Autosomal dominant leukoencephalopathy with mild clinical symptoms due to cerebrovascular dysfunctions: a new disease entity?

A family with cerebrovascular dysfunctions and extensive white matter lesions was presented. The proband had suffered migraine. His brother showed syncopal episodes and migraine. His mother also suffered severe migraine with aura, and had transient hemiparesis during pregnancy. Their brain MRIs, being quite similar to each other, revealed diffuse bilateral deep white matter lesions, with no changes in serial follow-up. His grandmother showed similar white matter changes on CT, consistent with autosomal dominant inheritance. Lesions were considered to be due to chronic vasogenic edema based upon increased apparent diffusion coefficient (ADC) values on diffusion-weighted imaging, normal spectrum ratio of metabolites on (1)H MR spectroscopy, and decreased regional cerebral blood flows on single-photon emission CT (SPECT). A deficiency of genetically determined factors contributing to the autoregulation of small blood vessels might possibly lead to both clinical symptoms and white matter lesions through the breakdown of the blood-brain barrier and resultant vasogenic edema. Although cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL) was suspected, neither NOTCH3 mutation nor granular osmiphilic material (GOM) in the arteriole walls were detected. Further accumulation of similar cases is necessary to establish the possibility of a new familial leukoencephalopathy.

Protective effects of Nicotiflorin on reducing memory dysfunction, energy metabolism failure and oxidative stress in multi-infarct dementia model rats

The present study aimed to determine whether Nicotiflorin, a natural flavonoid extracted from coronal of Carthamus tinctorius, has a protective effect on cerebral multi-infarct dementia in rats. The multi-infarct dementia model rats were prepared by injecting man-made micro-thrombi into the right hemisphere. The administration groups were treated once daily with 30, 60 and 120 mg/kg Nicotiflorin (i.g.) from 5 days before ischemia operation to 3 days after the operation for biochemical examination, 10 days for Morris water maze study and morphological observations and 20 days for eight-arm radial maze task. 2,3,5-triphenyltetrazolium chloride (TTC) staining showed that infarct volume of each Nicotiflorin administration group was much smaller than that of vehicle-treated multi-infarct dementia group, and hematoxylin and eosin (HE) staining showed that histopathological abnormalities of each Nicotiflorin group were also much lighter than that of vehicle-treated multi-infarct dementia group. Each Nicotiflorin group showed much better spatial memory performance in Morris water maze tests and eight-arm radial maze task compared with the vehicle-treated multi-infarct dementia group, significantly attenuated the elevation of lactic acid and malondialdehyde (MDA) contents and the decrease in lactate dehydrogenase (LDH), Na(+)K(+)ATPase, Ca(2+)Mg(2+)ATPase and superoxide dismutase (SOD) activity in the brain tissue which was composed of striatum, cortex and hippocampus of the ischemia hemisphere at day 3 after ischemia operation. These results suggest that Nicotiflorin has protective effects on reducing memory dysfunction, energy metabolism failure and oxidative stress in multi-infarct dementia model rats.

Hereditary multi-infarct dementia of the Swedish type is a novel disorder different from NOTCH3 causing CADASIL

Several hereditary small vessel diseases (SVDs) of the brain have been reported in recent years. In 1977, Sourander and Wålinder described hereditary multi-infarct dementia (MID) in a Swedish family. In the same year, Stevens and colleagues reported chronic familial vascular encephalopathy in an English family bearing a similar phenotype. These disorders have invariably been suggested to be cerebral autosomal dominant arteriopathy with subcortical infarcts and leucoencephalopathy (CADASIL) but their genetic identities remain unknown. We used molecular, radiological and neuropathological methods to characterize these disorders. Direct DNA sequencing unexpectedly confirmed that affected members of the English family carried the R141C mutation in the NOTCH3 gene diagnostic of CADASIL. However, we did not detect any pathogenic mutations in the entire 8091 bp reading frame of NOTCH3 or find clear evidence for NOTCH3 gene linkage in the Swedish DNA. This was consistent with the lack of hyperintense signals in the anterior temporal pole and external capsule in Swedish subjects upon magnetic resonance imaging. We further found no evidence for granular osmiophilic material in skin biopsy or post-mortem brain samples of affected members in the Swedish family. In addition, there was distinct lack of NOTCH3 N-terminal fragments in the cerebral microvasculature of the Swedish hereditary MID subjects compared to the intense accumulation in the English family afflicted with CADASIL. Several differences in arteriosclerotic changes in both the grey and white matter were also noted between the disorders. The sclerotic index values, density of collagen IV immunoreactivity in the microvasculature and number of perivascular macrophages were greater in the English CADASIL samples compared to those from the Swedish brains. Multiple approaches suggest that the Swedish family with hereditary MID suspected to be CADASIL has a different novel disorder with dissimilar pathological features and belongs to the growing number of genetically uncharacterized familial SVDs.

VITA study: white matter hyperintensities of vascular and degenerative origin in the elderly

The etiology of white matter hyperintensities (WMH) seen on T2-weighted cranial magnetic resonance images is a matter of debate. We investigated deep and periventricular WMH in the brains of a community-based cohort of 532 subjects aged 75-76 years. The objective of this study was to determine whether WMH at age of 75 years were associated rather with vascular factors than with degenerative factors. Arterial hypertension treated with antihypertensive drugs favored WMH, and WMH were found more frequently in subjects with focal vascular lesions. Additionally, we found significant associations between both, deep white matter and periventricular hyperintensities, and focal atrophy of medial temporal lobe structures. The odds ratio for deep WMH in subjects with more severe medial temporal atrophy was 4.4 (95%-CI: 1.9-9.8) that for periventricular hyperintensities was 3.9 (95%-CI: 1.7-8.8). These findings might indicate that not only vascular factors alone but also degenerative factors favor the occurrence of WMH after the age of 75 years.

CADASIL: a common form of hereditary arteriopathy causing brain infarcts and dementia

Cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL) is a hereditary cerebrovascular disease leading to cognitive decline and dementia. CADASIL usually begins with migraine in about one third of the patients. More severe manifestations, transient ischemic attacks or recurrent strokes, appear between 30 and 50 years of age. CADASIL, however, may be diagnosed well before the first stroke on the basis of characteristic white matter hyperintensities upon magnetic resonance imaging and presence of pathognomonic granular osmiophilic material in arterial walls, including dermal arteries, since the arteriopathy is generalized. Gradual destruction of vascular smooth muscle cells (VSMC) leads to progressive wall thickening and fibrosis and luminal narrowing in small and medium-sized penetrating arteries. The reduced cerebral blood flow finally causes lacunar infarcts, mainly in the basal ganglia and fronto-temporal white matter, which lead to cognitive deficits and dementia of the subcortical vascular type. CADASIL is caused by single missense mutations or small deletions in Notch3 gene encoding a transmembrane receptor Notch3, of which upon ligand binding a nuclear signaling protein is generated by regulated intramembrane proteolysis. Notch signaling is essential during development, regulating cellular differentiation. In adults Notch3 is expressed only in VSMCs and it may promote cell survival by inhibiting apoptosis, but its exact function is unknown. Mutations result in either a gain or loss of one (or rarely, 3) cysteine residue(s) in one of the 34 epidermal growth factor-like repeats in the extracellular amino-terminal region of Notch3. It is as yet unclear which disturbance in the Notch signaling pathway leads to the characteristic vascular pathology of CADASIL.

N-methyl-D-aspartate receptor and apoptosis in Alzheimer's disease and multiinfarct dementia

This study investigates the role of excitotoxicity in Alzheimer's disease and in multiinfarct dementia by examining, via immunohistochemical methods, the number of cells that are positive for N-methyl-D-aspartate (NMDA) receptor and the degree of colocalization between NMDA receptor and apoptosis markers such as TUNEL or activated caspase-3 in the frontal cortex of individuals with these two conditions, comparing the results with those from subjects who died of normal aging. We showed an increased number of NMDA receptor-positive cells and an increased number of TUNEL-labeled cells in the frontal cortex of subjects with Alzheimer's disease, especially in the deeper layers of the cortex. However, only about 10% of cells showed colocalization of NMDA receptor with the apoptosis markers studied, suggesting that NMDA-mediated excitotoxicity does not play a major role in neuronal apoptosis in Alzheimer's disease or in multiinfarct dementia.

Morphometry of the amygdala in patients with questionable dementia and mild dementia

The volume of the amygdala is reduced in advanced Alzheimer's disease (AD). However, there is controversy whether amygdala atrophy is present in mild AD and in the transitional phase between health and the onset of dementia. The aim of this prospective longitudinal study was to investigate whether amygdala atrophy is present in subjects with questionable dementia and mild dementia and whether amygdala volume is associated with the future rate of cognitive change, that is the annual change in the Mini Mental State Examination (MMSE). At baseline, volumes of the amygdala were measured in 97 participants aged 70-87 years (40 controls, 33 patients with questionable dementia, 24 patients with mild AD) using magnetic resonance imaging. Eighty-six participants were clinically re-examined after 2.3 years on average. At baseline, significant differences in mean amygdala volume were found between controls and participants with mild AD. There was no significant correlation between the longitudinal annual change in MMSE and the baseline amygdala volume in any of the three groups.

[The cognitive rehabilitation process in a case of bithalamic infarction]

INTRODUCTION

One of the fundamental lines followed by Neuropsychology today focuses on rehabilitation processes and their effectiveness. Cognitive rehabilitation is an eclectic process that is dependent on a number of variables. This variability makes it necessary to establish a work plan that guides the intervention carried out by professionals and also makes it clear what objectives are to be achieved, as well as the strategies and tools that must be used to reach them. The purpose of this study is to offer a practical examination of the different points that must be developed in a cognitive rehabilitation process--exemplified here in a case of bithalamic infarction.

CASE REPORT

From a single case and from the specific needs of the individual, a thorough work plan is drawn up. This plan includes a description of everything from the choice of a practical framework for intervention and its underlying principles up to the different training processes, learning techniques and tools that were used and finally proved to be effective. The efficacy and safety of the different strategies and tools used are demonstrated by the short and long term results of the different neuropsychological examinations carried out, which at the same time proved the effectiveness of the work plan that was selected for application.

CONCLUSIONS

A clear understanding of the value of the cognitive rehabilitation processes chosen for use helps to improve the way clinical work is carried out, with the common purpose of restoring neuropsychological deficits and increasing the individual's independence and quality of life.

Pathological validation of a CT-based scale for subcortical vascular disease. The OPTIMA Study

The validity of a computed tomography (CT)-based rating scale that separately rates leukoaraiosis, patchy lesions, and lacunes was tested using neuropathological findings collected on 87 subjects enrolled in the Oxford Project to Investigate Memory and Ageing. The CT-based score (range 0-64) was associated with both small vessel disease (p = 0.015) and microinfarcts (p = 0.002) on pathology. A sum score of subcortical cerebrovascular disease (CVD) on pathology was computed, 0 indicating absent/mild small vessel CVD and no microinfarcts, 1 moderate small vessel CVD or microinfarcts, and 2 and higher both conditions or severe small vessel CVD. Subjects with a sum score of 0 were decreasing with increasing severity of CT-based score (64, 46, and 25% in those with CT-based scores of 0, 1-38, and 39 and higher), while those with a sum score of 2 and higher were increasing (0, 14, and 44%; p = 0.002). A standardized assessment of subcortical CVD on CT films can be compounded into a unique score that is in good agreement with neuropathology. This supports the validity of the CT-based visual rating scale as a valid tool to detect subcortical vascular changes in elderly persons.

Cognitive Consequences of Thalamic, Basal Ganglia, and Deep White Matter Lacunes in Brain Aging and Dementia

Background and Purpose— Most previous studies addressed the cognitive impact of lacunar infarcts using radiologic correlations that are known to correlate poorly with neuropathological data. Moreover, absence of systematic bilateral assessment of vascular lesions and masking effects of Alzheimer disease pathology and macrovascular lesions may explain discrepancies among previous reports. To define the relative contribution of silent lacunes to cognitive decline, we performed a detailed analysis of lacunar and microvascular pathology in both cortical and subcortical areas of 72 elderly individuals without significant neurofibrillary tangle pathology or macrovascular lesions.

Methods— Cognitive status was assessed prospectively using the Clinical Dementia Rating (CDR) scale; neuropathological evaluation included Aβ-protein deposition staging and bilateral assessment of microvascular ischemic pathology and lacunes; statistical analysis included multivariate models controlling for age, amyloid deposits, and microvascular pathology.

Results— Thalamic and basal ganglia lacunes were negatively associated with CDR scores; cortical microinfarcts, periventricular and diffuse white matter demyelination also significantly affected cognition. In a multivariate model, cortical microinfarcts and thalamic and basal ganglia lacunes explained 22% of CDR variability; amyloid deposits and microvascular pathology explained 12%, and the assessment of thalamic and basal ganglia lacunes added an extra 17%. Deep white matter lacunes were not related to cognitive status in univariate and multivariate models.

Conclusions— In agreement with the recently proposed concept of subcortical ischemic vascular dementia, our autopsy series provides important evidence that gray matter lacunes are independent predictors of cognitive decline in elderly individuals without concomitant dementing processes such as Alzheimer disease.

Time course and sequence of pathological changes in the cerebellum of microsphere-embolized rats

Ischemia is a major cause of damage to the central nervous system as a consequence of stroke or trauma. Here, we analyzed with high temporal resolution the time course of pathological changes in the neurons (granule and Purkinje cells) and glia (Bergmann and astroglia cells) in the cerebellar cortex and white matter. The period studied ranged from 30 min to 7 days after a microsphere-induced embolism used as a model of stroke and multi-infarct dementia. Some pathological changes in the neurons in the cerebellar cortex were identified early, that is, beginning at 3 h after the microsphere-induced embolism, and glial pathology appeared only later. The pathological changes in the white matter also appeared slightly later, that is, 6 h after embolism and were less pronounced than those in the cerebellar cortex. This suggests that neuronal pathology is induced more rapidly and/or more easily than the glial pathology. In addition, BrdU staining shows that cell proliferation is limited to a 1-day period beginning about 1 day after the embolism. These data demonstrate that changes after an ischemic lesion of the cerebellum proceeds from upper cerebellar cortex to deeper cerebellar cortex or white matter and also that microsphere-induced changes proceed from neuronal to glial pathology.

Forgetting in dementia with and without subcortical lacunes

Alzheimer's disease (AD) and subcortical ischemic vascular disease (SIVD) are common causes of dementia, often co-occur, and can present quite similarly, making differential diagnosis clinically challenging. This study tested the hypothesis that patients with SIVD retain information better than AD patients. Participants were 35 dementia patients with subcortical lacunes (SIVD group), 27 dementia patients without lacunar infarction (AD group), and 56 normal controls. Results indicated that despite comparable levels of initial acquisition, AD patients showed more rapid forgetting. Further analysis indicated that memory patterns within the SIVD group were heterogeneous, with some participants exhibiting rapid forgetting and some exhibiting good retention. SIVD participants with good retention showed a trend for greater executive impairments relative to SIVD participants with rapid forgetting and AD participants. Results suggest that rapid forgetting in SIVD may imply concomitant AD, whereas the dementia in patients with good retention may be purely vascular in origin. Three SIVD patients with rapid forgetting followed to autopsy all had AD pathology, further supporting the link between memory patterns and AD.

Severe cerebral amyloid angiopathy characterizes an underestimated variant of vascular dementia

Cerebral amyloid angiopathy (CAA) is a frequent finding on neuropathological examination of patients with Alzheimer's disease (AD). A recent study from our laboratory showed that CAA also frequently occurred in vascular dementia with additional mild Alzheimer encephalopathy (VaD-ae, i.e. Alzheimer pathology that does not fulfill criteria for AD). Because CAA is associated with cerebral hemorrhages and infarctions, it is of significant interest to confirm or dismiss the hypothesis that CAA contributes clinically in the many patients that present with VaD-ae. Therefore, we examined entire temporal lobes of 11 VaD-ae cases and 11 age-matched AD cases with Abeta immunohistochemistry. Six of 11 VaD-ae cases had severe CAA, more extensive than in any AD case. There was a trend toward more cortical infarctions in this group, indicating that CAA in VaD may be of clinical importance and an underestimated cause of dementia.

Distribution pattern of Notch3 mutations suggests a gain-of-function mechanism for CADASIL

Mutations in Notch3 cause the syndrome CADASIL (cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy). The mechanism by which these mutations result in a CADASIL phenotype has been widely speculated upon. A first step toward understanding a disease mechanism is to learn whether the mutations result in the loss of Notch3 function, in particular, its role in signaling or in the gain of a novel function. Notch3 genomic sequences were analyzed for sites of conservation across species. We present here a bioinformatic analysis of the Notch paralogs and orthologs that suggest that CADASIL mutations result in a gain of function. This finding diminishes the likelihood that a Notch3 signaling deficit is responsible for the phenotype and increases the likelihood that CADASIL joins the growing list of neurological diseases with protein deposits due to misfolding and aggregation.

Migraine with aura and brain magnetic resonance imaging abnormalities in patients with CADASIL

BACKGROUND

Migraine with aura (MA) is one of the clinical hallmarks of CADASIL (cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy), a small vessel disease of the brain caused by mutations in the NOTCH3 gene, but its exact mechanisms are unknown.

OBJECTIVES

To describe the patterns of MA in CADASIL and to compare brain magnetic resonance signal abnormalities between CADASIL patients with and without MA.

DESIGN

Comparison of brain magnetic resonance signal abnormalities between cases and controls.

SETTING

Patients with CADASIL seen at Lariboisière Hospital.

PATIENTS

Forty-one CADASIL patients with MA and 31 age-matched CADASIL controls without MA.

RESULTS

The mean age at onset of MA was significantly younger in women compared with men and occurred a mean of 15 years prior to stroke onset. A majority of patients (56%) reported at least 1 migraine attack with atypical aura. All CADASIL patients either with or without MA had white matter signal abnormalities on T2-weighted imaging. There was no difference in the frequency and distribution of brain signal abnormalities between CADASIL patients with and without MA.

CONCLUSIONS

In CADASIL, MA is characterized by an unusually high frequency of attacks of migraine with atypical aura. The distribution and extent of magnetic resonance signal abnormalities did not differ according to migraine phenotype.

Subcortical angiopathic encephalopathy in a German kindred suggests an autosomal dominant disorder distinct from CADASIL

A cerebral arteriopathy with subcortical infarcts and leukoencephalopathy is described with a pedigree suggestive for an autosomal dominant condition. In contrast to the vasculopathy designated with the acronym CADASIL, no deposits of granular osmiophilic material were detected in the vasculature and no point mutations in the NOTCH 3 gene were found. The disease occurred in a family living near Hamburg, Germany, and affected 11 women and 11 men over the last six generations. Onset of the disease was between the age of 12 and 50. Clinical symptoms included gait disturbances, dysarthria, sensomotoric deficits and a progressive dementia. Migraine-like complaints and epileptic seizures were observed in one case each. Cranial computer tomography and magnetic resonance imaging scans showed large confluent areas with decreased density in the white matter and small necroses in the brain stem, the basal ganglia and the white matter. A correlation with factors predisposing for vascular diseases could not be demonstrated. In five cases an autopsy was performed which disclosed an angiopathy affecting predominantly the penetrating arteries with consecutive lacunar infarcts, diffuse demyelination and rarefication of the subcortical white matter and degeneration of the pyramidal tracts. Histologically, the vessels showed concentric and excentric intimal proliferation, an elastosis and hyalinosis, splitting of the lamina elastica interna and a degeneration of the tunica muscularis. Electron microscopy revealed fragmentation and thickening of the basal lamina but electron-dense granules characteristic for CADASIL were not detected.

Histopathological abnormalities in ocular blood vessels of CADASIL patients

PURPOSE

To assess histopathological findings in patients with cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL).

DESIGN

Case reports and histopathological evaluation of enucleated eyes.

METHODS

Four eyes from two CADASIL patients were enucleated at autopsy and prepared for histopathological analysis using light and electron microscopy.

RESULTS

Thickening of arterial walls with fibrosis, eosinophilic Periodic acid Schiff-positive basement membrane material and loss of vascular smooth muscle cells (VSMC) in the central retinal artery and its branches, the leptomeninges, the ocular adnexa, and the optic disk were observed. On electron microscopy, numerous deposits of granular, osmiophilic material in arterial walls as well as VSMC and pericyte degeneration were noted. In contrast to retinal vessels, the choroid was not affected.

CONCLUSION

Our findings suggest a differential involvement of small blood vessels in CADASIL, depending on the angioarchitecture and support autopsy data of nervous tissue describing that loss of VSMCs is most pronounced in tissues depending on blood-tissue barriers.

White matter lesion progression: a surrogate endpoint for trials in cerebral small-vessel disease

There is neuropathologic evidence that confluent MRI white matter lesions in the elderly reflect ischemic brain damage due to microangiopathy. The authors hypothesize that measuring changes in the progression of white matter lesions as shown by MRI may provide a surrogate marker in clinical trials on cerebral small-vessel disease in which the currently used primary outcomes are cognitive impairment and dementia. This hypothesis is based on evidence that confluent white matter lesions progress rapidly as shown in a recent follow-up study in community-dwelling subjects. The mean increase in lesion volume was 5.2 cm(3) after 3 years. Based on these data in a clinical trial, 195 subjects with confluent lesions would be required per treatment arm to demonstrate a 20% reduction in the rate of disease progression over a 3-year period. Like any other MRI metric, the change in white matter lesion volume cannot be considered preferable to clinical outcomes unless it has been demonstrated that it matters to the patient in terms of function.

Retinal vascular abnormalities in CADASIL

To assess retinal vascular alterations in cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy, the authors examined 10 affected individuals with ophthalmologic evaluation including fluorescence angiography. Findings included bilateral peripapillary arteriolar sheathing (30%), arteriolar narrowing (80%), and arteriovenous nicking (90%). No retinal infarcts, vascular occlusions, exudation, or hypoperfusion of affected vessels were found.

[A case of CADASIL (cerebral autosomal dominant arteriopathy with subcortical infarcts and lekoencephalopathy) with Notch 3 (Arg169Cys) mutation and typical granular osmiophilic materials in peripheral small arteries]

We report a 64-year-old Japanese woman with recurrent ischemic strokes and progressive dementia without any cardiovascular risk factors. Her first stroke was at 45 years old, and she has a family history of ischemic strokes compatible with an autosomal dominant trait. Marked leukoaraiosis and multiple lacunar infarcts were shown on brain MR images, and no atherosclerotic changes were observed in her extra- and intra-cranial arteries by cervical arterial echography and intracranial MR angiography. Excluded other inherited or metabolic diseases causing leukodystrophy by examination of her blood samples, her disease was diagnosed as CADASIL (cerebral autosomal dominant arteriopathy with subcortical infarcts and lekoencephalopathy). We demonstrated granular osmiophilic materials (GOM) on the wall of small arteries from a biopsied peripheral nerve tissue specimen and detected a mutation Arg169Cys of Notch 3 gene. Many CADASIL patients have been reported and over 28 kinds of mutations of the Notch 3 were identified in western countries, while few CADASIL patients have been reported in Japanese people. Among them, eleven CADASIL families have been reported and only five mutations (Arg133Cys, Cys174Phe, Arg213Lys, Arg90Cys and Arg141Cys) have been determined so far. The mutation of Notch 3 in our patient was determined as Arg169Cys, and this is the first report on a Japanese patient with CADASIL due to this mutation.

Rapidly progressive dementia due to bilateral internal carotid artery occlusion with infarction of the total length of the corpus callosum

The authors report a patient with rapidly progressive cognitive decline due to bilateral internal carotid artery occlusion (ICAO) resulting in multiple pathologically proven cerebral infarctions including the entire length of the corpus callosum. The gradual evolution of the deficits was suggestive of hemodynamic ischemia. Bilateral ICAO should be considered in the differential diagnosis of patients with rapidly cognitive decline. Although ICAO commonly spares the splenium, complete callosal infarction is possible in the presence of bilateral ICAO.

CADASIL or CADVaSIL?

In the present study, morphological examination of patients from two unrelated Polish families with CADASIL was performed. Using light microscopy, there were evident changes characteristic to the disease. On electron microscopy, deposits of granular osmiophillic material (GOM) were found not only in cerebral arteries and veins but also in cerebral capillaries and vessels of the internal organs. These findings indicate that pathological process in CADASIL is generalized and involves also small vessels devoid of smooth muscle cells. Therefore, we propose to consider a replacement for the name CADASIL that better reflects the morphological picture of the disease like, for example, cerebral autosomal dominant vasculopathy with subcortical infarcts and leukoencephalopathy (CADVaSIL) or, to preserve the commonly known acronym, cerebral autosomal dominant angiopathy with subcortical infarcts and leukoencephalopathy.

An Italian case of CADASIL with mutation CGC-TCG in codon 1006, exon 19 Notch3 gene

Cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL) is commonly overlooked or misdiagnosed owing to its recent identification. It is characterized clinically by recurrent cerebral infarcts, usually appearing between the ages of 30 and 50 years, subcortical dementia, and pseudobulbar palsy. It begins with migraine with aura in approximately one-third of patients. The pathological hallmark of angiopathy is the presence of characteristic granular osmiophilic material (GOM) within the basal lamina of smooth muscle cells. The defective gene in CADASIL is Notch3, which encodes a large transmembrane receptor, and 70% of missense mutations are in exons 3 and 4. Each gene defect leads to either a gain or loss of a cysteine residue in the extracellular N-terminal domain of the molecule. We report the case of a 53-year-old woman admitted to the hospital for transient ischemic attack and stroke-like episodes recurrent since age 43 years. The patient had pseudobulbar palsy, pyramidal signs, and cognitive impairment but not frank dementia. Cerebral MRI showed periventricular diffuse and confluent ischemic lesions. Ultrastructural study revealed an abnormal deposition of granular osmiophilic material (GOM) within the basal lamina in skin capillaries. Direct sequence analysis of the Notch3 gene was performed. Since no mutation was detected in exons 3 and 4, the remaining exons were sequenced and a missense mutation, CGC-TGC in codon 1006 of exon 19 was found. The mutation led to a gain of a cysteine residue. This is the first missense mutation in codon 1006 of exon 19 of the Notch3 gene to be described in Italy and the second reported in the literature.

From Binswanger's disease to leuokoaraiosis: what we have learned about subcortical vascular dementia

The literature regarding subcortical vascular dementia associated with periventricular and deep white matter alterations is reviewed. Information pertaining to neuropathological, neuropsychological, and neuroradiological studies is emphasized. Based on this review and prior neuropsychological studies associating subcortical vascular pathology with greater deficits on tests of executive dysfunction and with relatively better performance on tests of delayed recognition memory, we conclude that vascular dementia associated with periventricular and deep white matter alterations can and should be regarded as a subcortical dementing illness. Also, we support schemes suggested by Erkinjuntti et al. (2000) and Cosentino et al. (this issue) that attempt to integrate neuropsychological and neuroradiological data into a diagnostic paradigm that describes, as well as diagnoses, dementing disorders. We discuss questions and issues about vascular dementia that deserve further consideration and study.

CADASIL: new cases and new questions

We described the first two unrelated Polish families with cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL). In the morphological examination with light microscopy, two kinds of changes were observed: (1). panarteritis nodosa-like changes with eosinophilic fibrinoid necrosis of the vessel wall and perivascular inflammatory infiltrates and (2). basophilic granular material in the tunica media characteristic of CADASIL. At electron microscopy, we found deposits of granular osmophilic material (GOM) within the wall of arteries, veins and capillary vessels. Our findings imply two questions requiring further investigation: Why in the genetically determined vascular disorder are the features of systemic inflammatory vascular disease present? Why in capillary walls deprived of smooth muscle cells are deposits of GOM present?

Cerebral arterial pathology of CADASIL and CARASIL (Maeda syndrome)

Two familial cerebro-vascular diseases characterized by different cerebral arterial pathologies and presenting in non-hypertensive young and middle-aged adults are described. Cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL) is characterized by the deposition of smudged periodic acid-Schiff (PAS)-positive granules known as granular osmiophilic materials (GOM) in the media of small arteries and arterioles. The medial smooth muscle cells are completely lost, and intense adventitial fibrosis is present. Cerebral autosomal recessive arteriopathy with subcortical infarcts and leukoencephalopathy (CARASIL), or Maeda syndrome, is characterized by intense arteriolosclerosis without GOM deposition. Fibrous intimal proliferation, hyaline degeneration of the media, thickening and splitting of the internal elastic lamina, and concentric narrowing of the lumen are characteristic features. In PAS preparation, small arteries are occasionally stained homogeneously due to exudative changes, but never exhibit granular appearance in CARASIL (Maeda syndrome). Each of the small arterial changes is intense in the cerebral medullary and leptomeningeal arteries, leading to multifocal, confluent, or diffuse ischemic changes in the cerebrum. The authors suggest that CARASIL be referred to as 'Maeda syndrome' or 'CARASIL (Maeda syndrome)' to avoid confusion with CADASIL.

[Familial non-Alzheimer dementia]

This is an abstract of my lecture on familial non-Alzheimer dementia. 1. Vascular dementia 1) Cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL) is characterized by autosomal dominant inheritance, smooth muscle cell degeneration and granular osmiophilic material (GOM) in arterioles, and Notch 3 mutations. 2) CARASIL This is an autosomal recessive vascular dementia with unknown etiology. 3) Familial amyloid angiopathy Familial cerebral hemorrhage and dementia is caused by mutations in amyloid precursor protein, cystatin c, and Bri genes. 2. Familial non-Alzheimer degenerative dementia 1) Dementia with Lewy bodies This is characterized by Alzheimer like dementia, visual hallucination and diffuse Lewy bodies which are formed by ubiquitinated alpha-synuclein. Occasionally, familial forms are reported, but gene mutations are unknown. 2) Frontotemporal dementia (FTD) FTDP-17 is characterized by tau mutations, character and personal changes, and disinhibition. The gene mutations were also found in familial forms of Pick's disease, corticobasal degeneration, and other tauopathies. 3) Familial British dementia (FBD), familial Danish dementia (FDD) FBD and FDD are characterized by Abri amyloid deposits, amyloid angiopathy and dementia. Mutations in Bri gene are reported. 4) Familial encephalopathy with neuroserpin inclusion bodies (FENIB) FENIB is characterized by dementia, Collins body and neuroserpin gene mutation.

Glycohistochemical characterization of vascular muscle cell destruction in CADASIL subjects by lectins, neoglycoconjugates and galectin-specific antibodies

CADASIL (Cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy) is a type of small-artery stroke and vascular dementia-inducing pathology of the brain. In order to explain the molecular mechanisms behind the alterations to the blood vessels in CADASIL subjects, we scrutinized the expression of glycan and glycan-binding sites in the wall of vessels taken from five such subjects (vs. five control subjects matched for age and sex). Specimens were taken from the brain, heart, kidney, liver and lung. Although the main vessel lesions were observed in the tissues depending on the blood-brain barrier, alterations to systemic vessels were also observed despite the absence of any symptoms. The histochemical expression of a panel of 10 biotinylated neoglycoconjugates [Gal-beta(1-4)-D-Glc, Galbeta(1-3)GalNAc, alpha-D-GalNAc, beta-D-GalNAc, GalNAcalpha(1-3)-D-GalNAcalpha, GalNAcalpha(1-3)-D-GalNAcbeta, beta-D-Glc, alpha-D-Man, l-Fucose and D-Glcalpha(1-4)-D-Glc], eight plant lectins (PNA, MAA, SNA, DBA, WGA, ConA, GNA and UEA-1) and two antigalectin antibodies was monitored by means of semiquantitative and quantitative computer-assisted microscopy. The data show the altered histochemical binding of plant lectins, such as UEA-1 and ConA, in the vessel walls of CADASIL subjects. The present work, based upon staining by a panel of neoglycoconjugates, provides a biochemical characterization of the alteration of vessel walls in the brain compared to other organs including the heart, kidney, lung and liver in CADASIL as opposed to control subjects. These glycohistochemical results suggest a functional relevance of protein-carbohydrate interactions in this disease.

Evaluation of diagnostic NOTCH3 immunostaining in CADASIL

CADASIL is caused by mutations in the NOTCH3 gene. Although increasingly recognized as a disease entity, the diagnostic confirmation can be lengthy or inconclusive. Recently, NOTCH3 immunostaining of skin biopsy specimens has been introduced as a new diagnostic test. The aim of this study was to independently assess the diagnostic value of NOTCH3 immunostaining, and determine whether the degree of immunostaining correlates with other disease parameters. We determined NOTCH3 mutation carrier status in 62 symptomatic and asymptomatic individuals from 15 CADASIL families. Skin biopsy specimens of these individuals, as well as of a disease control group, were immunostained with NOTCH3 antibody and blindly analyzed by two independent observers to determine sensitivity and specificity. A semiquantitative NOTCH3 immunostaining score was correlated with clinical, genetic and MRI parameters. The sensitivity was 90.2% and 85.4%, respectively, for the two observers, the specificity 95.2% and 100%; both lower than previously reported. Certain NOTCH3 mutations may underlie false-negative results. False-positive results were found in a non-mutated control, and also in one disease control. There was no difference in immunostaining between symptomatic and asymptomatic NOTCH3 mutated individuals. Furthermore, the NOTCH3 immunostaining score did not correlate with clinical or MRI parameters. NOTCH3 immunostaining is a supportive, but not definitive, CADASIL diagnostic test, and should be interpreted in the context of clinical and radiological data. Confirmation by DNA analysis is requisite for positive results, and when there exists high clinical suspicion, also for negative results.

Coexistence of CADASIL and Alzheimer's disease

Cerebral autosomal dominant arteriopathy with subcortical infarcts and leucoencephalopathy (CADASIL) is caused by point mutations in the Notch3 gene. Presenilins are proteins involved in the cleaving of both Notch and the amyloid precursor protein (APP). In cases of early onset Alzheimer's disease mutations of the presenilin genes (PSEN 1 and PSEN 2) and APP can be found. A 64 year old patient with CADASIL (R169C-mutation) is reported, who, in addition to subcortical infarcts and granular osmiophilic deposits, had numerous senile plaques and neurofibrillary tangles on pathological examination. Mutations in the APP, PSEN1, and PSEN2 genes were not identified. Neuropathological findings of Alzheimer's disease may be found in CADASIL patients.

Cerebral hemodynamics and white matter hyperintensities in CADASIL

Cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL) is a hereditary small-vessel disease caused by mutations in the NOTCH3 gene on chromosome 19. On magnetic resonance imaging (MRI), subcortical white matter hyperintensities and lacunar infarcts are visualized. It is unknown whether a decrease in cerebral blood flow or cerebrovascular reactivity is primarily responsible for the development of white matter hyperintensities and lacunar infarcts. The authors used phase-contrast MRI in 40 NOTCH3 mutation carriers (mean age 45 +/- 10 years) and 22 nonmutated family members (mean age 39 +/- 12 years), to assess baseline total cerebral blood flow (TCBF) and cerebrovascular reactivity after acetazolamide. Mean baseline TCBF was significantly decreased in NOTCH3 mutation carriers. In young subjects, baseline TCBF was significantly lower than in nonmutation carriers (mean difference 124 mL/min). Furthermore, baseline TCBF did not differ significantly between mutation carriers with minimal and mutation carriers with moderate or severe white matter hyperintensities. No significant difference in mean cerebrovascular reactivity was found between mutation carriers and nonmutation carriers. This study suggests that a decrease in baseline TCBF in NOTCH3 mutation carriers precedes the development of white matter hyperintensities.

[CADASIL: a case with clinical, radiological, histological and genetic diagnoses]

Cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL) is a rare inherited cerebrovascular disease. The onset of clinical symptoms occurs with migraine with aura, transient ischemic attacks, recurrent subcortical ischemic infarcts, neuropsychiatric changes reaching subcortical dementia. Brain magnetic resonance images show multiple deep cerebral infarcts in white matter and basal ganglia and diffuse leukoencephalopathy. Neuropathologic hallmark consists of deposition of small electron dense granular patches related to the basement membrane of vascular smooth muscle cells with degeneration of smooth muscle cells and media and luminal obliteration. Recently, the genetic characteristics of this disorder have been reported. Missense mutations in notch3 gene localized in chromosome 19 are involved in its pathogenesis. Only three families from Spain have been reported. Here we describe a patient with typical clinical symptoms, neuroimaging and pathology of CADASIL. C406T (Arg110Cys) mutation in notch3 gene was found. We comment on the clinical symptoms of different members of the patient's family.

Cholinergic denervation in a pure multi-infarct state: observations on CADASIL

Circumstantial evidence suggests that vascular dementia (VaD) may be associated with cholinergic denervation. The specificity of this association has been difficult to assess because many of the patients are elderly and have the additional cholinergic lesions of aging and AD. A patient with cerebral autosomal-dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL) who died at age 36 showed that pure white matter infarcts, similar to those seen in VaD, can cause cortical cholinergic denervation, but in patterns that vary from those seen in AD.

The vascular lesions in vascular and mixed dementia: the weight of functional neuroanatomy

Vascular dementia appears rarer than previously thought, but the contribution of vascular lesions to cognitive impairment in Alzheimer's disease (AD) affected patients (mixed dementias) is now recognized as frequent. The role of strategic areas of the brain involved in the cognitive decline induced by vascular lesions and their relative contributions to the severity of the dementing process remain poorly understood. We determined the relationship between the severity of clinical dementia and the volume of different brain areas affected by infarcts in a prospective clinicopathological study in elderly patients. A volumetric study of the functional zones of Mesulam's human brain map affected by vascular lesions was made and correlations between quantified neuropathological data and the severity of dementia were performed in cases with large vascular lesions only, pure AD, and both lesions. The severity of cognitive impairment was significantly correlated with the total volume of infarcts but in a multi-variate model the volume destroyed in the limbic and heteromodal association areas, including the frontal cortex and in the white matter explained 50% of the variability in MMSE and GDS. The total volume of ischemic lesions explained only 0.1-5% of the variability in MMSE and GDS. Age only explained an extra of 0.1-1.6%. This study confirms that infarcts located in strategic areas have a role in the mechanism of cognitive impairment and brings a key for their quantification. It may be useful for developing neuropathological criteria in multi-infarct and mixed dementias.

A novel mutation (C67Y)in the NOTCH3 gene in a Korean CADASIL patient

We report a 52-yr-old Korean woman with cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL) whose diagnosis was confirmed by skin biopsy and the presence of a novel mutation in the NOTCH3 gene. The patient's clinical features were rather unusual in that 1) clinical presentations were only two episodes of stroke and mild dementia unaccompanied by mood disturbances or migraine, and 2) there was no family history. Brain MRI showed T2 hyperintensities in both temporal pole areas in line with the recent suggestion by O'Sullivan et al. that the abnormality could be a radiologic marker of CADASIL. FDG-PET also showed a hypometabolism in the temporal pole areas with an abnormal finding on MRI in addition to the hypometabolism in cortical and subcortical regions. We could learn from this case that CADASIL may be included in the differential diagnoses in patients with vascular dementia associated with a small vessel disease, even in the absence of a family history, especially when there are no known stroke risk factors and when the MRI shows T2 hyperintensity in the temporal pole regions.

Frequency of white matter lesions and silent lacunar infarcts

White matter lesions and silent lacunar infarcts are related to and may result from cerebral small vessel disease. Reported frequencies of these lesions vary largely among studies. Differences in imaging techniques, rating scales, cut-off points in lesion severity grading and study populations contribute to the variation, in addition to differences in risk factor profiles across studies. In this paper, we will firstly discuss general methodological issues that may influence reported frequencies of white matter lesions and silent lacunar infarctions, and then review published data. We will focus on the results from population-based studies and only briefly comment on patient series of stroke and dementia.

Transgenic mice expressing mutant Notch3 develop vascular alterations characteristic of cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy

Cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL) is an increasingly recognized adult-onset autosomal dominant vascular dementia, caused by highly stereotyped mutations in the Notch3 receptor. CADASIL is a widespread angiopathy characterized by a degeneration of vascular smooth muscle cells (VSMCs) and the abnormal accumulation of electron-dense granular material called GOM and Notch3 protein, because of an impaired clearance. Evidence that VSMCs are the primary target of the pathogenic process is supported by the restricted expression of Notch3 in these cells but mechanisms of their degeneration remain essentially unknown. We generated transgenic mice in which the SM22alpha promoter drove, in VSMCs, the expression of a full-length human Notch3 carrying the Arg90Cys mutation, a CADASIL archetypal mutation. Transgenic mice showed no evidence of prominent brain parenchyma damage but demonstrated the two hallmarks of the CADASIL angiopathy, GOM deposits and Notch3 accumulation, within both the cerebral and peripheral arteries. Of interest, arteries of the tail were more severely affected with prominent signs of VSMC degeneration. Time-course analysis of vessel changes revealed that disruption of normal VSMC anchorage to adjacent extracellular matrix and cells, VSMC cytoskeleton changes as well as starting signs of VSMC degeneration, which were detected around 10 months of age, preceded Notch3 and GOM accumulation appearance, which were observed only by 14 to 16 months of age. In conclusion, we have generated transgenic mice that recapitulate the characteristic vascular lesions observed in CADASIL. Our results indicate that Notch3 or GOM accumulation are unlikely to be the prerequisites for the induction of VSMC degeneration and suggest that degeneration of VSMCs may rather be triggered by the disruption of their normal anchorage, based on the important role of adhesion for cell survival.

Vascular dementia

Vascular dementia (VaD) is a term used to describe a particular constellation of cognitive and functional impairment, and is now generally seen as a subset of the larger syndrome of vascular cognitive impairment (VCI). The latter is seen as cognitive impairment in the face of cerebrovascular disease. VCI can be classified clinically by whether patients meet criteria for dementia, and whether the syndrome is distinct or overlaps with primary neurodegenerative diseases, such as Alzheimer's disease. This clinical classification can be further classified by neuroimaging, with subgroups that show cortical infarction, subcortical infarction and white matter changes, each alone or in combination. Understood in this way, VCI is likely the most common form of cognitive impairment in the population. Attempts to treat VaD had varying degrees of success, but it now appears that many forms of VCI might be preventable, especially with good control of vascular risk factors in middle age.

Cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy: phenotypic and mutational spectrum

Mutations in NOTCH3 are the cause of cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL) an inherited small vessel disease leading to subcortical strokes and dementia. Since the vascular pathology is clearly defined, CADASIL may provide important insights into the mechanisms underlying lacunar infarcts, ischemic white matter changes, and vascular dementia. Evidence from different sources suggests a central role for vascular smooth muscle cells (VSMC) in the pathophysiology of the disease. This article gives a brief overview on the phenotypic spectrum of the disease and discusses some of the relevant disease mechanisms that lead from Notch3 mutations to ischemic infarcts.

Clinical Features of CADASIL

Cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL) is a rare hereditary disease characterized by recurrent transient ischemic attacks, strokes, and vascular dementia. Various mutations in the Notch3 gene cause the disease, whereas the mechanism of how they cause the disorder remains unknown. We recently identified two Japanese CADASIL families with an R141C mutation. The mean age of onset was 44.6, and the main symptoms were recurrent strokes and progressive motor disturbances in extremities, as well as pseudobulbar palsy. Besides those in white matter and basal ganglia, ischemic lesions in temporal edge and corpus callosum were present on magnetic resonance images, which seemed to be characteristic of CADASIL. Moreover, in our cases, nocturnal arterial blood pressure fall was significantly lower in patients compared with control subjects, suggesting that it might be partly associated with ischemic lesions in deep white matter in CADASIL. We also compared Japanese and Caucasian CADASIL cases and found that dementia and pseudobulbar palsy were observed more frequently in Japanese patients, although typical migraine was rather rare. In the present study, we describe the clinical features of CADASIL, hoping to help reveal the mechanism of chronic ischemic brain diseases, including leukoaraiosis or Binswanger's disease.

Applications of diffusion-weighted and diffusion tensor MRI to white matter diseases - a review

This paper reviews the current applications of diffusion-weighted and diffusion tensor MRI in diseases of the brain white matter. The contribution that diffusion-weighted imaging has made to our understanding of white matter diseases is critically appraised. The quantitative nature of diffusion MRI is one of its major attractions; however, this is offset by the more advanced hardware required to collect diffusion-weighted images reliably, and the more complex processing to produce quantitative parametric diffusion images. With the now common availability of scanners equipped to perform echo-planar imaging, the acquisition of diffusion tensor images is sure to become more widespread and routine.