Cortical microinfarcts and demyelination affect cognition in cases at high risk for dementia.

OBJECTIVE: To investigate the possible synergistic effect of microvascular lesions with mild Alzheimer disease (AD) pathology in mixed cases.
METHODS: We assessed the cognitive impact of cortical microinfarcts, deep white matter and periventricular demyelination, as well as diffuse and focal gliosis in a large series of 43 prospectively evaluated autopsy cases scored Braak neurofibrillary tangle stage III, but without macroscopic vascular pathology or substantial non-AD, nonvascular microscopic lesions. We included bilateral assessment of all types of microvascular lesions and used multivariate models that control for the possible confounding effect of age and amyloid beta-protein (Abeta) deposits.
RESULTS: Only cortical microinfarcts and periventricular demyelination were significantly associated with the Clinical Dementia Rating Scale (CDR) score. In a univariate model, the cortical microinfarct score explained 9% of the variability in CDR scores and periventricular demyelination score 7.3%. Abeta deposition explained only 3.5% of the CDR variability. In a logistic regression model, both variables were strongly associated with the presence of dementia (R = 0.45; p < 0.05). When the CDR sum of the boxes was used, Abeta staging explained 8.9% of cognitive variability, the addition of cortical microinfarct predicted an extra 15.5%, and that of periventricular demyelination an extra 9%.
CONCLUSIONS: Cortical microinfarcts and, to a lesser degree, periventricular demyelination contribute to the cognitive decline in individuals at high risk for dementia. Both should be taken into account when defining the neuropathologic criteria for mixed dementia.