Data were analyzed using 2‐way ANOVAs with weighted means on years of education, corrected for multiple comparisons. To evaluate underlying structural differences in white matter tracts between mTBI and control groups, diffusion tensor imaging (DTI) metrics, including fractional anisotropy, axial and radial diffusivity, using the JHU‐atlas parcellation.ResultsmTBI/APOE4+ individuals performed significantly worse on cognitive outcomes of delayed recall, cognitive flexibility, and inhibitory control compared to controls; however, they performed significantly better on tests of processing speed and visual attention compared to mTBI/APOE4‐ individuals. DTI results showed that the mTBI group, compared to the control group, had significantly decreased axial diffusivity in the left internal capsule, right superior longitudinal fasciculus, and superior frontooccipital fasciculus (SFOF) (p<0.05 uncorrected). Within the mTBI group, significant positive correlation between lower processing speed and decreased axial diffusivity of SFOF, accounting for age and sex.ConclusionOur findings suggest that prior mTBI impacts cognitive aging in older adults at‐risk of AD differentially depend on APOE4 status, where APOE4+ individuals with prior mTBI had worse working memory, cognitive flexibility, and inhibitory control but better processing speed outcomes. Lower cognitive outcomes in mTBI individuals may be supported by decreased diffusivity in specific white matter tracts. These results can inform dementia prevention in these individuals.