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Query: UMLS:C0038454 (stroke)
 147,016 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL) is a rare, inherited cause of early stroke and dementia, with a poor prognosis. This study was performed to clarify lesion appearance and pattern of lesion distribution in CADASIL. 20 members of a single family were tested for the CADASIL gene mutation and studied with cranial MRI. Scans were evaluated for lesion load and pattern of lesion distribution. 19 patients had cranial MRI, of whom 11 had normal MRI scans, were clinically unaffected and tested negative for the CADASIL gene mutation. The remaining eight patients had abnormal cranial MRI scans: seven patients were positive for the CADASIL gene mutation and one (untested) patient was severely clinically affected. Three of the patients who tested positive for the CADASIL gene mutation were clinically unaffected at the time of imaging. All eight patients with abnormal cranial MRI had subcortical white matter abnormalities, mostly in frontal and temporal lobes. Lesions involving the corpus callosum were present on sagittal T2 weighted images in four of five clinically affected and one of three clinically unaffected patients. Lesions involving the deep grey nuclei and the brain stem were common. On T1 weighted images, lesions were either poorly defined (confluent white matter hypointensity) or well defined (cystic infarcts or enlarged perivascular spaces). Atrophy was infrequent. Familiarity with the range of cranial MRI appearances may aid diagnosis of CADASIL. Recognition of cranial imaging features in asymptomatic CADASIL patients could prompt earlier diagnosis.
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PMID:Distribution of cranial MRI abnormalities in patients with symptomatic and subclinical CADASIL. 1081 40

Cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL) often begins with migraine with aura. Recurrent strokes usually appear between 30 and 50 years of age. The arteriopathy develops slowly, resulting in destruction of smooth muscle cells and thickening and fibrosis of the walls of small and medium-sized penetrating arteries with consequent narrowing of the lumen. This impairs cerebral blood flow, visible in PET, and produces characteristic white-matter hyperintensities in T2-weighted MRI on the basis of which CADASIL may be diagnosed well before the first stroke. Multiple lacunar infarcts, mainly in the frontal white matter and basal ganglia, lead to progressive permanent brain damage manifested as cognitive decline and finally as dementia. At present, no specific therapy is available. Infarcts result from thickening and fibrosis of the walls of small and medium-sized penetrating arteries with consequent obliteration and/or thrombosis. Although the symptoms are almost exclusively neurological, the arteriopathy is generalized and diagnosis can be made on the basis of accumulation of pathognomonic basophilic, PAS-positive and in electron microscopy osmiophilic material between degenerating smooth muscle cells in dermal arteries. CADASIL is caused by missense point mutations in the Notch3 gene, which encodes a transmembrane receptor protein with an important signaling function during development. The gene defects lead to either a gain or loss of a cysteine residue in the extracellular N-terminal part of the molecule, most probably causing a conformational and functional alteration. The function of Notch3 in adults and the definite pathogenesis of CADASIL are still unknown, but interestingly its intramembranous proteolytic cleavage may be regulated or implemented by presenilin similarly as cleavage of amyloid precursor protein in Alzheimer's disease.
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PMID:CADASIL: hereditary arteriopathy leading to multiple brain infarcts and dementia. 1081 16

CADASIL (cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy) is a hereditary microangiopathic condition causing stroke in young adults. The responsible gene has recently been identified as the Notch3 gene. Notch3 encodes a large transmembrane receptor with 34 extracellularly localised epidermal growth factor-like (EGF) repeat domains. We screened 71 unrelated CADASIL families for mutations in two exons coding for the first five EGF-like repeats and found mutations in 70% of the families (n = 50). Two types of mutations were identified: 48 families (96%) had missense mutations and two families (4%) had small in-frame deletions. Seven mutations occurred multiple times. All of them are C to T transitions that affect CpG dinucleotides, suggesting that their multiple occurrence is due to the hypermutability of this sequence. All mutations, including the two deletions, result in the gain or loss of a cysteine residue, thus substantiating the pivotal role of an uneven number of cysteine residues within EGF-like repeat domains of Notch3 in the pathogenesis of CADASIL. To study the potential effects of these mutations 3D homology models of the first six EGF domains were generated on the basis of NMR data from human fibrillin-1. These models predict domain misfolding for a subset of mutations.
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PMID:Small in-frame deletions and missense mutations in CADASIL: 3D models predict misfolding of Notch3 EGF-like repeat domains. 1085 11

Ischaemic stroke can be caused by a number of monogenic disorders, and in such cases stroke is frequently part of a multisystem disorder. Cerebral autosomal dominant arteriopathy with subcortical infarcts and leucoencephalopathy (CADASIL), due to mutations in the NOTCH: 3 gene, is increasingly appreciated as a cause of familial subcortical stroke. The genetics and phenotypes of monogenic stroke are covered in this review. However, the majority of cases of ischaemic stroke are multifactorial in aetiology. Strong evidence from epidemiological and animal studies has implicated genetic influences in the pathogenesis of multifactorial ischaemic stroke, but the identification of individual causative mutations remains problematic; this is in part limited by the number of approaches currently available. In addition, genetic influences are likely to be polygenic, and ischaemic stroke itself consists of a number of different phenotypes which may each have different genetic profiles. Almost all human studies to date have employed a candidate gene approach. Associations with polymorphisms in a variety of candidate genes have been investigated, including haemostatic genes, genes controlling homocysteine metabolism, the angiotensin-converting enzyme gene, and the endothelial nitric oxide synthase gene. The results of these studies, and the advantages and limitations of the candidate gene approach, are presented. The recent biological revolution, spurred by the human genome project, promises the advent of novel technologies supported by bioinformatics resources that will transform the study of polygenic disorders such as stroke. Their potential application to polygenic ischaemic stroke is discussed.
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PMID:Genetics and ischaemic stroke. 1096 44

Cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL) is a rare inherited adult onset disease characterised most commonly by cerebral ischaemic events and dementia. It is caused by mutations in the Notch3 gene with most clustering in exons 3 and 4. Whether these mutations have any influence on common sporadic ischaemic stroke or dementia cases has not been investigated, partly hampered by the lack of a readily usable genetic test. An easy to use diagnostic array for CADASIL was designed using various restriction endonucleases for the known mutations in exons 3 and 4 and novel mismatch primers were designed where no such enzymes existed. This array was used to identify the allele frequencies of CADASIL mutations and polymorphisms in selected disease cohorts. Seventy patients with radiologically established sporadic ischaemic stroke and 77 patients from a specialist young dementia clinic were recruited. One hundred and seventeen age and sex matched asymptomatic controls were also identified. The diagnostic array was found to work well. None of the 14 known mutations and three previously identified polymorphisms (C474A, A587G, and C594A) in exons 3 and 4 were present in 140 stroke, 110 dementia, or 234 control chromosomes. Molecular variant C381T occurred with a higher frequency of 0.13, whereas G684A occurred with a lower frequency (0.09) than previously reported, although there were no statistical differences between selected cohorts. In conclusion, a readily usable genetic test for CADASIL has been devised that was used to determine allele frequencies in well characterised cohorts of sporadic stroke and dementia patients. The data suggest that despite the clinical resemblance, CADASIL is not a common masquerading cause of stroke or dementia. The test will enable units locally to rapidly screen patients with suspected CADASIL.
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PMID:Description of a simple test for CADASIL disease and determination of mutation frequencies in sporadic ischaemic stroke and dementia patients. 1103 21

Notch3 mutations cause CADASIL, an increasingly recognized cause of subcortical ischemic stroke and vascular dementia in human adults. In the absence of any specific diagnostic criteria, CADASIL diagnosis is based on mutational scanning of Notch3, which is a large gene composed of 33 exons with a high G-C content. In this study we examined the sensitivity of denaturing high performance liquid chromatography (DHPLC). First we established the theoretical optimal parameters, then we examined a large collection of amplicons in which we had previously identified distinct pathogenic mutations or polymorphisms. We further performed Notch3 mutational scanning in five patients suspected of CADASIL diagnosis in which previous scanning, including SSCP and heteroduplexes analysis, failed to detect any pathogenic mutation. DHPLC resolved 97% of mutations previously detected by sequencing and allowed identification of two novel pathogenic mutations: R607C and F984C. These data indicate that DHPLC is a sensitive screening method particularly suitable for epidemio-genetic screening of CADASIL.
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PMID:Evaluation of DHPLC analysis in mutational scanning of Notch3, a gene with a high G-C content. 1110 81

CADASIL, an autosomal dominant adult onset arteriopathy causing stroke and dementia in humans, is underlaid by a non atherosclerotic non amyloid angiopathy involving mainly the media of small cerebral arteries; it is characterized by major lesions of vascular smooth muscle cells. Using a positional cloning approach, we mapped CADASIL locus on chromosome 19 and identified the mutated gene as being Notch3. This gene, previously unknown in humans, encodes for a large transmembrane receptor belonging to the Notch/lin12 gene family which are known to be involved in cell fate specification during development. Genetic analysis of more than 120 CADASIL unrelated families allowed us to show that these mutations are highly stereotyped and affect only the extra cellular domain of the protein. On the basis of these data, a molecular diagnostic test has been set up and is now widely required by clinicians involved in the diagnosis of vascular leukoencephalopathies. Using this test, we recently showed that CADASIL can also occur in patients who do not have any affected relative due to the existence of notch3 de novo mutations. As a first step to investigate the molecular and cellular mechanisms leading from Notch3 mutations to CADASIL phenotype, we analyzed by in-situ hybridization and immunohistochemistry the pattern of expression of this gene. Notch3 expression is highly restricted to the vascular smooth muscle cell in normal human adults. In CADASIL tissues there is a dramatic accumulation of the extracellular domain of the protein which suggests that one of the main mechanisms of CADASIL involves anomalies in the proteolytical cleavage and clearance of this protein. These data provide important clues to the mechanisms of this condition and current work should lead in the next future to a complete understanding of CADASIL and set up the basis of a rational therapeutical approach of this condition.
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PMID:[CADASIL: genetics and physiopathology]. 1126 Dec 57

To clarify the characteristics of CADASIL in Japan, we performed clinical and genetic investigations for six patients from 5 Japanese families diagnosed as CADASIL. We identified that the onset of focal neurologic deficits ranged from 38 to 63 years old (mean 49 +/- 9.4 yrs) and the occurrence rates of main neurologic symptoms and signs were 1/6 for migraine, 3/6 for recurrent stroke episodes, 6/6 for dementia, and 4/6 for pseudobulbar palsy. The marked narrowing of retinal arteries were observed in 3/6. The notch 3 mutations were all found in exon 4. Although other several families shared similar phenotype of CADASIL, there were no deposition of granular osmiophilic materials within the basal lamina of smooth muscle cells in the arterioles of biopsied muscle and no mutations in the cording regions of notch 3 gene. We investigated prospectively the incidence of CADASIL and CADASIL-like disease in Kumamoto district from 1999 to 2000. One thousand and thirty four patients with stroke were hospitalized in 6 hospitals which have stroke care unit. Among them, 7 patients fulfilled the criteria that were less than 60 years old, lacunar strokes and/or TIA, presence of a family history, and no risk factors such as hypertension, diabetes mellitus, and hyperlipidemia. One of seven patients was diagnosed as CADASIL by DNA analysis. It was suspected the incidences of CADASIL and CADASIL-like disease were not so rare in Japan.
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PMID:[CADASIL: clinical analysis of CADASIL and CADASIL-like disorders in Japan]. 1146 69

Cerebral amyloid angiopathy (CAA) is one of the two most common cerebral arteriopathies seen in the brains of elderly patients. The other is arteriosclerosis (AS), historically considered a consequence of chronic hypertension and also described as lipohyalinosis (LH), a clinicopathologic association that is increasingly questioned. These and other less frequently encountered degeneralions of the cerebral microvasculature (CADASIL, Binswanger subcortical leukoencephalopathy) share the common feature of degeneration of the medial smooth muscle layer within arteriolar walls. This can be dramatic in CAA, in the course of which complete replacement of medial smooth muscle by fibrillar amyloid may occur. It is a less prominent feature of CADASIL and BSLE: in the latter condition, medial smooth muscle hyperplasia, possibly a response to some kind of injury, is a more dramatic finding. In some of these "angiomyopathies", fibrinoid necrosis of the arterial wall and microaneurvsm formation may lead to stroke, manifest as cerebral hemorrhage. With CADASIL and BSLE, ischemic brain injury is more common. In the case of CAA, upregulation of the Abeta-amyloid precursor protein occurs when arteriolar smooth muscle cells in culture are exposed to prolonged hypoxia, especially with reoxygenation. Injury to arteriolar smooth muscle cells may be one mechanism by which angiomyopathies progress and become symptomatic.
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PMID:Non-CAA angiopathies and their possible interactions with cerebral amyloid angiopathy. 1167 85

We report a 26-year-old woman who showed recurrent migrainous attacks and convulsions since her childhood. Neurological examination revealed no focal abnormality except mental retardation (MR). T2-and fluid-attenuated inversion-recovery (FLAIR)-weighted brain MRI revealed apparent high intensities in the deep subcotical white matter. Ultrastructual studies revealed an abnormal deposition of granular osmiophilic materials (GOM) on the surface of vascular smooth muscle cells in dermis. Her mother developed recurrent strokes without risk factor since age 41. A heterozygosis Arg133Cys mutation of Notch 3 gene has already presented in patient and her mother. This case might be an early stage in CADASIL before stroke onset and suggested that systemic vasculopathy was presented in this stage. The correlation between MR and phenotype of CADASIL were unclear.
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PMID:[A case of CADASIL in early stage]. 1177 Nov 60


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