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

The Jimpy mouse is an x-linked recessive mutation of the house mouse resulting a myelin deficiency in the central nervous system. It is of interest as an animal model of human leukodystrophy. Clinical symptoms include ataxia and tremor as initial signs, followed by tonic-clonic convulsions prefinally. The myelin deficiency is probably caused by a developmental disturbance of the oligodendrogial cell line. Clinical and pathological findings in the mouse mutant Jimpy show some remarkable similarities to Pelizaeus-Merzbacher disease.
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PMID:[The mouse mutant "Jimpy". Animal model of leukodystrophy]. 91 20

The pigmentary type of orthochromatic leukodystrophy (OLD) is a rare disorder in adults; only one questionable childhood case has been observed. We report the sporadic case of a male aged 26 years with early onset and protracted course. He presented retarded motor development from birth with ataxic gait and, at age 13 years, developed progressive mental and neurologic deterioration with tetraparesis, ataxia and seizures and died in a disabled, mute state. Repeated CT scans showed progressive diffuse cerebral atrophy and low density of the hemispheric white matter. Autopsy revealed OLD with pigmented macrophages and glial cells, ultrastructurally showing storage of lipofuscin and ceroid with multilamellar bodies or finger-print profiles. Abnormal cytoplasmic inclusions in reduced oligodendroglial cells suggest demyelination due to a primary defect of oligodendroglia in this rare disorder.
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PMID:Pigmentary type of orthochromatic leukodystrophy with early onset and protracted course. 231 58

An 8-year-old girl with progressive ataxia and bulbar palsy showed diffuse white-matter lesions in the occipital to parietal lobes on magnetic resonance imaging. Since she had slightly elevated lactate in the cerebrospinal fluid, a muscle biopsy was done which revealed scattered ragged-red fibres and focal cytochrome c oxidase deficiency. Southern blot and polymerase-chain-reaction analyses revealed a large-scale mitochondrial DNA deletion, which was 6990 base-pairs in length with 6 base-pair (-TCATCG-) direct repeats at the junctions. Mitochondrial DNA mutation should be considered as one of the candidate causes for diffuse leukodystrophy in children.
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PMID:Diffuse leukodystrophy with a large-scale mitochondrial DNA deletion. 791 Aug 87

The clinical phenotype of multiple acyl-CoA dehydrogenase deficiency in infancy is characterized by recurrent episodes of hypoketotic hypoglycemia and lipid storage myopathy. Brain damage has been described only as a consequence of severe and protracted hypoglycemia. We describe a child who experienced normal physical and psychomotor development until the age of 3 years, who then developed progressive intention tremors, dysarthria, ataxia, and spastic tetraparesis. Episodes of acute metabolic distress were never observed. Magnetic resonance imaging disclosed abnormal signals within the white matter of the brain and cerebellum, suggesting leukodystrophy. Gas chromatography/mass spectrometry analysis revealed abnormally high levels of glutaric acid, dicarboxylic acids, and glycine derivatives in urine. Riboflavin therapy was initiated at 4 years of age, when the patient had already lost control of trunk and head posture. Consistent improvement rapidly occurred after riboflavin supplementation. Glutaric aciduria type II may cause brain damage, in spite of the absence of acute metabolic distress, and should be considered in the differential diagnosis of leukodystrophies.
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PMID:Riboflavin-responsive glutaric aciduria type II presenting as a leukodystrophy. 877 Nov 70

Twelve patients with early infancy onset megalencephaly and leukodystrophy with a mild clinical course are reported. The neuroradiological, clinical, and genetic aspects of this recently recognized familial leukodystrophy syndrome were reviewed. Five were affected siblings, and all patients had consanguineous parents. Macrocephaly, a slowly progressive delay in motor development and mild mental deterioration constitute the clinical triad of the disease, showing characteristic age-related onset. The clinical findings outlined remarkably slight functional deterioration despite severe lesions on magnetic resonance imaging (MRI), especially in the initial period. Characteristically, mental function is preserved for years after onset of the motor deficit. The MRI lesions do not reflect the progress of disease. The disease probably has an autosomal recessive mode of inheritance even though no metabolic defect has been detected to date. In a more severe variant of the mentioned disease, there is more progressive and severe neurological dysfunction, including ataxia and spastic quadriparesis, leading to an inability to walk independently after 10 years of age. In mild variants, however, disease severity varies from macrocephaly with near-normal pyschomotor development to mild motor and/or mental dysfunction. Seizures were observed in both types but response to drugs was good. The 12 patients reported here confirm the specific and distinguishing clinical and radiological features of the previously reported 51 cases with this new syndrome, while adding some information regarding identification of the disease.
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PMID:Megalencephaly and leukodystrophy with mild clinical course: a report on 12 new cases. 962 90

Two siblings (one man, one woman), presenting with diarrhea, severe weight loss peripheral neuropathy, ophthalmoparesis, asymptomatic leukoencephalopathy were diagnosed as a new cases of Mitochondrial Neuro Gastro Intestinal Encephalomyopathy syndrome (MNGIE). Hirano (1994) defined four criteria for the diagnostic: peripheral neuropathy, ophthalmoparesis, gastro intestinal dysmotility, muscle biopsy with histologic features of mitochondrial myopathy (ragged-red fibers, muscle fibers with increased succinate deshydrogenase stain or ultra structurally abnormal mitochondria). In a review of the literature, we found 31 cases with MNGIE. With our two cases, we study this group of 33 patients. First symptoms begin about 13.5 years with a median of 10 years and extremes for 1 to 32 years. The first signs are gastro intestinal symptoms (recurrent nausea, vomiting or diarrhea with intestinal dysmotility) in 22 cases, an ophthalmoparesia in 4 cases, intestinal and ocular signs in 1 case, gait ataxia or peripheral neuropathy in 3 cases, hearing loss in 1 case, gait ataxia or peripheral neuropathy in 3 cases, hearing loss in 1 case. During the evolution, besides the cardinal signs, the following features have been observed with a variable frequency: hearing loss, short stature, facial palsy, dysphonia, dysarthria, sweating, orthostatic hypotension, bladder dysfunction, hepatomegalia, The laboratory features are: abnormal Nerve Condition Studies/EMG compatible with a sensory motor neuropathy, lactic acidosis, mitochondrial respiratory chain defect (essentially complex IV deficiency, complex I deficiency or multiple complex defect), MRI leukodystrophy, elevated CSF protein, heart block, ragged-red fibers or increased SDH stain. The prognosis is poor, due to a severe weight loss bordering on cachexia 13 patients died with a mean age of 28.5 years (median 24 years, extreme 3 years to 51 years). The prognosis seems to be worsened by a young age of onset. The 33 patients belong to 19 families with 7 cases of consanguinity. 25 patients had a brother, a sister or a cousin affected. The study of these families is compatible with an autosomic recessive transmission, suggesting a pathology of the nuclear genomi, probably impliying the control of the mitochondrial DNA replication. In fact, in 13 cases, a study of the mt DNA was realized: multiple deletions were founded in 6 cases, multiples mutations in one case, unique mutation in 1 case. In 5 cases ther was no evidence of abnormality. These precise etiology and pathophysiologic significance of the mt DNA deletions, and the heterogeneity of the modifications of the mt DNA remain unknown. However, the possibility of various phenotypes for a same genotype or inversely is known in mitochondriopathies.
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PMID:[MNGIE syndrome in 2 siblings]. 968 18

We report neuropathological, biochemical and molecular studies on two patients with childhood ataxia with diffuse central nervous system hypomyelination (CACH) syndrome, a leukodystrophy recently defined according to clinical and radiological criteria. Both had severe cavitating orthochromatic leukodystrophy without atrophy, predominating in hemispheric white matter, whereas U-fibers, internal capsule, corpus callosum, anterior commissure and cerebellar white matter were relatively spared. The severity of white matter lesions contrasted with the rarity of myelin breakdown products and astroglial and microglial reactions. In the white matter, there was an increase in a homogeneous cell population with the morphological features of oligodendrocytes, in many instances presenting an abundant cytoplasm like myelination glia. These cells were negative for glial fibrillary acidic protein and antibodies PGM1 and MIB1. Some were positive for myelin basic protein, proteolipid protein (PLP), and myelin oligodendrocyte glycoprotein, but the majority were positive for human 2'-3' cyclic nucleotide 3' phosphodiesterase and all were positive for carbonic anhydrase II, confirming that they are oligodendrocytes. Myelin protein and lipid content were reduced. The PLP gene, analyzed in one case, was not mutated or duplicated. The increased number of oligodendrocytes without mitotic activity suggests an intrinsic oligodendroglial defect or an abnormal interaction with axons or other glial cells. This neuropathological study supports the notion that CACH syndrome constitutes a specific entity.
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PMID:Increased density of oligodendrocytes in childhood ataxia with diffuse central hypomyelination (CACH) syndrome: neuropathological and biochemical study of two cases. 1033 84

The rapidly expanding use of magnetic resonance imaging (MRI) in children with neurological impairments of unknown aetiology has revealed a large number of children with abnormalities of the cerebral white matter, some with leukodystrophy-like white matter abnormalities on MRI, but non-progressive in clinical presentation and course. The aim of this study was to investigate the clinical and neuroradiological characteristics of 26 children with white matter abnormalities of unknown origin and to find diagnostic clues or indicators of progressive versus nonprogressive disease. The typical child with white matter abnormalities was characterized by onset of symptoms within the first year of life, most often presenting as general developmental delay and hypotonia. Later-appearing signs were spasticity and ataxia and as a rule severe learning and motor disabilities. Serious ophthalmological signs were frequently seen. Perinatal adverse events were rare, infectious aetiologies not indicated but prenatal stigmata relatively common. The clinical course was progressive in 11 children and non-progressive in 15. Late onset presentation was associated with a progressive course whereas prenatal stigmata and asymmetrical white matter lesions only were found in children with a non-progressive disorder. The MRI showed three main patterns: a) a generalized increase of the T2 signal of the white matter in 12 children, b) a bilateral, symmetric but not generalized abnormality in nine and c) asymmetric, focal or multifocal pathology in five. Useful information as to clinical entities and course was obtained from the combined clinical and radiological assessment. A precise nosological diagnosis could be made in six cases. The study showed that white matter abnormalities in children constitute a heterogeneous group of rare and 'anonymous' conditions, motivating collaborative studies for further clarification of background and management.
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PMID:Clinical characteristics of children with cerebral white matter abnormalities. 1070 Nov

The authors report three related patients, two girls and a boy, presenting a distinctive clinical phenotype characterized by early-onset, slowly progressive ataxia. Subsequently these patients experienced sensorineural deafness, resulting in complete hearing loss by the age of 12 years, and exhibited leukodystrophy on brain MRI. There was no mental deterioration. An extensive neurometabolic assessment failed to detect any anomalies in the three patients. The patients originated from a large consanguineous family in southern Italy (Calabria), with a pedigree that was traced back five generations. The disease's pattern of transmission suggests an autosomal recessive trait.
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PMID:Ataxia, deafness, leukodystrophy: inherited disorder of the white matter in three related patients. 1088 Dec 63

Childhood ataxia with diffuse central nervous system hypomyelination syndrome (CACH) is a recently described leukodystrophy of unknown etiology. To characterize the neuropathological features and gain insight as to the pathogenesis of this disorder, we studied cerebral tissue from six patients with the CACH syndrome. Evaluation of toluidine blue-stained, semithin sections of white matter from CACH patients disclosed unusual cells with "foamy" cytoplasm, small round nuclei and fine chromatin. Electron microscopy (EM) revealed cells in the white matter with abundant cytoplasm containing many mitochondria and loosely clustered, membranous structures, but lacking the lysosomal structures seen in macrophages. Further analysis of tissue sections with antibodies and special stains demonstrated that the abnormal cells with abundant cytoplasm labeled with oligodendroglial markers, but did not react with macrophage or astrocytic markers. Double immunolabeling with macrophage and oligodendroglial markers clearly distinguished macrophages from the "foamy" oligodendroglial cells (FODCs). Proteolipid protein (PLP) mRNA in situ hybridization demonstrated PLP mRNA transcripts in a high proportion of oligodendrocytes in CACH patients compared to control patients, and PLP mRNA transcript signal in cells, morphologically consistent with FODCs. Normal and pathological brain control tissues did not contain FODCs. These neuropathological findings will be useful pathological identifiers of CACH, and may provide clues to the pathogenesis of this disorder.
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PMID:Foamy cells with oligodendroglial phenotype in childhood ataxia with diffuse central nervous system hypomyelination syndrome. 1107 15


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