Elif Gokcal1, Mitchell J Horn1, Susanne J van Veluw1, Aina Frau-Pascual1, Alvin S Das1, Marco Pasi1, Panagiotis Fotiadis1, Andrew D Warren1, Kristin Schwab1, Jonathan Rosand1, Anand Viswanathan1, Jonathan R Polimeni1, Steven M Greenberg1, M Edip Gurol2. 1. From the J. Philip Kistler Hemorrhagic Stroke Research Program, Department of Neurology (E.G., M.J.H., S.J.v.V., M.P., P.F., A.D.W., K.S., J.R., A.V., S.M.G., M.E.G.), Massachusetts General Hospital Stroke Research Center, Harvard Medical School, Boston; Athinoula A. Martinos Center for Biomedical Imaging (A.F.-P., J.R.P.), Charlestown; Department of Neurology (A.S.D.), Massachusetts General Hospital, Boston; and Department of Neurology, Stroke Unit (M.P.), Univ-Lille, Inserm U1171, CHU Lille, France. 2. From the J. Philip Kistler Hemorrhagic Stroke Research Program, Department of Neurology (E.G., M.J.H., S.J.v.V., M.P., P.F., A.D.W., K.S., J.R., A.V., S.M.G., M.E.G.), Massachusetts General Hospital Stroke Research Center, Harvard Medical School, Boston; Athinoula A. Martinos Center for Biomedical Imaging (A.F.-P., J.R.P.), Charlestown; Department of Neurology (A.S.D.), Massachusetts General Hospital, Boston; and Department of Neurology, Stroke Unit (M.P.), Univ-Lille, Inserm U1171, CHU Lille, France. edip@mail.harvard.edu edip@mgh.harvard.edu.
Abstract
OBJECTIVE: To analyze the relationship of lacunes with cortical cerebral microinfarcts (CMIs), to assess their association with vascular dysfunction, and to evaluate their effect on the risk of incident intracerebral hemorrhage (ICH) in cerebral amyloid angiopathy (CAA). METHODS: The count and topography of lacunes (deep/lobar), CMIs, and white matter hyperintensity (WMH) volume were retrospectively analyzed in a prospectively enrolled CAA cohort that underwent high-resolution research MRIs. The relationship of lacunes with CMIs and other CAA-related markers including time to peak (TTP) of blood oxygen level-dependent signal, an established measure of vascular dysfunction, was evaluated in multivariate models. Adjusted Cox regression models were used to investigate the relationship between lacunes and incident ICH. RESULTS: The cohort consisted of 122 patients with probable CAA without dementia (mean age, 69.4 ± 7.6 years). Lacunes were present in 31 patients (25.4%); all but one were located in lobar regions. Cortical CMIs were more common in patients with lacunes compared to patients without lacunes (51.6% vs 20.9%, p = 0.002). TTP was not associated with either lacunes or CMIs (both p > 0.2) but longer TTP response independently correlated with higher WMH volume (p = 0.001). Lacunes were associated with increased ICH risk in univariate and multivariate Cox regression models (p = 0.048 and p = 0.026, respectively). CONCLUSIONS: Our findings show a high prevalence of lobar lacunes, frequently coexisting with CMIs in CAA, suggesting that these 2 lesion types may be part of a common spectrum of CAA-related infarcts. Lacunes were not related to vascular dysfunction but predicted incident ICH, favoring severe focal vessel involvement rather than global ischemia as their mechanism.
OBJECTIVE: To analyze the relationship of lacunes with cortical cerebral microinfarcts (CMIs), to assess their association with vascular dysfunction, and to evaluate their effect on the risk of incident intracerebral hemorrhage (ICH) in cerebral amyloid angiopathy (CAA). METHODS: The count and topography of lacunes (deep/lobar), CMIs, and white matter hyperintensity (WMH) volume were retrospectively analyzed in a prospectively enrolled CAA cohort that underwent high-resolution research MRIs. The relationship of lacunes with CMIs and other CAA-related markers including time to peak (TTP) of blood oxygen level-dependent signal, an established measure of vascular dysfunction, was evaluated in multivariate models. Adjusted Cox regression models were used to investigate the relationship between lacunes and incident ICH. RESULTS: The cohort consisted of 122 patients with probable CAA without dementia (mean age, 69.4 ± 7.6 years). Lacunes were present in 31 patients (25.4%); all but one were located in lobar regions. Cortical CMIs were more common in patients with lacunes compared to patients without lacunes (51.6% vs 20.9%, p = 0.002). TTP was not associated with either lacunes or CMIs (both p > 0.2) but longer TTP response independently correlated with higher WMH volume (p = 0.001). Lacunes were associated with increased ICH risk in univariate and multivariate Cox regression models (p = 0.048 and p = 0.026, respectively). CONCLUSIONS: Our findings show a high prevalence of lobar lacunes, frequently coexisting with CMIs in CAA, suggesting that these 2 lesion types may be part of a common spectrum of CAA-related infarcts. Lacunes were not related to vascular dysfunction but predicted incident ICH, favoring severe focal vessel involvement rather than global ischemia as their mechanism.
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