UMLS:C0086543 - FACTA Search

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Query: UMLS:C0086543 (cataract)
29,165 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We report six males with the syndrome of macroorchidism and mental retardation. The trait is inherited as though X-linked, or possibly autosomal dominant male-limited. We also found no evidence of gonadal dysfunction. Associated abnormalities were abnormal EEG (3/4), seizures (2/6), and one instance each of cervical vertebral fusion, cataract, esophoria, and abnormal cutaneous pigmentation. One woman with a 50% a priori risk of bearing the mutant gene had mental retardation and seizures. Results of Xg blood-group typing were uninformative for the purpose of linkage analysis.
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PMID:The X-linked syndrome of macroorchidism and mental retardation: further observations. 26 49

The differential diagnosis between the diseases which cause leucocoria is discussed. Among them congenital cataract, persistence of the primary vitreous, retrolental fibroplasia, retinoblastoma, Coats' disease, von Hippel's disease, inflammatory pseudoglioma, Norrie's disease, and organized intraocular haemorrhage are mentioned.
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PMID:Neonatal or juvenile leucocoria. 54 49

Homology with the mouse bare patches mutant suggests that the gene for the X-linked dominant chondrodysplasia punctata/ichthyosis/cataract/short stature syndrome (Happle syndrome) is located in the human Xq28 region. To test this hypothesis, we performed a linkage study in three families comprising a total of 12 informative meioses. Multiple recombinations appear to exclude the Xq28 region as the site of the gene. Surprisingly, multiple crossovers were also found with 26 other markers spread along the rest of the X chromosome. Two-point linkage analysis and analysis of recombination chromosomes seem to exclude the gene from the entire X chromosome. Three different mechanisms are discussed that could explain the apparent exclusion of an X-linked gene from the X chromosome by linkage analysis: (a) different mutations on the X chromosome disturbing X inactivation, (b) metabolic interference, i.e. allele incompatibility of an X-linked gene, and (c) an unstable pre-mutation that can become silent in males. We favour the last explanation, as it would account for the unexpected sex ratio (M:F) of 1.2:1 among surviving siblings, and for the striking clinical variability of the phenotype, including stepwise increases in disease expression in successive generations.
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PMID:Exclusion mapping of the X-linked dominant chondrodysplasia punctata/ichthyosis/cataract/short stature (Happle) syndrome: possible involvement of an unstable pre-mutation. 135 69

Alport syndrome (AS) is an hereditary glomerulonephritis that is mainly inherited as a dominant X-linked trait. Structural abnormalities in the type IV collagen alpha 5 chain gene (COL4A5), which maps to Xq22, have recently been detected in several patients with AS. The association of AS with diffuse esophageal leiomyomatosis (DL) has been reported in 24 patients, most of them also suffering from congenital cataract. The mode of transmission and the location of the gene(s) involved in this association have not been elucidated. Southern blotting using cDNA probes spanning the whole COL4A5 and a 5' end COL4A5 genomic probe showed that three out of three patients with the DL-AS association had a deletion in the 5' part of the COL4A5 gene extending beyond its 5' end. This indicates that the same gene, COL4A5, is involved in classical AS and in DL-AS and that the transmission of DL-AS is X-linked dominant. These results also suggest that leiomyomatosis might be due to the alteration of a second gene involved in smooth muscle cell proliferation, which is located upstream of the COL4A5 gene, and that there might be a contiguous gene deletion syndrome, involving at least the genes coding for congenital cataract, DL and AS.
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PMID:Alport syndrome and diffuse leiomyomatosis: deletions in the 5' end of the COL4A5 collagen gene. 145 2

The diagnosis of blue cone monochromatism (BCM) is based on severely affected color vision with preserved blue function, nearly nonrecordable photopic ERG, and a family pedigree compatible with X-linked inheritance. We have studied the color vision and ocular function of three members of a family with BCM and a female carrier in the same family. Two of the three affected family members, 9- and 7-year-old brothers, showed the unique features of BCM in their color vision and ERG. The third affected family member, a 43-year-old uncle, showed achromatic vision. He had diabetic retinopathy and moderate cataract which were thought to disturb his blue cone function, causing apparent rod monochromatism. The female carrier, the mother of the brothers, showed normal visual functions except for a slight reduction in photopic ERG amplitude. We believe that this is the first description of BCM in a Japanese family.
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PMID:Japanese family with blue cone monochromatism. 151 61

The case of a newborn boy with ichthyosiform erythroderma, asymmetrical shortening of the femur and sectorial cataract is reported. The hyperkeratotic areas cleared within 2 months, resulting in follicular atrophoderma. The clinical findings and course of the disease, and also the histological and ultrastructural features, indicate an X-linked dominant chondrodysplasia punctata (Happle). Since a normal male karyotype (46, XY) is present, a half-chromatid mutation of the maternal gamete and a somatic mutation are considered as possible explanations for this mosaic phenotype.
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PMID:[X-chromosome dominant chondrodysplasia punctata (Happle) in a boy]. 159 71

The diagnosis of blue cone monochromatism (BCM) is based on severely affected color vision with preserved blue function, nearly absent photopic ERG, and a family pedigree compatible with X-linked inheritance. In the past, there has been no familial report of BCM in Japan. We found a Japanese family with BCM and studied the ocular findings of three affected members and a female carrier. Two of three affected members showed unique properties of BCM in their visual functions, including color vision and ERG. One affected member, a brother of their mother (43 years old), showed achromatic color vision. He had diabetic retinopathy and moderate cataract, which, might have disturbed his preserved blue cone function, resulting in the achromatic vision. A female carrier showed normal visual function, except that her photopic ERG was slightly reduced in amplitude.
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PMID:[The properties of visual functions and familial analysis in blue cone monochromatism]. 162 95

Several childhood multisystem disorders with prominent ophthalmological manifestations have been ascribed to the malfunction of the peroxisome, a subcellular organelle. The peroxisomal disorders have been divided into three groups: 1) those that result from defective biogenesis of the peroxisome (Zellweger syndrome, neonatal adrenoleukodystrophy, and infantile Refsum's disease); 2) those that result from multiple enzyme deficiencies (rhizomelic chondrodysplasia punctata); and 3) those that result from a single enzyme deficiency (X-linked adrenoleukodystrophy, primary hyperoxaluria type 1). Zellweger syndrome, the most lethal of the three peroxisomal biogenesis disorders, causes infantile hypotonia, seizures, and death within the first year. Ophthalmic manifestations include corneal opacification, cataract, glaucoma, pigmentary retinopathy and optic atrophy. Neonatal adrenoleukodystrophy and infantile Refsum's disease appear to be genetically distinct, but clinically, biochemically, and pathologically similar to Zellweger syndrome, although milder. Rhizomelic chondrodysplasia punctata, a peroxisomal disorder which results from at least two peroxisomal enzyme deficiencies, presents at birth with skeletal abnormalities and patients rarely survive past one year of age. The most prominent ocular manifestation consists of bilateral cataracts. X-linked (childhood) adrenoleukodystrophy, results from a deficiency of a single peroxisomal enzyme, presents in the latter part of the first decade with behavioral, cognitive and visual deterioration. The vision loss results from demyelination of the entire visual pathway, but the outer retina is spared. Primary hyperoxaluria type 1 manifests parafoveal subretinal pigment proliferation. Classical Refsum's disease may also be a peroxisomal disorder, but definitive evidence is lacking. Early identification of these disorders, which may depend on recognizing the ophthalmological findings, is critical for prenatal diagnosis, treatment, and genetic counselling.
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PMID:The peroxisome and the eye. 171 72

A family with X-linked megalocornea (XMC) is presented. The most typical ocular features of the disease (cornea globosa, arcus lipoides, mosaic dystrophy of the cornea, pigment dispersion, and cataract) are described and their diagnostic value is discussed by reviewing the literature. Linkage data suggest that the XMC locus maps in the region Xq13-q25, most probably in Xq21-q22.
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PMID:X-linked megalocornea. Ocular findings and linkage analysis. 175 64

We report on a 46-year old white male with Norrie disease. In the right eye he had a keratotorus with non vascularized corneal scars and mature cataract. After penetrating keratoplasty a pseudoglioma with irreversible total retinal detachment was found. The left eye had phthisis bulbi with corneal pannus and band keratopathy, shallow anterior chamber, posterior synechia and mature cataract.
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PMID:Keratotorus in Norrie disease. 196 Sep 30

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