Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0024523 (malabsorption)
 7,319 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Thalamic degeneration was present in 5 autopsied cases of X-chromosome-linked copper malabsorption (X-cLCM), Menkes' kinky hair disease. Among the thalamic nuclei, those in the formatio paraventricularis, intralamellaris, and extralamellaris were spared. The nuclei projecting to the granular cortices had severe neuronal depopulation. The thalamic nuclei that send axons to the agranular cortices were less often and less severely involved. The thalamic afferent system was intact except for degeneration of the red nucleus. Cerebral cortical lesions varied from case to case and usually were less marked than thalamic neuronal changes.
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PMID:Thalamic degeneration in X-chromosome--linked copper malabsorption. 44 70

Examination of the cerebellar system of 5 autopsied patients with X-chromosome-linked copper malabsorption led to the discovery that among cerebellar afferent systems, only the dorsal spinocerebellar tract showed consistent degenerative changes. Cerebellar cortical lesions comprised granule cell loss and Purkinje cell abnormalities that included nuclear and cytoplasmic degenerative changes with cell loss and deficient dendritic arborization as well as the presence of somatic sprouts. Perisomatic baskets were often absent in the area of sprouting Purkinje cells. Cerebellar cortical topographical analysis revealed relative sparing of the caudal portion of the cerebellum. The nodulus was intact in all patients. The dentate nucleus and the superior cerebellar peduncle were preserved. The red nucleus was consistently degenerated.
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PMID:Degeneration of the cerebellar system in X-chromosome-linked copper malabsorption. 47 49

The cerebellar cortices in two patients with X-chromosome-linked copper malabsorption (Menkes kinky-hair disease) were examined with both the light and electron microscope. Somatic sprouts and grotesque dendritic arborization were among the obvious light microscopical changes. At the fine structural level, the Purkinje cells were characterized by the presence of somatic spines although the surviving granule cells had already descended. Most spines were parts of synaptic complexes, but some were unattached to any presynaptic element. Similar spines were also observed on dendritic trunks. Astrocytic gliosis and nonspecific endothelial cell changes were noted.
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PMID:Fine structure of the cerebellar cortex in Menkes Kinky-hair disease. X-chromosome-linked copper malabsorption. 83 87

A comparative immunocytochemical study on the cerebellar cortex with X-chromosome-linked copper malabsorption (X-cLCM) and granule cell type cerebellar degeneration (gc-CD) was carried out by using specific monoclonal antibodies to synaptophysin (SY) and glial fibrillary acidic protein (GFAP). In X-cLCM cases, marked depletion of SY-immunoreactivity (IR) and reduction in number of SY-positive glomeruli were seen in the molecular and granular layers, respectively. Abnormal Purkinje cells occasionally showed moderately strong SY-IR having a fine granular pattern. Proliferation of GFAP-positive cells was observed in the granular and Purkinje cell layers. In the gc-CD case, SY-positive materials were coarsely distributed in a less dense fashion in the molecular layer as compared to a normal control. Purkinje cell perikarya did not show SY-IR. In the gc-CD granular layer, SY-IR appeared to have a coarsely punctate pattern, whereas immunoreactive glomeruli were almost completely absent. A number of GFAP-positive Bergmann cells was observed in the Purkinje cell layer and their fibres were densely and irregularly distributed in the molecular layer, whereas the granular layer was devoid of GFAP-positive cells. We present an immunocytochemical study of the X-cLCM and gc-CD cerebellar cortices, discuss the possible pathogenic mechanisms occurring in these diseases and discuss the usefulness of the SY-immunostaining technique for visualization of axon terminal involvement in these pathological conditions.
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PMID:A comparative immunocytochemical study of human cerebellar cortex in X-chromosome-linked copper malabsorption (Menkes' kinky hair disease) and granule cell type cerebellar degeneration. 251 98