Lena Bronge

Postmortem MRI and histopathology of white matter changes in Alzheimer brains. A quantitative, comparative study.

To evaluate whether magnetic resonance imaging (MRI) of white matter changes in Alzheimer’s disease either under- or overestimates the findings on neuropathology. Postmortem MRI and neuropathological examination were performed on 6 brains from elderly individuals with a postmortem diagnosis of AD. Using a specially designed brain slicer, the brains were cut corresponding to the MRI images, and stained by Luxol Fast Blue. Quantitative analysis of white matter changes on MRI and neuropathology was performed using stereological principles. Measures from MRI and pathology were highly correlated (r2 = 0.71). However, pathology showed significantly more extensive changes than did MRI in all cases, with a mean of 54% larger areas. The lesions not identified with MRI represented, however, only minor changes with lower intensity of myelin staining and with an accentuation of the distance between fibres but with preserved axonal network and glial cell density.

CAN A PHYSICIAN RECOGNIZE AN OLDER DRIVER WITH INCREASED CRASH RISK POTENTIAL

OBJECTIVE: To identify factors in a medical examination that distinguish convicted older drivers with traffic violations from other drivers.

White matter lesions in Alzheimer patients are influenced by apolipoprotein E genotype

To analyse the influence of apolipoprotein E (APOE) genotype on the extent of white matter lesions (WMLs) in Alzheimer’s disease (AD), we examined 60 AD patients with magnetic resonance imaging. The WMLs were rated visually in different brain regions. The patients with the APOE genotype σ4/4 had more extensive WMLs in the deep white matter than patients with genotypes σ3/3 and σ3/4. There was a correlation with age for WMLs in the deep white matter in patients with the APOE σ3/3 genotype. In patients carrying at least one σ4 allele, the WMLs showed no age correlation. The results could imply that in APOE allele σ4 carriers, the WMLs represent a pathological process related to the aetiology of the disease.

Multiple sclerosis: a study of chemokine receptors and regulatory T cells in relation to MRI variables

Magnetic resonance imaging (MRI) remains the most valuable tool for monitoring disease activity and progression in patients with multiple sclerosis (MS), a chronic demyelinating disease of the central nervous system (CNS) with presumably autoimmune etiology. Chemokine receptors have been implicated in MS as key molecules directing inflammatory cells into the CNS. Regulatory (CD4+CD25+) T cells (Tr cells) are important in suppressing autoimmunity, and their absolute or functional deficit could be expected in MS. In the present study, venous blood was obtained from MS patients concurrent with MRI examination of the brain, and expression of chemokine receptors CCR1, CCR2, CCR5, CXCR3 and CXCR4 by CD4 T cells and monocytes, proportions of Tr cells, as well as expression of CD45RO, CD95, CTLA‐4, HLA‐DR and interleukin (IL)‐10 by Tr cells and non‐Tr (CD25−) CD4 T cells was analyzed by flow cytometry. Surface expression of CXCR3 by CD4 T cells was downregulated in the group of patients with high lesion load (LL) on T2‐weighted images and gadolinium (Gd)‐enhancing lesions on T1‐weighted images, compared to the group with high LL and no Gd‐enhancing lesions, and to the group with low LL, suggesting internalization of CXCR3 due to the release of its chemokine ligand (IP‐10/CXCL10) from active MS lesions. Proportions of Tr cells amongst all CD4 T cells, and expression of IL‐10 by Tr cells were increased in the patients with high LL and Gd‐enhancing lesions. These results suggest that there is correlation between MRI parameters, chemokine receptor expression and the status of circulating Tr cells in MS, but further studies need to discriminate between pathogenetically relevant and bystander phenomena.

Acceleration of hippocampal atrophy in a non-demented elderly population : the SNAC-K study

BACKGROUND Brain atrophy in Alzheimers disease (AD) includes not only AD-specific brain atrophy but also the atrophy induced by normal aging. Atrophy of the hippocampus has been one diagnostic marker of AD, but it was also found to emerge in healthy adults, along with increasing age. It was reported that the important age when age-related shrinkage of the hippocampus starts was around the mid-40s. The aim is to study the aging atrophy speed and acceleration of brain atrophy in a cross-sectional database, to identify the age at which acceleration of hippocampal atrophy starts in non-demented elderly persons. METHODS 544 subjects (aged 60-97 years; 318 female and 226 male) were recruited into the MRI study by using a subsample of an epidemiological sample of 3363 healthy non-demented elderly people (over 60 years of age). Hippocampus and ventricle sizes were measured. RESULTS The normalized volumes (by intracranial volume, ICV) of the hippocampus in males were smaller than those in females. The right hippocampus was larger than the left. The expansion of the lateral ventricles (2.80% per year in males, 2.95% in females) and third ventricle (1.58% and 2.28%, respectively) was more marked than the hippocampal shrinkage (0.68% and 0.79%, respectively). The suggested age at which acceleration of hippocampal atrophy starts is 72 years. CONCLUSIONS Males present smaller hippocampus volumes (normalized by ICV) than females; however, females are more vulnerable to hippocampal atrophy in a non-demented elderly population. An acceleration of hippocampal atrophy may emerge and start around 72 years of age in a non-demented elderly population.

Association between Subcortical Lesions and Behavioral and Psychological Symptoms in Patients with Alzheimer's Disease

Background/Aims: The most devastating features of Alz-heimers disease (AD) are often the behavioral and psychological symptoms in dementia (BPSD). There is controversy as to whether subcortical lesions contribute to BPSD. The aim of this study was to examine the relationship between BPSD and subcortical lesions (white-matter lesions and lacunes) in AD. Methods: CT or MRI from 259 patients with mild-to-moderate AD were assessed with the Age-Related White Matter Changes scale. Linear measures of global and temporal atrophy and Mini-Mental State Examination scores were used to adjust for AD pathology and disease severity in logistic regression models with the BPSD items delusions, hallucinations, agitation, depression, anxiety, apathy and irritability. Results: Lacunes in the left basal ganglia were asso-ciated with delusions (OR 2.57, 95% CI 1.21-5.48) and hallucinations (OR 3.33, 95% CI 1.38-8.01) and lacunes in the right basal ganglia were associated with depression (OR 2.13, 95% CI 1.01-4.51). Conclusion: Lacunes in the basal ganglia resulted in a 2- to 3-fold increased risk of delusions, hallucinations and depression, when adjusting for cognition and atrophy. This suggests that basal ganglia lesions can contribute to BPSD in patients with AD, independently of the AD process.

Medial temporal lobe is vulnerable to vascular risk factors in men: a population‐based study

Background and purpose:  Vascular risk factors (VRFs) are known to cause cerebral microvascular disease, but evidence supporting an effect of VRFs on regional brain atrophy is mixed. We investigate whether an aggregation of VRFs is associated with volume of hippocampus and entorhinal cortex in elderly people living in the community.

White matter lesions impair initiation of FAS flow.

Word fluency performance is known to rely on left frontal cortical regions and has also been shown to be affected by lesions in the white matter, which may be seen as white matter hyperintensities (WMH) on magnetic resonance imaging. However, word fluency may be divided into two independent components, initial and late performance, separated in time [J Clin Exp Neuropsychol 1998;20:137–143]. The purpose of the current study was to investigate the relationship between the two components of FAS fluency performance and WMH. Patients varying in degree of memory impairment participated: Alzheimer’s disease, mild cognitive impairment and subjective memory disorder. WMH were rated with the Scheltens scale in the periventricular and deep subcortical areas. Results demonstrated that WMH in this sample of patients may be summarized in two indices according to a principal factor analysis, one anterior factor mainly related to WMH in the frontal lobes and adjacent to ventricles, and a second posterior factor related to parietal and occipital WMH. The initial FAS performance was related to anterior WMH, in particular left frontal or lateral periventricular hyperintensities, whereas the late FAS performance was not related to any index of WMH.

Prognostic significance of white matter changes in a memory clinic population

Non-specific white matter changes (WMC) can be seen on neuroimaging of the brain in healthy elderly but are more common in dementia. WMC are correlated to specific cognitive deficits and might also contribute to global cognitive decline. The value of WMC as a predictor of cognitive impairment has been incompletely elucidated. We studied the prognostic significance of extensive WMC in a group of patients with memory disturbances, to evaluate if the presence of such changes predicts a poorer outcome. We retrospectively selected a group of 24 patients with prominent WMC on magnetic resonance imaging (MRI) and with different grades of memory impairment. We matched each patient, with regard to age, education, length of follow-up, initial score on the Mini Mental State Examination (MMSE) and initial diagnosis, to a patient without white matter pathology. The matched pairs were evaluated and the decrease in MMSE score after follow-up (range 2-4 years) was used as the outcome measure. Results showed no difference in the decrease in MMSE score at follow-up between patients with or without WMC. In conclusion, the presence of WMC in cognitively impaired patients had no effect on the progression rate of dementia, as measured by MMSE decline.

White matter lesions in dementia: an MRI study on blood-brain barrier dysfunction.

White matter lesions (WMLs) and blood-brain barrier (BBB) dysfunction are common in dementia. Both conditions may be a consequence of small-vessel disease, in which case the BBB damage would be suspected to be located to the WMLs. To further evaluate the nature of WMLs in dementia we examined 10 demented patients with WMLs, including 5 cases with elevated CSF/serum albumin ratios as an indication of BBB damage. An optimised gadolinium (Gd)-enhanced MRI technique was used including a double dose of Gd, a 30-min scan time after injection and analysis of the MR signal in the WMLs as a function over time. Results showed no significant changes in MR signal in the WMLs after contrast administration. We conclude that WMLs are not connected to BBB damage to such a degree that is detectable with this method and that the elevated CSF albumin might have another origin.