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Pathogenesis of cerebral microbleeds: In vivo imaging of amyloid and subcortical ischemic small vessel disease in 226 individuals with cognitive impairment

Authors
Park, Jae-HyunSeo, Sang WonKim, ChangsooKim, Geon HaNoh, Hyun JinKim, Sung TaeKwak, Ki-ChangYoon, UicheulLee, Jong MinLee, Jong WeonShin, Ji SooKim, Chi HunNoh, YoungCho, HannaKim, Hee JinYoon, Cindy W.Oh, Seung JunKim, Jae SeungChoe, Yearn SeongLee, Kyung-HanLee, Jae-HongEwers, MichaelWeiner, Michael W.Werring, David J.Na, Duk L.
Issue Date
May-2013
Publisher
John Wiley & Sons Inc.
Citation
Annals of Neurology, v.73, no.5, pp 584 - 593
Pages
10
Indexed
SCI
SCIE
SCOPUS
Journal Title
Annals of Neurology
Volume
73
Number
5
Start Page
584
End Page
593
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/162894
DOI
10.1002/ana.23845
ISSN
0364-5134
1531-8249
Abstract
Objective Cerebral microbleeds (CMBs) are a neuroimaging marker of small vessel disease (SVD) with relevance for understanding disease mechanisms in cerebrovascular disease, cognitive impairment, and normal aging. It is hypothesized that lobar CMBs are due to cerebral amyloid angiopathy (CAA) and deep CMBs are due to subcortical ischemic SVD. We tested this hypothesis using structural magnetic resonance imaging (MRI) markers of subcortical SVD and in vivo imaging of amyloid in patients with cognitive impairment. Methods We included 226 patients: 89 with Alzheimer disease-related cognitive impairment (ADCI) and 137 with subcortical vascular cognitive impairment (SVCI). All subjects underwent amyloid imaging with [11C] Pittsburgh compound B (PiB) positron emission tomography, and MRI to detect CMBs and markers of subcortical SVD, including the volume of white matter hyperintensities (WMH) and the number of lacunes. Results Parietal and occipital lobar CMBs counts were higher in PiB+ ADCI with moderate WMH than PiB+ ADCI with minimal WMH, whereas PiB- patients with SVCI (ie, pure SVCI) showed both lobar and deep CMBs. In multivariate analyses of the whole cohort, WMH volume and lacuna counts were positively associated with both lobar and deep CMBs, whereas amyloid burden (PiB) was only associated with lobar CMBs. There was an interaction between lacuna burden and PiB retention on lobar (but not deep) CMBs (p<0.001). Interpretation Our findings suggest that although deep CMBs are mainly linked to subcortical SVD, both subcortical SVD and amyloid-related pathologies (eg, CAA) contribute to the pathogenesis of lobar CMBs, at least in subjects with mixed lobar and deep CMBs. Furthermore, subcortical SVD and amyloid-related pathologies interact to increase the risk of lobar CMBs.
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