Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0016719 (Friedreich's ataxia)
 2,098 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The objective of this study was to determine the main causal diagnosis for spinocerebellar ataxia (SCA) in a geographically defined population of ataxia patients and to suggest a rational basis for choosing appropriate clinical and paraclinical assessments. Given the many aetiologies responsible for SCA, the diagnosis requires the performance of a wide range of paraclinical analyses. At present, there is no consensus on the diagnostic value of these examinations. Furthermore, most of the currently available data gathered by reference centres suffer from selection bias. We performed a prospective study of consecutive cerebellar ataxia patients referred by their family doctors to a university hospital in northern France. Multiple system atrophy and obvious secondary causes (e.g. alcoholism) were excluded by our screening process. The patient's family members were also assessed. Of the 204 patients examined, 47% presented autosomal dominant ataxia and 33% presented sporadic ataxia. Autosomal recessive ataxia was rare (8%) and age at onset was significantly earlier for this condition than for other forms. An aetiological diagnosis was established in 44% of patients, a plausible hypothesis could be formed in 13% of cases, and no diagnosis was made in the remaining 44%. Established diagnoses included SCA1, SCA2, SCA3 and SCA6 mutations, Friedreich's ataxia, and one rare case of ataxia associated with anti-glutamic acid decarboxylase antibodies. Two families presented ataxia associated with autosomal, dominant, optic atrophy with an OPA1 mutation. Mitochondrial diseases were suspected in about 10% of patients. In SCA, reliable determination of the transmission mode always requires the assessment of family members. Mitochondrial disease may be an emerging cause of ataxia. Metabolite assays appeared to be of little value when systematically performed and so should be prescribed only by metabolic disorder specialists in selected cases of sporadic and recessive ataxia. Ophthalmological examination was the most helpful physiological assessment.
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PMID:Spinocerebellar ataxia: a rational approach to aetiological diagnosis. 2189 25

Magnetic resonance imaging (MRI), single photon emission computed tomography (SPECT) and positron emission tomography (PET) are the main instruments for neuroimaging investigation of patients with chronic ataxia. MRI has a predominant diagnostic role in the single patient, based on the visual detection of three patterns of atrophy, namely, spinal atrophy, cortical cerebellar atrophy and olivopontocerebellar atrophy, which correlate with the aetiologies of inherited or sporadic ataxia. In fact spinal atrophy is observed in Friedreich ataxia, cortical cerebellar atrophy in Ataxia Telangectasia, gluten ataxia and Sporadic Adult Onset Ataxia and olivopontocerebellar atrophy in Multiple System Atrophy cerebellar type. The 39 types of dominantly inherited spinocerebellar ataxias show either cortical cerebellar atrophy or olivopontocerebellar atrophy. T2 or T2* weighted MR images can contribute to the diagnosis by revealing abnormally increased or decreased signal with a characteristic distribution. These include symmetric T2 hyperintensity of the posterior and lateral columns of the cervical spinal cord in Friedreich ataxia, diffuse and symmetric hyperintensity of the cerebellar cortex in Infantile Neuro-Axonal Dystrophy, symmetric hyperintensity of the peridentate white matter in Cerebrotendineous Xanthomatosis, and symmetric hyperintensity of the middle cerebellar peduncles and peridentate white matter, cerebral white matter and corpus callosum in Fragile X Tremor Ataxia Syndrome. Abnormally decreased T2 or T2* signal can be observed with a multifocal distribution in Ataxia Telangectasia and with a symmetric distribution in the basal ganglia in Multiple System Atrophy. T2 signal hypointensity lining diffusely the outer surfaces of the brainstem, cerebellum and cerebrum enables diagnosis of superficial siderosis of the central nervous system. The diagnostic role of nuclear medicine techniques is smaller. SPECT and PET show decreased uptake of radiotracers investigating the nigrostriatal system in Multiple System Atrophy and in patients with Fragile X Tremor Ataxia Syndrome. Semiquantitative or quantitative MRI, SPECT and PET data describing structural, microstructural and functional changes of the cerebellum, brainstem, and spinal cord have been widely applied to investigate physiopathological changes in patients with chronic ataxias. Moreover they can track diseases progression with a greater sensitivity than clinical scales. So far, a few small-size and single center studies employed neuroimaging techniques as surrogate markers of treatment effects in chronic ataxias.
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PMID:Neuroimaging Applications in Chronic Ataxias. 3047 93

The diagnosis of sporadic adult onset ataxia is a challenging task since a large collection of hereditary and non-hereditary disorders should be taken into consideration. Sporadic adult onset ataxias include degenerative non-hereditary, hereditary, and acquired ataxias. Multiple system atrophy and idiopathic late cerebellar ataxia are degenerative non-hereditary ataxias. Late-onset Friedreich's ataxia, spinocerebellar ataxia type 6 and 2, and fragile X-associated tremor/ataxia syndrome account for most sporadic hereditary ataxias. Alcoholic cerebellar degeneration, paraneoplastic and other autoimmune cerebellar degeneration, vitamin deficiencies, and toxic-induced and infectious cerebellar syndrome are the main causes of acquired cerebellar degeneration. The diagnostic approach should include a history taking, disease progression, general and neurological examination, brain MRI, and laboratory and genetic tests. Novel opportunities in massive gene sequencing will increase the likelihood to define true etiologies.
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PMID:Degenerative and acquired sporadic adult onset ataxia. 3125 83