UMLS:C0004134 - FACTA Search

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Query: UMLS:C0004134 (ataxia)
15,886 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In our country, hereditary spinocerebellar degeneration accounted for approximately 30% of the total cases. Most of them are autosomal dominant and include more than 20 diseases. The outlines of some new members, namely autosomal dominant cortical cerebellar atrophy linked to chromosome 16 (16q-ADCCA), SCA14, an ataxia caused by FGF14 mutation and a form of neuroferritinopathy were described. The etiology of many autosomal dominant SCDs has been identified as the abnormal expansion of CAG repeat. The latter three diseases are caused by missense mutations of the causative genes, which clearly shows the presence of other new mechanisms of cerebellar degeneration than repeat expansion. 16q-ADCCA is the most frequent after Machado-Joseph disease and SCA6 according to our genetic diagnosis of 185 SCD patients. The disease is characterized by Purkinje cell degeneration and atrophy with somatic sprouts as well as the halo-like structure surrounding the soma. The halo is positive for synaptophysin. These features are so unique that 16q-ADCCA may be diagnosed by neuropathology alone.
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PMID:[Autosomal dominant spinocerebellar degeneration--new forms and pathomechanisms]. 1565 Dec 90

The dominantly inherited spinocerebellar ataxias (SCA) are a clinically and genetically heterogeneous group of neurodegenerative disorders characterized by progressive gait ataxia, upper limb incoordination, and dysarthria. We studied a six-generation kindred of Norwegian ancestry with pure cerebellar ataxia inherited in an autosomal dominant pattern. All affected family members had a slowly progressive cerebellar ataxia, with an age of onset range from 26 to 60 years. Brain magnetic resonance imaging study of 11 affected patients showed that atrophy was confined to the cerebellum. After excluding all the known SCAs using linkage analysis or direct mutation screen, we conducted a genomewide genetic linkage scan. With the aid of a novel linkage analysis strategy, we found linkage between the disease locus and marker D19S591 and D19S1034. Subsequent genetic and clinical analysis identified a critical region of 15.55cM interval on chromosome 19p13.3, flanked by markers D19S886 and D19S894, and have established a new genetic locus designated SCA26. The SCA26 locus is adjacent to the genes for Cayman ataxia and SCA6. The region consists of 3.3 million base pairs (Mb) of DNA sequences with approximately 100 known and predicted genes. Identification of the responsible gene for SCA26 ataxia will provide further insight into mechanisms of neurodegeneration.
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PMID:Spinocerebellar ataxia type 26 maps to chromosome 19p13.3 adjacent to SCA6. 1573 18

An increasing number of genetically defined types of spinocerebellar ataxia (SCA) have been reported in the past decade. Phenotype--genotype correlation studies have suggested a broad overlap between SCA types. The aim of the present study was to identify patterns of clinical features that were likely to distinguish between SCA types and to test the specificity and sensitivity of these signs and symptoms using a Bayesian classifier. In total, 127 patients from 50 families with SCA types 1 to 8 were examined using a worksheet with a panel of 33 symptoms and signs. By computing the probabilities of each trait for each SCA type, we rated the predictive value of each feature for each form of ataxia and then combined the probabilities for the entire panel of traits to construct a Bayesian classifier. Results of this analysis were summarized in a simpler, more operator-based algorithm. Patients with SCA5, SCA6, and SCA8 demonstrated a predominant cerebellar syndrome, whereas patients with SCA1, SCA2, SCA3, SCA4, and SCA7 frequently had clinical features indicating an extracerebellar involvement. The Bayesian classifier predicted the SCA type in 78% of patients with sensitivities between 60 and 100% and specificities between 94 and 98.2%. The highest sensitivity to correctly predict the true SCA type was found for SCA5, SCA7, and SCA8. Sensitivities and specificities found in the present study validate the use of algorithms to help to prioritize specific SCA gene testing, which will help to reduce costs for gene testing.
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PMID:Clinical feature profile of spinocerebellar ataxia type 1-8 predicts genetically defined subtypes. 1711

Late onset cerebellar ataxia can be caused by several genetic mutations but a large percentage of patients remain undiagnosed. Thirty-eight patients with onset of slowly progressive, pure cerebellar ataxia >or=40 years-of-age were identified from a large ataxia database. Their clinical findings and quantitative oculomotor tests were reviewed; all were screened for SCA1, SCA2, SCA3, SCA6, SCA8, SCA14, and the Fragile X premutation (FMR1). All 47 exons of CACNA1A were screened for mutations. Genetic analysis uncovered a mutation in 11 patients. The SCA6 mutation was present in 8 patients (repeats 22-23). Three additional genetic mutations were found: SCA1 (42 repeats), SCA3 (66 repeats), and SCA8 (121 repeats). Patients without identified genetic mutations were characterized by 1) a later age of onset, 2) truncal without extremity ataxia, 3) and down beat nystagmus. Although only a third of these idiopathic late onset ataxia patients had a positive family history, this homogeneous syndrome probably represents a yet to be identified genetic disorder.
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PMID:Late-onset pure cerebellar ataxia: differentiating those with and without identifiable mutations. 1610 27

Recent reports established an association of restless legs syndrome (RLS) and spinocerebellar ataxia (SCA) type 1, 2, and 3. To evaluate the contribution of SCA alleles to idiopathic RLS we investigated the CAG repeat length at the SCA1, SCA2, SCA3, SCA6, SCA7, and SCA17 loci in 215 patients who fulfilled the clinical criteria of RLS and presented periodic leg movements in sleep (PLMS) in polysomnographic recording. Fifty percent of patients had a positive family history of RLS. We found one intermediate (CAG)(43) allele for SCA17 in a 44-year-old female with RLS starting at the age of 43. Neurologic examination and family history were unremarkable in this patient. Otherwise, allele distribution did not differ between RLS patients and healthy controls. Stratification for age, age of onset, sex, peripheral neuropathy, and sporadic or familial RLS revealed no effect. Thus, CAG repeat length in the investigated genes is not a major determinant of idiopathic or familial RLS.
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PMID:CAG repeats in Restless Legs syndrome. 1638 95

Spinocerebellar degeneration (SCD) exhibits a variety of spinal and cerebullar symptoms and progress. The recent advent of molecular genetics has revealed triplet repeat mutation in the gene of SCD patients. Due to the underlying genetic defects, hereditary SCD is referred to as different spinocerebellar ataxia (SCA) genotypes. We conducted vestibular functional tests in 33 SCD patients, including 3 with SCA3 and 2 with SCA6. We compared the degree of lower extremity ataxia with the degree of oculomotor disorder by using eye tracking tests (ETT) and optokinetic pattern tests (OKP). Both SCA3 and SCA6 show high ETT score and low mean slowest phase velocity in OKP. This means that SCA3 and SCA6 tend to have oculomotor disorder precedes extremity ataxia. Oculomotor examination should thus prove to be a useful, senstive indicator in screening SCD patients from early disease onset, and in evaluating the disease progression and the effectiveness of treatment.
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PMID:[Study of oculomotor disorders in spinocerebellar ataxia genotype]. 1648 4

The present study was designed to evaluate the interaction between disequilibrium and irregular stepping components of ataxic gait. For this purpose, we compared the walking patterns of patients with cerebellar dominant multiple system atrophy (MSAc, n = 8), spinocerebellar ataxia type 6 (SCA6, n = 4) and 16q-linked autosomal dominant cortical cerebellar atrophy (16q-linked ADCA, n = 6), and 6 normal subjects, by measuring toe and heel plantar pressures. In healthy subjects, the heel contacted the floor at step-in followed by an immediate shift of the center of pressure (COP) to the contacted leg. In ataxic gait, however, both the heel and toes simultaneously contacted the floor and the disappearance of the immediate shift of the COP was noted. These changes appeared to be nonspecific compensations for the instability. Examination of two parameters of ataxia-specific changes showed that prolongation of the double support period was associated with proportionate increase in the coefficients of variance of the plantar pressures and the step lengths on walking of patients with SCA6, but not those with MSAc and 16q-linked ADCA. Our results suggest that disequilibrium and irregularity are two separate and independent components of cerebellar ataxic gait.
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PMID:Dynamic imbalance in gait ataxia. Characteristics of plantar pressure measurements. 1657 55

The molecular bases of autosomal dominant cerebellar ataxia (ADCA) have been increasingly elucidated, but 17-50% of ADCA families still remain genetically undefined in Japan. In this study we investigated 67 genetically undefined ADCA families from the Nagano prefecture, and found that 63 patients from 51 families possessed the -16C>T change in the puratrophin-1 gene, which was recently found to be pathogenic for 16q22-linked ADCA. Most patients shared a common haplotype around the puratrophin-1 gene. All patients with the -16C>T change had pure cerebellar ataxia with middle-aged or later onset. Only one patient in a large, -16C>T positive family did not have this change, but still shared a narrowed haplotype with, and was clinically indistinguishable from, the other affected family members. In Nagano, 16q22-linked ADCA appears to be much more prevalent than either SCA6 or dentatorubral-pallidoluysian atrophy (DRPLA), and may explain the high frequency of spinocerebellar ataxia.
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PMID:A -16C>T substitution in the 5' UTR of the puratrophin-1 gene is prevalent in autosomal dominant cerebellar ataxia in Nagano. 1661 95

The spinocerebellar ataxias (SCA) can be manifested in neuropsychiatric symptoms. Among 76 SCA patients presenting to a university ataxia center, depressive symptoms characterized SCA3. Memory symptoms occurred across all SCA groups with relative sparing of SCA6. These differences in neuropsychiatric symptoms suggest the subtype of SCA and the corresponding neuropathological involvement.
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PMID:Depressive and memory symptoms as presenting features of spinocerebellar ataxia. 1696 95

The aim of this study was to examine the different patterns of cerebellar and/or brainstem atrophy in spinocerebellar ataxia (SCA) type 3 and 6. Eighteen patients (SCA3 n=9, SCA6 n=9) and 15 healthy volunteers were studied. Voxel-based morphometry (VBM) was applied to segmented grey matter (GM) and white matter (WM) of high-resolution T1-weighted brain volumes of each group. We found reduction of grey matter in the pons as well as in the vermis in SCA3 as compared to control subjects. In SCA6 significant grey matter loss was found in hemispheric lobules bilaterally as well as in the vermis. White matter analysis revealed significant changes in SCA3, especially in the pons, in the white matter surrounding the dentate nucleus (DN) and in the cerebellar peduncles, whereas no significant white matter reduction was found in SCA6 patients. Our results demonstrate different patterns of grey and white matter affection detected by magnetic resonance imaging (MRI) in SCA3 and SCA6 patients, confirming the pathological concept of cortical cerebellar atrophy in SCA6. In contrast, SCA3 represents a form of ponto-cerebellar atrophy with predominant affection of pontine nuclei and fibre tracts.
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PMID:Dissociation of grey and white matter reduction in spinocerebellar ataxia type 3 and 6: a voxel-based morphometry study. 1700 21

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