Leukocyte glutamate dehydrogenase and CSF amino acids in late onset ataxias
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Abstract Leukocyte glutamate dehydrogenase (GDH) activity was measured in 11 healthy control subjects, 16 neurological controls, 12 patients with dominant late onset ataxia, 15 with sporadic late onset ataxia and 8 with alcoholic cerebellar ataxia. Serum hexosaminidase activity was also determined in ataxic patients. Concentrations of free amino acids were determined in the lumbal CSF of 16 neurological controls, 8 patients with late onset ataxia and 5 with alcoholic ataxia. Mean total GDH activity was reduced significantly in dominant (p < 0.05) and sporadic (p < 0.01) cerebellar ataxia, while the heat-labile form was decreased significantly (p < 0.01) only in sporadic ataxia. All GDH activities were within normal range in patients with alcoholic ataxia. The serum hexosaminidase activities were also within reference range in all patient groups. The CSF concentrations of alanine, glycine, methionine and valine were significantly elevated and those of GABA and glutamate were normal in patients with late onset ataxia as compared to neurological controls. The most significant (p < 0.01) increase was found for methionine. The amino acid levels of patients with alcoholic ataxia did not differ from those of the controls. The results suggest that GDH activity is only partially decreased in some ataxic patients and that altered amino acid metabolism may be reflected in the CSF.Keywords:
Cerebellar ataxia
Background: Rare comprehensive epidemiological studies of ataxia have been undertaken worldwide. Objective: To estimate the prevalence of cerebellar ataxia and its subtypes in Al-Kharga District - New Valley. Methods: This is a community based study carried out through three stages. Total populations 62,583 were screened door to door (every door) by three specialists of neurology. All suspected patients were subjected to complete medical, neurological examination and brain MRI. Results: Twenty four patients of Cerebellar ataxia were recorded in this study with prevalence rate PR 38.34/100,000(95%CI; 23.01-53.69). The order of frequency of different types of cerebellar ataxia was as follows; 8 patients had vascular cerebellar ataxia (PR: 12.8/100000; 95%CI: 3.93 - 21.64), 6 patients had ataxic cerebral palsy (PR: 9.6/100,000; 95%CI: 1.92 - 17.26), 5 patients had unclassified progressive cerebellar ataxia (PR: 8/100,000; 95%CI: 0.99-14.99), 3 patients had post encephalitic ataxia (PR: 4.8/100000; 95%CI: 0.63 - 10.22) and 2 patients had Early onset hereditary Friedreich-like ataxia (PR: 3.2/100,000; 95%CI: 1.23 7.62). Conclusion: The prevalence rate of cerebellar ataxia in Al-Kharga District-New Valley (Egypt) is 38.34/100,000. [Egypt J Neurol Psychiat Neurosurg. 2010; 47(3): 527-532]
Cerebellar ataxia
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Cerebellar ataxia is a form of ataxia that originates from dysfunction of the cerebellum, but may involve additional neurological tissues. Its clinical symptoms are mainly characterized by the absence of voluntary muscle coordination and loss of control of movement with varying manifestations due to differences in severity, in the site of cerebellar damage and in the involvement of extracerebellar tissues. Cerebellar ataxia may be sporadic, acquired, and hereditary. Hereditary ataxia accounts for the majority of cases. Hereditary ataxia has been tentatively divided into several subtypes by scientists in the field, and nearly all of them remain incurable. This is mainly because the detailed mechanisms of these cerebellar disorders are incompletely understood. To precisely diagnose and treat these diseases, studies on their molecular mechanisms have been conducted extensively in the past. Accumulating evidence has demonstrated that some common pathogenic mechanisms exist within each subtype of inherited ataxia. However, no reports have indicated whether there is a common mechanism among the different subtypes of inherited cerebellar ataxia. In this review, we summarize the available references and databases on neurological disorders characterized by cerebellar ataxia and show that a subset of genes involved in lipid homeostasis form a new group that may cause ataxic disorders through a common mechanism. This common signaling pathway can provide a valuable reference for future diagnosis and treatment of ataxic disorders.
Cerebellar ataxia
Cerebellar Degeneration
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Background Biallelic expansion of AAGGG in the replication factor complex subunit 1 ( RFC1 ) was identified as a major cause of cerebellar ataxia, neuropathy (sensory ganglionopathy, or SG) and vestibular areflexia syndrome (CANVAS). We wanted to clarify if RFC1 expansions can present with pure ataxia and if such expansions could be responsible for some cases where an alternative diagnosis had been made. Methods We identified patients with a combination of ataxia and SG and no other cause found, patients where an alternative diagnosis had been made, and patients with pure ataxia. Testing for RFC1 expansions was done using established methodology. Results Among 54 patients with otherwise idiopathic sporadic ataxia without SG, none was found to have RFC1 expansions. Among 38 patients with cerebellar ataxia and SG in which all other causes were excluded, 71% had RFC1 expansions. Among 27 patients with cerebellar ataxia and SG diagnosed with coeliac disease or gluten sensitivity, 15% had RFC1 expansions. Conclusions Isolated cerebellar ataxia without SG makes the diagnosis of CANVAS due to RFC1 expansions highly improbable, but CANVAS is frequently the cause of the combination of idiopathic cerebellar ataxia with SG. It is important to screen patients diagnosed with other causes of acquired ataxia and SG as a small percentage were found to have RFC1 expansions.
Cerebellar ataxia
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FMR1
Cerebellar ataxia
Fragile X Syndrome
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We present here 5 patients with hereditary cerebellar ataxia with peripheral neuropathy and mental retardation as determined by clinical, pathological, and molecular studies. The most characteristic features of this disorder, in contrast to Friedreich's ataxia, were early onset of ataxic gait, mental retardation, and a marked atrophy of the cerebellum. Sural nerve biopsy showed a reduction of myelinated fibers. The expansion of a GAA triplet repeat within the first intron of the frataxin gene, which causes Friedreich's ataxia, was not identified in any of the patients. Hereditary cerebellar ataxia with peripheral neuropathy and mental retardation represents a specific clinical entity that so far has only been described in Japan.
Frataxin
Cerebellar ataxia
Gait Ataxia
Sural nerve
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Mitochondrial disease can manifest as multi-organ disorder, often with neurological dysfunction. Cerebellar ataxia in isolation or in combination with other features can result from mitochondrial disease yet genetic testing using blood DNA is not sufficient to exclude this as a cause of ataxia. Muscle biopsy is a useful diagnostic tool for patients with ataxia suspected of mitochondrial disease. Our aim was to determine specific patient selection criteria for muscle biopsy to see how frequent mitochondrial mutations are responsible for progressive ataxia. We performed a two centre retrospective review of patients with unexplained progressive ataxia who underwent muscle biopsy for suspected mitochondrial disease between 2004 and 2014 (Sheffield and Newcastle Ataxia Centres). A total of 126 patients were identified; 26 assessed in Newcastle and 100 in Sheffield. Twenty-four patients had pure ataxia and 102 had ataxia with additional features. The total number of patients with histologically suspected and/or genetically confirmed mitochondrial disease was 29/126 (23 %). A large proportion of patients (23 %) with progressive ataxia who underwent muscle biopsy were found to have features of mitochondrial dysfunction, with molecular confirmation in some. Muscle biopsy is a helpful diagnostic tool for mitochondrial disease in patients with progressive ataxia.
Cerebellar ataxia
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Cerebellar ataxia
Ataxic Gait
Gait Ataxia
Movement Disorders
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Autosomal recessive cerebellar ataxia 2 (ARCA2) is a recently identified recessive ataxia due to ubiquinone deficiency and biallelic mutations in the ADCK3 gene. The phenotype of the twenty-one patients reported worldwide varies greatly. Thus, it is difficult to decide which ataxic patients are good candidates for ADCK3 screening without evidence of ubiquinone deficiency. We report here the clinical and molecular data of 10 newly diagnosed patients from seven families and update the disease history of four additional patients reported in previous articles to delineate the clinical spectrum of ARCA2 phenotype and to provide a guide to the molecular diagnosis. First signs occurred before adulthood in all 14 patients. Cerebellar atrophy appeared in all instances. The progressivity and severity of ataxia varied greatly, but no patients had the typical inexorable ataxic course that characterizes other childhood-onset recessive ataxias. The ataxia was frequently associated with other neurological signs. Importantly, stroke-like episodes contributed to significant deterioration of the neurological status in two patients. Ubidecarenone therapy markedly improved the movement disorders, including ataxia, in two other patients. The 7 novel ADCK3 mutations found in the 10 new patients were two missense and five truncating mutations. There was no apparent correlation between the genotype and the phenotype. Our series reveals that the clinical spectrum of ARCA2 encompasses a range of ataxic phenotypes. On one end, it may manifest as a pure ataxia with very slow progressivity and, on the other end, as a severe infantile encephalopathy with cerebellar atrophy. The phenotype of most patients, however, lies in between. It is characterized by a very slowly progressive or apparently stable ataxia associated with other signs of central nervous system involvement. We suggest undergoing the molecular analysis of ADCK3 in patients with this phenotype and in those with cerebellar atrophy and a stroke-like episode. The diagnosis of patients with a severe ARCA2 phenotype may also be performed on the basis of biological data, i.e. low ubiquinone level or functional evidence of ubiquinone deficiency. This diagnosis is crucial since the neurological status of some patients may be improved by ubiquinone therapy.
Cerebellar ataxia
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