Abstract
Alterations of the transverse relaxation rate, R(2), measured using MRI, are observed in older persons with Alzheimer's (AD) dementia. However, the spatial pattern of these alterations and the degree to which they reflect the accumulation of common age-related neuropathologies are unknown. In this study, we characterized the profile of R(2) alterations in post-mortem brains of persons with clinical diagnosis of AD dementia and investigated how the profile differs after accounting for neuropathologic indices of AD, cerebral infarcts, Lewy body disease, hippocampal sclerosis and transactive response DNA-binding protein 43. Data came from 567 post-mortem brains donated by participants in two cohort studies of aging and dementia. R(2) was quantified using fast spin echo imaging. Voxelwise linear regression examined R(2) alterations between subjects diagnosed with AD dementia at death and those with no cognitive impairment. Voxels showing significant R(2) alterations were clustered into regions of interest (ROIs). Three R(2) profiles were compared, which were adjusted for (1) demographics only; (2) demographics and AD pathology; (3) demographics, AD pathology and other common neuropathologies. R(2) alterations were observed throughout the hemisphere, most commonly in white matter. Of the distinct ROIs identified, the largest region encompassed large portions of white matter in all lobes. This ROI became smaller in size but remained largely intact after adjusting for AD and other neuropathologic indices. Further, R(2) alterations identify AD dementia with improved accuracy, above and beyond demographics and neuropathologic indices (p<0.0001). In conclusion, R(2) alterations in AD dementia are not solely reflective of common age-related neuropathologies, suggesting that other mechanisms are at work.