AbstractBackgroundCerebral amyloid angiopathy (CAA) is a common cause of intracerebral hemorrhage and cognitive impairment in older individuals. Hallmark manifestations of CAA on MRI include cortical hemorrhages, as well as perivascular spaces (PVS) in the white matter centrum semiovale and white matter hyperintensities (WMH) in a subcortical multi‐spot pattern. We performed an ex vivo MRI‐neuropathological study to: 1) determine the relationship between WMH volume and CAA severity, and 2) assess the histopathological substrate of confluent WMH, WMH in a multi‐spot pattern (WM_MS), and normal‐appearing white matter (NAWM).MethodNineteen autopsy cases with pathologically confirmed CAA (age 75±8y; 7F) and five non‐CAA controls (age 88±5y; 3F) were included. Formalin‐fixed hemispheres underwent 3T MRI, including a T2‐weighted (500µm isotropic resolution, to obtain manual WMH segmentations) and a T2*‐weighted sequence (1mm isotropic resolution, to automatically segment hemisphere volume using SynthSeg). After scanning, five pre‐defined standard areas were sampled from each brain, then processed to obtain manually assessed arteriolosclerosis scores and AI‐derived cortical and leptomeningeal CAA area measurements. In the CAA cases, specific areas with ex vivo MRI‐observed WM_MS (n = 7), confluent WMH (n = 9), and NAWM (n = 9) were sampled. Sections were stained with LH&E (to determine WM rarefaction, % PVS area, and degree of arteriolosclerosis), and CD68 (a marker of activated microglia, to assess density of CD68‐positive cells).ResultTotal normalized WMH volume did not differ between CAA cases (0.037±0.024) and non‐CAA controls (0.027±0.026) (Mann‐Whitney U test 36, p = 0.31). Within the CAA cases, a multivariable regression model corrected for age at death revealed that normalized WMH volume was associated with cortical CAA area (p = 0.010) and arteriolosclerosis (p = 0.066), but not leptomeningeal CAA area (p = 0.94). Targeted neuropathological assessment revealed that WM rarefaction, arteriolosclerosis score, and density of CD68‐positive cells were higher in areas with WMH compared to WM_MS and NAWM. In contrast, % PVS area was higher in WM_MS compared to WMH and NAWM.ConclusionThe observed differences in neuropathological correlates between WMH in a multi‐spot pattern and confluent WMH in CAA suggest different pathophysiological mechanisms. Future studies are needed to determine these mechanisms as well as the causal relationship between cortical CAA severity and WMH burden.