Relationship between plasma homocysteine levels and brain atrophy in healthy elderly individuals

The authors examined the association of total plasma homocysteine (Hcy) levels with measures of atrophy and white matter disease on MRI scans in 36 healthy elderly individuals. Hcy had a significant positive relationship with lateral ventricle-brain ratios in the anterior (r = 0.49) and middle (r = 0.43) ventricular regions as measures of central atrophy, but not with cortical atrophy or white matter hyperintensities. In a logistic regression analysis, elevated Hcy was a significant determinant of increased anterior ventricle-brain ratio (> or =0.34) after controlling for age, folate, B12, creatinine, and white matter disease (OR = 2.3; CI, 1.03-5.09).     

White matter volumes and periventricular white matter hyperintensities in aging and dementia

OBJECTIVE: To determine the relationship between MRI periventricular white matter hyperintensities, cerebral white matter volumes, neuropathologic findings, and cognitive status in aged individuals. BACKGROUND: The significance of periventricular white matter hyperintensities seen on MR images in aged individuals remains controversial. The Nun Study is a longitudinal cohort aging study in which all 678 initially enrolled participants agreed to autopsy neuropathologic examination. METHODS: We used MRI to measure white matter volumes of the cerebral hemispheres in 52 formaldehyde-fixed brains for correlation with white matter and neocortical pathology, postmortem MRI observations, and cognitive measures. RESULTS: Reduced white matter volume is associated with dementia, but periventricular white matter hyperintensities were not related to white matter volume, stroke, or dementia. CONCLUSIONS: Our results do not support the hypothesis that periventricular hyperintensities seen on MR images have deleterious consequences in these aged individuals.     

Data from the VITA Study do not support the concept of vascular depression.

OBJECTIVE: Cerebrovascular lesions that are apparent in magnetic resonance scans and regioselective atrophy of the brain have been proposed as a causative or exacerbating factor in depression with late-life onset. The objective of this study was to investigate whether deep white matter or periventricular hyperintensities, small ischemic lesions, and brain atrophy contribute to late-onset depression in the nondemented elderly. METHOD: Based on a group of 606 individuals of identical age (75.8 years, standard deviation: 0.45 years) residing in two districts of Vienna, the authors built a case-control cohort (ratio: 1:4) consisting of 51 individuals with late-onset major or minor depression matched with 204 subjects of identical gender and education status without depression, resulting in two groups that were homogenous with respect to age, place of residence, gender, and education. Scores for focal brain lesions, mediotemporal lobe atrophy, and ventricular enlargement as well as risk factors for vascular disease were compared with cognition and depression status. RESULTS: Depressed individuals had significantly lower scores than nondepressed subjects in all measures of cognitive and executive function. No significant relation was found between a diagnosis of depression and any type of discrete brain lesions, but measures of brain atrophy (Cella Media indices, mediotemporal atrophy) showed a clear statistical relation to depression. No relationship was found between depression and lipid parameters. CONCLUSION: The authors found no indication that white matter hyperintensities or minor ischemic lesions played a role in our depressed cohort, casting doubt on the vascular hypothesis of late-onset depression.     

脑小血管病与步态障碍相关性研究进展

脑小血管病的影像改变包括脑白质高信号、腔隙性脑梗死、血管周围间隙、脑微出血、脑 萎缩等。步态障碍是脑小血管病的重要临床特征,进一步导致跌倒风险增加。脑小血管病破坏脊髓 运动系统和皮层、基底节纤维联系的完整性,同时存在视空间和执行功能障碍、抑郁状态等多种认 知或精神心理障碍,均与步态异常显著相关。在步态障碍的上述产生机制中,侧脑室周围、额叶深部 白质疏松与运动协调和认知损伤相关;腔隙性脑梗死常见于运动-认知风险人群;血管周围间隙、一 定数量的脑微出血、脑萎缩或脑灌注异常等均会导致认知损伤相关步态障碍。本文根据近期研究进 展,以不同的临床或影像特征为基础,对脑小血管病导致步态障碍的发病机制进行详细综述。     

Incidental brain lesions on magnetic resonance imaging and neurobehavioral functions in the apparently healthy elderly.

BACKGROUND AND PURPOSE: Controversies exist whether incidental neuroradiological brain lesions in the elderly are associated with depressed neuropsychological function. To address this important issue in a cross-sectional study, we related brain lesions on magnetic resonance imaging to a variety of cognitive and neurobehavioral function tests in an independent, normal elderly population. METHODS: We studied 73 independent asymptomatic elderly individuals (mean +/- SD age 70 +/- 6 years) to determine the relations between degree of brain atrophy, location and number of "lacunes," and grade of periventricular hyperintense lesions with a variety of cognitive and neurobehavioral function scores. RESULTS: We found that severity of neuroradiological changes increased while neuropsychological function scores declined with age. After adjustment for the effect of age, advanced periventricular hyperintensities, but not brain atrophy or patchy "lacunar" lesions, were associated with declines in all neuropsychological functions tested. CONCLUSION: We conclude that incidental advanced periventricular diffuse or patchy white matter changes may play a role in the development of cognitive and neurobehavioral impairments in apparently normal elderly persons.     

Pulmonary function, cognitive impairment and brain atrophy in a middle-aged community sample

OBJECTIVE: To determine the relationship of lung function to brain anatomical parameters and cognitive function and to examine the mediating factors for any relationships. METHODS: A random sub-sample of 469 persons (men = 252) aged 60-64 years from a larger community sample underwent brain magnetic resonance imaging scans and pulmonary function tests (forced vital capacity, FVC, forced expiratory volume in the first second, FEV(1)). Subjects were assessed for global cognitive function, episodic memory, working memory, information processing speed, fine motor dexterity and grip strength. The magnetic resonance imaging scans were analysed for overall brain atrophy, subcortical atrophy (ventricle-to-brain ratio, VBR), hippocampal volume, and white matter hyperintensity (WMH) volume. RESULTS: FEV(1) had a significant negative correlation with overall brain atrophy and VBR in men. The FEV(1)/FVC ratio had a significant correlation with WMHs in both men and women. In regression models that controlled for sex, age, height, level of activity, smoking, chronic respiratory disease and education, FEV(1) and FVC were significant predictors of VBR but no other structural brain measure. Pulmonary function was also significantly related to information processing speed and fine motor dexterity. Male subjects with chronic respiratory disease had more deep WMHs. Path analyses to examine if structural measures mediated between lung function and cognition, and whether markers of inflammation and oxidative stress or cortisol mediated between lung function and brain measures were negative. CONCLUSIONS: Decreased lung function is related to poorer cognitive function and increased subcortical atrophy in mid-adult life. Presence of chronic respiratory disease may be related to deep WMHs in men.     

Apolipoprotein E epsilon4 allele, temporal lobe atrophy, and white matter lesions in late-life dementias.

OBJECTIVE: To examine the relationship between the apolipoprotein E (APOE) epsilon4 genotype, medial temporal lobe atrophy, and white matter hyperintensities on magnetic resonance imaging in late-life dementias. DESIGN: Structural magnetic resonance imaging study using T2-weighted and proton density-weighted axial scans and T1-weighted coronal scans. SETTING: Community-dwelling population of elderly patients prospectively chosen from a clinical case register of consecutive referrals to old age psychiatry services. SUBJECTS: Twenty-five subjects with Alzheimer disease (by criteria of the National Institute of Neurological and Communication Disorders and Stroke and the Alzheimer's Disease and Related Disorders Association; mean age, 77.8 years), 22 subjects with dementia with Lewy bodies (consensus criteria; mean age, 77.2 years), and 24 subjects with vascular dementia (by criteria of the National Institute of Neurological Disorders and Stroke and the Association International pour la Recherche et l'Enseignement en Neurosciences; mean age, 76.9 years) were selected. Subjects were well matched for age, sex, duration of illness, and cognitive function. MAIN OUTCOME MEASURES: The APOE genotype was determined using the polymerase chain reaction method, and medial temporal lobe atrophy and white matter hyperintensities (periventricular and deep white matter) were visually rated using standardized scales. RESULTS: In all subjects with dementia, no significant associations were noted between APOE epsilon4 status and medial temporal lobe atrophy (mean score: 0 epsilon4 = 4.5, 1 epsilon4 = 4.5, and 2 epsilon4 = 4.3; P = .90), periventricular hyperintensities (0 epsilon4 = 3.3, 1 epsilon4 = 3.1, and 2 epsilon4 = 2.9; P = .83), and white matter hyperintensities (0 epsilon4 = 5.3, 1 epsilon4 = 4.9, and 2 epsilon4 = 4.9; P = .79). CONCLUSIONS: The APOE epsilon4 allele does not determine medial temporal lobe atrophy or white matter lesions, as measured by magnetic resonance imaging in patients with Alzheimer disease, vascular dementia, or dementia with Lewy bodies. Although APOE epsilon4 may modify the risk for acquiring dementia, this finding provides further evidence that APOE epsilon4 does not influence pathological processes thereafter.     

Alzheimer's disease: role of size and location of white matter changes in determining cognitive deficits

This study investigated the contribution that white matter changes (WMCs) make to clinical and cognitive features in Alzheimer's disease (AD), independently of possible confounders such as cortical atrophy and the apolipoprotein E genotype as well as their relationship to vascular risk factors. We semiquantitatively assessed the degree and location of WMCs (global, periventricular and deep white matter), lacunes and global atrophy on brain MRI scans of 86 AD cases, extensively evaluated from a clinical and neuropsychological point of view. Multivariate logistic and linear regression analysis showed that age was the only significant predictor of all WMC measures and revealed a significant association of periventricular WMCs with performance on executive function tasks as well as of deep WMCs with history of mood depression. Our results underline the significance of WMC location over size in the occurrence of specific cognitive deficits in AD.     

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

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.     

Cognitive and physiologic correlates of subclinical structural brain disease in elderly healthy control subjects

CONTEXT: Healthy elderly persons commonly show 4 types of change in brain structure-cortical atrophy, central atrophy, deep white-matter hyperintensities, and periventricular hyperintensities-as forms of subclinical structural brain disease (SSBD). OBJECTIVES: To characterize the volumes of SSBD present with aging and to determine the associations of SSBD, physiology, and cognitive function. DESIGN: Cross-sectional study. SETTING: University of California, Los Angeles, Neuropsychiatric Institute. SUBJECTS: Forty-three community-dwelling healthy control subjects, aged 60 through 93 years. MAIN OUTCOME MEASURES: Volumetric magnetic resonance imaging, neuropsychological testing, and quantitative electroencephalographic coherence (functional connectivity) between brain regions. RESULTS: Regression models demonstrated significant relationships between SSBD volumes, age, cognitive performance, and connectivity. Cortical and central atrophy and periventricular hyperintensities had significant associations with age while deep white-matter hyperintensities did not. Posterior atrophy showed stronger associations with age than did anterior atrophy. Only a subset of subjects at older ages showed large SSBD volumes; older subjects primarily showed increasing variance of SSBD. Although all subjects scored within the normal range on cognitive testing, SSBD volume was inversely related to performance, most notably on the Trail-Making Test part B and the Shipley-Hartford Abstract Reasoning test. Coherence had significant associations with SSBD. Path analysis supported mediation of the effects of deep white-matter hyperintensities and periventricular hyperintensities on cognition by altered connectivity. For several measures, cognitive performance was best explained by coherence, and only secondarily by SSBD. CONCLUSIONS: Modest volumes of SSBD were associated with decrements in cognitive performance within the normal range in healthy subjects. Lower coherence was associated with greater volumes of SSBD and increasing age. Path analysis models suggest that brain functional connectivity mediates some effects of SSBD on cognition.     

Associations of microalbuminuria with brain atrophy and white matter hyperintensities in hypertensive sibships

BACKGROUND: Because of similarities between brain and kidney microvascular disease, there may be a relationship between measures of renal microvascular disease and brain structural changes in middle aged or elderly individuals. OBJECTIVE: To determine whether the urine albumin/creatinine ratio (UACR), a measure of renal microvascular disease, is associated with brain atrophy and white matter hyperintensities. METHODS: As part of a larger study of the genetics of hypertension, we performed brain imaging and assessed microalbuminuria and other vascular risk factors including diabetes, hypertension, hyperlipidemia and hyperhomocysteinemia in 1253 individuals from hypertensive sibships (age mean 63.8 years, range 50 to 91; 65% women; 49% African-American; 78% hypertensive). Semi-automated quantitative measurements of brain atrophy (BA) ventricular volume, and white matter hyperintensities (WMH) were carried out on the brain MR scans. RESULTS: In logistic regression models, elevated UACR was associated with greater BA (odds ratio (OR)=1.70 (95% CI 1.14, 2.54) and burden of WMH (OR=2.06 (95% CI 1.37, 3.10) after controlling for demographic factors, blood glucose, hypertension severity, duration of smoking and serum homocysteine. In contrast to elevated UACR, the associations with elevated creatinine or reduced glomerular filtration rate and WMH were not significant in the fully adjusted models. CONCLUSIONS: In this cohort with an overrepresentation of hypertensives, elevated UACR was independently associated with both brain atrophy and white matter hyperintensities. Brain volume loss and WMH burden might represent expressions of microvascular disease that share common mechanisms with nephrosclerosis.     

Deep versus Periventricular White Matter Lesions and Cognitive Function in a Community Sample of Middle-Aged Participants

The association of cerebral white matter lesions (WMLs) with cognitive status is not well understood in middle-aged individuals. Our aim was to determine the specific contribution of periventricular hyperintensities (PVHs) and deep white matter hyperintensities (DWMHs) to cognitive function in a community sample of asymptomatic participants aged 50 to 65 years. One hundred stroke- and dementia-free adults completed a comprehensive neuropsychological battery and brain MRI protocol. Participants were classified according to PVH and DWMH scores (Fazekas scale). We dichotomized our sample into low grade WMLs (participants without or with mild lesions) and high grade WMLs (participants with moderate or severe lesions). Analyses were performed separately in PVH and DWMH groups. High grade DWMHs were associated with significantly lower scores in executive functioning (-0.45 standard deviations [SD]), attention (-0.42 SD), verbal fluency (-0.68 SD), visual memory (-0.52 SD), visuospatial skills (-0.79 SD), and psychomotor speed (-0.46 SD). Further analyses revealed that high grade DWMHs were also associated with a three- to fourfold increased risk of impaired scores (i.e.,<1.5 SD) in executive functioning, verbal fluency, visuospatial skills, and psychomotor speed. Our findings suggest that only DWMHs, not PVHs, are related to diminished cognitive function in middle-aged individuals. (JINS, 2012, 18, 1-12).     

Utility of simultaneous brain,CSF and hyperintensity quantification in dementia

Improved methods of quantifying MRI are needed to study brain-behavior relationships in dementia. Rating scales are variable; lesion-tracing approaches can be subjective and ignore atrophy; segmentation of MRI hyperintensities is complicated by partial volume effects; and hyperintense lesions in different anatomical areas may have different effects. The goal of this study was to extend existing segmentation approaches to include hyperintensities and to demonstrate the utility of simultaneously assessing atrophy and lesion compartments in dementia. A semi-automated method was applied to quantify brain and cerebrospinal fluid (CSF) compartments and to subclassify hyperintensities into periventricular, deep white matter, thalamic and basal ganglia compartments. Twenty MR scans from participants in an ongoing dementia study were used to generate intra- and inter-rater reliability estimates. High intra- and inter-class correlation coefficients (0.83-0.99) were obtained for all measures and the semi-automated measurements were highly correlated with traced volumes. Brain, CSF and specific lesion volumes were significantly correlated with neuropsychological functions. In models using only total hyperintensity volumes, the effects of lesion compartments (such as thalamic) were masked. Simultaneous quantification of atrophy and anatomically distinct hyperintensities is important for understanding cognitive impairments in dementia.     

The role of MRI in dementia

Neuroimaging techniques aimed at studying structural changes of the brain may provide useful information for the diagnosis and the clinical management of patients with dementia. Magnetic resonance imaging (MRI) may show abnormalities amenable to surgical treatment in a significant percentage of patients with cognitive impairment. MRI may also assist the differential diagnosis in dementia associated with metabolic or inflammatory diseases.MRI has the potential to detect focal signal abnormalities which may assist the clinical differentiation between Alzheimer's disease (AD) and vascular dementia (VaD). Severe temporal atrophy, hyperintensities involving the hippocampal or insular cortex, and gyral hypointense bands are more frequently noted in AD. Basal ganglionic/thalamic hyperintense foci, thromboembolic infarctions, confluent white matter and irregular periventricular hyperintensities are more common in VaD.The high sensitivity of MRI in detecting T2 hyperintense lesions and the low specificity off white matter lesions have resulted in a poor correlation between MRI findings and both neuropathological and clinical manifestations. In particular, MRI has disclosed a series of white matter focal changes in the elderly population, which are not necessarily associated with cognitive dysfunction.The recent advent of a new MRI method sensitive to the microstructural changes of white matter, the so-called diffusion tensor imaging, may be helpful in correlating clinical manifestations with white matter abnormalities.     

White matter hyperintensities as a predictor of neuropsychological deficits post-stroke

OBJECTIVES: Cerebral white matter hyperintensities (WMHs) on magnetic resonance imaging (MRI) are a recognised risk factor for post-stroke dementia. Their specific relations to cognitive impairment are still not well known. The purpose of this study was to explore how the severity and location of WMHs predict neuropsychological test performance in the context of other brain lesions in elderly stroke patients. METHODS: In the Helsinki Stroke Aging Memory Study, 323 patients, aged from 55 to 85 years, completed a detailed neuropsychological test battery and MRI 3 months after an ischaemic stroke. The demographic and MRI predictors of cognition were studied with sequential linear regression analyses. RESULTS: After age, education and total infarct volume were controlled for, the overall degree of WMHs predicted poor performance in tests of mental speed, executive functions, memory, and visuospatial functions, but not in those of short term memory storage or verbal conceptualisation. However, the contribution of separate white matter regions was relatively low. Only the lesions along the bodies of lateral ventricles were independently associated with speed and executive measures. Additionally, general cortical atrophy clearly predicted a wide range of cognitive deficits while infarct volume had less relevance. Further analyses revealed that executive functions act as a strong mediator between the relationship of WMHs to memory and visuospatial functions. CONCLUSIONS: The degree of WMHs is independently related to post-stroke cognitive decline. The most affected cognitive domains seem to be executive functions and speed of mental processing, which may lead to secondary deficits of memory and visuospatial functions.     

High prevalence of white matter hyperintensities in normal aging: relation to blood pressure and cognition

The occurrence of cerebral white matter hyperintensities (WMHs), and their associations with blood pressure, episodic memory, and other cognitive tasks, were examined in a population-based sample of 123 individuals between 64 and 74 years old. Magnetic Resonance Imaging (MRI) detected subcortical and periventricular hyperintensities in 90% and 67% of the cases, respectively. Subcortical WMHs were related to elevated diastolic blood pressure measured ten years earlier, and periventricular WMHs were related to elevated diastolic blood pressure measured five and ten years earlier. Subcortical hyperintensities were weakly associated with impaired motor speed, but this association was not significant. Periventricular WMHs had a negative effect on episodic memory, although the relation was not linear. Collectively, the notion that white matter hyperintensities impair cognitive function got weak support in this Swedish sample.     

White matter hyperintensities and neuropsychological outcome following carbon monoxide poisoning

BACKGROUND: Carbon monoxide (CO) poisoning may result in white matter hyperintensities (WMH) and neurocognitive impairments. OBJECTIVE: To assess in a prospective study WMH in CO-poisoned patients and their relationship to cognitive functioning. METHODS: Seventy-three consecutive CO-poisoned patients were studied. MR scans and neurocognitive tests were administered on day 1 (within 36 hours after CO poisoning), 2 weeks, and 6 months. Age- and sex-matched control subjects for white matter analyses only were obtained from the authors' normative imaging database. MR scans were rated for WMH in the periventricular and centrum semiovale regions, using a 4-point rating scale. Two independent raters rated the scans, and a consensus was reached. RESULTS: Thirty percent of CO-poisoned patients had cognitive sequelae. Twelve percent of the CO-poisoned patients had WMH, with significantly more periventricular, but not centrum semiovale, WMH than control subjects. The WMH in CO-poisoned patients did not change from day 1 to 6 months. Centrum semiovale hyperintensities were related to worse cognitive performance. Duration of loss of consciousness correlated with cognitive impairment at all three times. Initial carboxyhemoglobin levels correlated with loss of consciousness but not with WMH or cognitive sequelae. CONCLUSIONS: CO poisoning can result in brain injury manifested by WMH and cognitive sequelae. The WMH were not related to CO poisoning severity. The WMH occurred in both the periventricular and the centrum semiovale regions; however, only those in the centrum semiovale were significantly associated with cognitive impairments.     

Correlates of leukoaraiosis and ventricular enlargement on magnetic resonance imaging: a study in normal elderly and cerebrovascular patients

Several studies have repeatedly demonstrated that leukoaraiosis as well as ventricular enlargement are common findings in normal elderly and in stroke patients, although there is no general consensus on prevalence rate as well as on their clinical correlations. It is also controversial whether white matter changes and ventricular enlargement are reciprocally related. In this study we investigated the prevalence and extent of white matter hyperintensities and the degree of ventricular enlargement on magnetic resonance imaging in 50 normal elderly individuals (mean age 62.1 ± 7.3 years) and in 50 consecutive chronic ischemic stroke patients (mean age 66.1 ± 7.7 years). All subjects underwent extensive clinical assessment. White matter hyperintensities were graded from 0 to 3 on a semi-quantitative scale, while bifrontal horn, bicaudate, and third ventricle ratio indices were used as measures of brain atrophy. Hypertension, diabetes, alcohol consumption, cardiac disease, carotid pathology occurred significantly more often in patients than in controls. Prevalence rates of white matter hyperintensities were 30% in controls and 82% in patients. Patients had significantly larger ventricular indices than controls. Significant univariate correlations for the extent of white matter hyperintensities were found with age, sex, hypertension, cardiac disease, carotid pathology, diabetes, history of stroke and ventricular enlargement. Age, sex, cardiac disease, alcohol habit, cerebrovascular disease and extent of white matter hyperintensities correlated with severity of ventricular enlargement. Multivariate regression analysis identified age, hypertension and history of stroke as independent predictors of white matter hyperintensities, while history of stroke, age and alcohol consumption were found as the only independent predictors of ventricular enlargement Separate analysis between periventricular, subcortical or deep white matter hyperintensities and each of the three ventricular indices failed to show a significant association after adjustment for clinical and demographic factors. We suggest that leukoaraiosis and ventricular enlargement are independent pathological processes associated with different risk factors in addition to age and stroke disease.     

Regional white matter hyperintensity burden in automated segmentation distinguishes late-life depressed subjects from comparison subjects matched for vascular risk factors

OBJECTIVE: Segmented brain white matter hyperintensities were compared between subjects with late-life depression and age-matched subjects with similar vascular risk factor scores. Correlations between neuropsychological performance and whole brain-segmented white matter hyperintensities and white and gray matter volumes were also examined. METHOD: Eighty-three subjects with late-life depression and 32 comparison subjects underwent physical examination, psychiatric evaluation, neuropsychological testing, vascular risk factor assessment, and brain magnetic resonance imaging (MRI). Automated segmentation methods were used to compare the total brain and regional white matter hyperintensity burden between depressed patients and comparison subjects. RESULTS: Depressed patients and comparison subjects did not differ in demographic variables, including vascular risk factor, or whole brain-segmented volumes. However, depressed subjects had seven regions of greater white matter hyperintensities located in the following white matter tracts: the superior longitudinal fasciculus, fronto-occipital fasciculus, uncinate fasciculus, extreme capsule, and inferior longitudinal fasciculus. These white matter tracts underlie brain regions associated with cognitive and emotional function. In depressed patients but not comparison subjects, volumes of three of these regions correlated with executive function; whole brain white matter hyperintensities correlated with executive function; whole brain white matter correlated with episodic memory, processing speed, and executive function; and whole brain gray matter correlated with processing speed. CONCLUSIONS: These findings support the hypothesis that the strategic location of white matter hyperintensities may be critical in late-life depression. Further, the correlation of neuropsychological deficits with the volumes of whole brain white matter hyperintensities and gray and white matter in depressed subjects but not comparison subjects supports the hypothesis of an interaction between these structural brain components and depressed status.     

MRI volumetric correlates of white matter lesions in dementia with Lewy bodies and Alzheimer's disease

The aim of the study was to examine the relationship between white matter changes on magnetic resonance imaging (MRI), brain atrophy and ventricular dilation in late-life dementias. T(1)-weighted, T(2)-weighted, and proton density MRI scans were acquired in subjects with Alzheimer's disease (AD, N=25) and dementia with Lewy bodies (DLB, N=27). Total brain and ventricular volumes were measured and white matter lesions rated using a semi-quantitative scale. Periventricular hyperintensities (PVH) were found to independently correlate with advancing age and increasing ventricular dilatation in all subjects. In contrast, deep white matter hyperintensities (DWMH) did not correlate with measures of brain atrophy, ventricular dilatation or age, but were associated with a history of hypertension. These findings support the hypothesis that PVH and DWMH are pathologically diverse and that white matter change in AD and DLB may be determined by similar processes. In particular, PVH appear to be linked to atrophic processes involving ventricular enlargement and DWMH to ischaemic risk factors.