Cerebral amyloid angiopathy is associated with higher gray matter regional R2 relaxation rate: An ex‐vivo MRI and pathology study

Abstract

AbstractBackgroundCerebral amyloid angiopathy (CAA) is characterized by accumulation of amyloid‐ß (Aß) protein in the walls of cortical and meningeal small vessels. CAA is common in older adults. It has been linked to intracerebral hemorrhage and cognitive decline. In this study, the association of CAA with the transverse relaxation rate R2 values was investigated in gray matter regions from a large number of community‐based older adults.MethodCerebral hemispheres from 802 older adults participating in four cohort studies of aging, the Rush Memory and Aging Project, the Minority Aging Research Study, the Religious Orders Study, and the Clinical Core of the Rush Alzheimer’s Disease Research Center (Fig. 1a) were included in this work. All hemispheres were imaged ex‐vivo using 3T MRI scanners. R2 maps were generated from multi‐echo spin‐echo images. Gray matter was segmented into 34 cortical and 8 subcortical regions. Median R2 values were obtained from each region. Following ex‐vivo MRI, all hemispheres underwent detailed neuropathologic assessment (Fig. 1b). Evaluated neuropathologies included: CAA, Aß plaques, neurofibrillary tangles, gross infarcts, microinfarcts, TDP‐43 pathology, hippocampal sclerosis, Lewy bodies, atherosclerosis, and arteriolosclerosis. Multiple linear regression was conducted in each segmented gray matter region separately to test the association of the corresponding median R2 value with the global CAA score, controlling for all other neuropathologies, age at death, sex, education, postmortem interval to fixation and to imaging, and scanners. False discovery rate (FDR) was used to correct for multiple comparisons. Statistical significance was set at p<0.05.ResultA significant positive association of median R2 with CAA pathology was found in several cortical regions of the temporal and frontal lobes as well as in subcortical structures (Fig. 2,3). No gray matter region showed lower median R2 for higher CAA score. Furthermore, we obtained similar findings when also controlling in the linear regression models for normalized regional volume and for clinical variables such as history of hypertension, diabetes, smoking, blood pressure levels, and the presence of the APOE‐e4 allele.ConclusionThis investigation showed that CAA is independently associated with elongated R2 in cortical regions of the temporal and frontal lobes as well as in subcortical structures.