Correlation between White Matter Hyperintensities Related Gray Matter Volume and Cognition in Cerebral Small Vessel Disease

Abstract

Background and AimThe relationship between severity of cerebral small vessel disease, as defined by white matter hyperintensities classification, and gray matter volume of different brain regions has not been well defined. This study aimed to investigate brain regions with significant differences in gray matter volume associated with different degrees of white matter hyperintensities in patients with cerebral small vessel disease. Meanwhile, we examined whether correlations existed between gray matter volume in different brain regions and cognitive ability. Methods110 cerebral small vessel disease patients underwent 3.0T Magnetic resonance imaging scans and neuropsychological cognitive assessments. White matter hyperintensities of each subject was graded according to Fazekas grade scale and was divided into two groups: (A) White matter hyperintensities score of 1–2 points (n = 64), (B) White matter hyperintensities score of 3–6 points (n = 46). Gray matter volume was analyzed using voxel-based morphometry implemented in Statistical Parametric Mapping 12 software. ResultsBrain regions with significant differences in gray matter volume between groups were diffused throughout the brain. Patients with high white matter hyperintensities scores exhibited decreased gray matter volume in some subregions of the frontal lobes, the temporal lobes, the parahippocampal gyrus, hippocampus and thalamus (p < 0.05). Among them, gray matter volume in the ventrolateral area of right inferior temporal gyrus, together with the right posterior parietal and occipital thalamus were positively correlated with Montreal Cognitive Assessment scores (p < 0.05). Gray matter volume in the extreme ventrolateral area of right inferior temporal gyrus along with the entorhinal cortex of left parahippocampal gyrus were positively correlated with both Montreal Cognitive Assessment and Mini-Mental Status Examination scores (p < 0.05). ConclusionsCerebral small vessel disease is considered as a whole brain disease and local white matter lesions can influence the gray matter in remote areas. Reducing the severity and progression of white matter hyperintensities may help to prevent secondary brain atrophy and cognitive impairment.