Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0025362 (mental retardation)
15,878 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We describe three families with X-linked recessive Charcot-Marie-Tooth (CMT) neuropathies. The disease phenotype in family 1 was characterized by infantile onset, weakness of lower legs, areflexia, pes cavus, and mental retardation (2 of 5 patients). The disease phenotype in families 2 and 3 was characterized by late onset, distal weakness, and normal intelligence. Hereditary spastic paraparesis was also present in the CMT patients of family 2. Thirty X-linked DNA markers were used for linkage studies. A maximum lod score of +3.48 was obtained by multipoint linkage analysis for the DXS16 locus mapped at Xp22.2 in family 1. In families 2 and 3, there was suggestion of linkage of Xq26 markers; the peak multipoint lod score for these 2 CMT families was 1.81, at DXS144. These results were suggestive of heterogeneity. The joint analysis including both regions (Xp22.2 and Xq26) provided evidence against homogeneity (chi 2 = 9.12, P less than 0.005).
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PMID:X-linked recessive Charcot-Marie-Tooth neuropathy: clinical and genetic study. 155 86

X-linked hydrocephalus (HSAS) is the most frequent genetic form of hydrocephalus. Clinical symptoms of HSAS include hydrocephalus, mental retardation, clasped thumbs, and spastic paraparesis. Recently we have assigned the HSAS gene to Xq28 by linkage analysis. In the present study we used a panel of 18 Xq27-q28 marker loci to further localize the HSAS gene in 13 HSAS families of different ethnic origins. Among the Xq27-q28 marker loci used, DXS52, DXS15, and F8C gave the highest combined lod scores, of 14.64, 6.53 and 6.33, respectively, at recombination fractions of .04, 0, and .05, respectively. Multipoint linkage analysis localizes the HSAS gene in the telomeric part of the Xq28 region, with a maximal lod score of 20.91 at 0.5 cM distal to DXS52. Several recombinations between the HSAS gene and the Xq28 markers DXS455, DXS304, DXS305, and DXS52 confirm that the HSAS locus is distal to DXS52. One crossover between HSAS and F8C suggests that HSAS gene to be proximal to F8C. Therefore, data from multipoint linkage analysis and the localization of key crossovers indicate that the HSAS gene is most likely located between DXS52 and F8C. This high-resolution genetic mapping places the HSAS locus within a region of less than 2 Mb in length, which is now amenable to positional cloning.
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PMID:Further localization of X-linked hydrocephalus in the chromosomal region Xq28. 164 32

We presented the case of a 78-year-old man with mental retardation and spastic paraparesis diagnosed early in life as cerebral palsy. Six years prior to demise he had post-traumatic subdural hematoma, which was removed surgically. The neuropathological examination revealed the sequelae of the recent trauma, superimposed on the extensive old lesions. Cavitary changes in the periventricular white matter and cortical ulegyria in the border zones of the major cerebral arteries vascularization were characteristic of perinatal hypoxic-ischemic lesions. Peculiar in the ulegyria were extensive areas with numerous corpora amylacea adjacent to the areas of fibrillar and cellular gliosis. Another sequelae of involution processes was the atrophy of brain hemispheres (secondary microcephaly). The case appears to be an example of the late degenerative involution changes developing on the background of lesions originated from the perinatal period.
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PMID:Sequelae of perinatal central nervous system damage after long-term survival. 181 12

X-linked recessive hydrocephalus (HSAS) occurs at a frequency of approximately 1 per 30,000 male births and consists of hydrocephalus, stenosis of the aqueduct of Sylvius, mental retardation, spastic paraparesis, and clasped thumbs. Prenatal diagnosis of affected males by ultrasonographic detection of hydrocephalus is unreliable because hydrocephalus may be absent antenatally. Furthermore, carrier detection in females is not possible because they are asymptomatic. Using four families segregating HSAS, we performed linkage analysis with a panel of X-linked probes that detect restriction fragment length polymorphisms. We report here that HSAS, in all tested families, is closely linked to marker loci mapping in Xq28 (DXS52, lod = 6.52 at theta of 0.03; F8, lod = 4.32 at theta of 0.00; DXS15, lod = 3.40 at theta of 0.00). These data assign HSAS to the gene-dense chromosomal band Xq28 and allow for both prenatal diagnosis and carrier detection by linkage analysis.
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PMID:Assignment of X-linked hydrocephalus to Xq28 by linkage analysis. 197 56

Serum carnosinase deficiency with carnosinuria has been reported in 23 children with neurological signs and/or mental retardation. In adults four cases in one family had serum carnosinase deficiency, carnosinuria, and in addition elevated homocarnosine in CSF and in the brain. The mother was one of these cases but had no clinical symptoms; however her three children have spastic paraparesis, retinitis pigmentosa and mental retardation. Serum carnosinase deficiency alone is not the cause of the neurological symptoms. When two of the affected children consumed carnosine, anserine or homocarnosine, they metabolized these compounds much less rapidly than did two normal control individuals.
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PMID:Inborn errors of carnosine and homocarnosine metabolism. 235 6

A family is described with 5 males in a single generation affected with a previously undescribed complicated form of hereditary spastic paraparesis (HSP). The disease is characterized by speech difficulties, lower limb spasticity and hyper-reflexia, mental retardation, cerebellar ataxia, and tremor. The disease starts in the first decade of life and progresses for 3 to 6 years before stabilizing. Magnetic resonance imaging (MRI) of the brain demonstrates bilateral posterior periventricular white matter lesions. Visual evoked responses are markedly prolonged, but electromyography (EMG) and nerve conduction velocity studies are normal. Three of the 4 living affected members of this pedigree exhibit red-green color vision defects. The presentation of a new complicated hereditary spastic paraparesis syndrome in this pedigree extends our understanding of the variability and heterogenity of this syndrome and suggests an approach for the evaluation of similar families in future genetic studies.
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PMID:Complicated hereditary spastic paraparesis with cerebral white matter lesions. 236 15

We described a case of late-infantile form of galactosialidosis. This male patient was a product of normal pregnancy. His parents were first cousins. He first sat at eight months, walked and talked at two years of age. His gait gradually became unsteady and he was diagnosed as spastic paraparesis at the age of five years. Abnormally slow learning was first pointed out at seven years of age. At the age of nine years, we evaluated him in detail at our university hospital. Physical examination revealed a short stature for his age, slightly coarse face, short neck, funnel chest, genu, pes and hallucis valgus. Corneal clouding, hernia and angiokeratoma were not found. Neurological examination showed mental retardation, bilateral optic atrophy without cherry-red spots, and spastic and slightly ataxic gait. Slight muscular atrophy with weakness was also seen in the extremities, more remarkable in the lower limbs. Deep tendon reflexes were hyperactive with bilateral ankle clonus and no extensor planter response. Routine examination of blood, urine and cerebrospinal fluid were normal except for approximately 10% lymphocytes containing cytoplasmic vacuoles. X-ray films of the backbone exhibited vertebral plana with anterior breaking at the second lumbar vertebra level. The electroencephalography showed the multiple spike and slow wave complexes. Brain CT depicted the atrophy of cerebellum. The activities of sialidase and beta-galactosidase were markedly reduced in white blood cells and cultured skin fibroblasts in this patient. His urinary excretion of sialyloligosaccharides increased.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Late-infantile form galactosialidosis with psychomotor retardation and spastic paraparesis]. 251 61

Familial spastic paraparesis with amyotrophy of the hands was reported, and its significance in the literature was reviewed. Case 1: An 18 year-old boy, who had been suffering from spastic gait since 12 years old, noticed his hand muscle wasting distributed bilateral first interosseous muscle, thenar and hypothenar muscle at age 17. Case 2: A 20 year-old man, elder brother of case 1, who also walked in spastic manner from his childhood, developed bilateral hand muscle atrophy similar to case 1 at age 19. Clinical features of these two cases could be summarized as familial spastic paraparesis with amyotrophy characterized by hand muscle atrophy, spasticity of lower extremities with hyperreflexia and bilateral positive pathological reflexes and spastic gait. Their younger sister was also examined, who showed only minimal spastic paraparesis. The electrophysiological examination including EMG and SEP suggested the pathological process could involve not only lateral column, but also posterior column and anterior horn. Slight but generalized spinal cord atrophy was demonstrated on metrizamide CT myelography. The muscle biopsy performed from left gastrocnemius in case 2, confirmed neurogenic changes. Although the association of retinal degeneration, cataracta, mental retardation, pes cavus or even generalized amyotrophy has been reported in familial spastic paraparesis, only limited cases are available, dealing with the amyotrophy of limbs. As far the cases with amyotrophy localized to the hands are concerned, it is absolutely rare and only the cases reported by Silver could be regarded as similar or same clinical entities to our cases.
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PMID:[Two cases of familial spastic paraparesis with amyotrophy of the hands]. 267 23

Four siblings in a family with a highly consanguineous background presented with an unusual combination of spastic paraparesis, muscle wasting, microcephaly, mental retardation, skeletal deformities, and cutaneous manifestations, ie, hypopigmented and hyperpigmented lesions and graying of the hair. An extensive workup including electromyography, muscle biopsy, and chromosomal analysis was unrewarding. An autosomal recessive inheritance is probable. A similar entity was recently reported from israel. The possibility that this previously unrecognized condition represents a new syndrome is suggested.
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PMID:Spastic paraparesis, mental retardation, and cutaneous pigmentation disorder. A new syndrome. 406 4

The MASA syndrome is an X-linked disorder with mental retardation, spastic paraparesis, and adducted thumbs as the most characteristic features. We performed linkage analysis, using Xq28 markers, on a large MASA syndrome family. The maximum lodscore was 6.37 at 0 recombination for DXS52 and 5.99 at 0 recombination for DXS305. Crossovers were demonstrated between the disorder and DXS455. Clinical and linkage data from this family further support the hypothesis that the MASA syndrome and X-linked hydrocephalus are allelic disorders.
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PMID:Fine mapping of X-linked clasped thumb and mental retardation (MASA syndrome) in Xq28. 806 32


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