Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0038187 (starvation)
 24,951 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Schwannomas, particularly of vestibular origin, often accompany degenerative hypocellular areas known as Antoni B patterns; however, the detailed mechanism is uncertain. Eosinophilic hyaline droplets (EHD), the substantial nature of which are autophagic vacuoles, preferentially appear in acoustic schwannomas and distribute around areas of Antoni B. We investigated their common background using schwannomas with (15 cases) or without (10 cases) EHD, and demonstrated that EHD showed selective immunoreactivity with an anti-nitrotyrosine antibody, suggesting the overproduction of nitric oxide in this condition. The expression of inducible nitric oxide synthase was emphasized in infiltrating macrophages around hyalinized vessels. Protein-bound 4-hydroxy 2-nonenal, another oxidative stress marker, was detected in Antoni B tissue, but not in EHD. Antibodies to cleaved caspase-3 and single strand DNA, indicators of apoptosis, did not label tumors cells in Antoni B areas as well as EHD-bearing cells. The morphology and the mitotically static state of EHD-laden cells are phenotypically similar to autophagic cell death; however, autophagy in normal cells is a cell survival strategy against starvation, so the possibility remains that EHD are formed in that context. In either case, schwannomas may show a characteristic autophagic change by an endogenous mechanism. Tumor growth in a narrow intracranial space and resultant ischemia by self-oppression were postulated to be an initial event, because ischemia-reperfusion injury is a major source of reactive oxygen species and ischemia is also a potent trigger of autophagy as well as of tissue degeneration. Moreover, potential roles of chemokines and hemosiderosis are discussed.
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PMID:Oxidative stress is related to the formation of Antoni B patterns and eosinophilic hyaline droplets in schwannomas. 1764 38

An experimental model of haemosiderosis, using the chicken, was developed to examine the distribution of iron in the liver following an injection of iron dextran and to allow calibration of image analysis readings. Image analysis was used as a tool to quantify the stainable iron present in hepatic tissue obtained from wild and captive birds presented for necropsy. A retrospective study of 180 necropsy cases, representing 40 different species of bird, is described. Statistical evaluation of the amount and distribution of stainable iron in the liver tissue of birds from different taxonomic orders indicated that the concentration of iron measured in liver tissue was significantly different in different species of bird. The results of the study showed that hepatic haemosiderosis is a common histological finding in most avian species examined. Although not necessarily associated with overt liver disease, it is often associated with concurrent malignant and infectious diseases. The presence of excess stainable iron in the liver is probably a reflection of an altered iron metabolism associated with increased turnover of tissue iron. This alteration may occur following starvation or trauma.
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PMID:A quantitative assessment of haemosiderosis in wild and captive birds using image analysis. 1864 83

Parenteral iron is toxic to many species but, because the uptake of iron from the diet is regulated in the intestine, acute intoxication is not seen under natural conditions. Chronic ingestion of large amounts of absorbable iron in the diet can lead to the storage of iron in the liver in many species, including humans. The excess iron is stored within hepatocytes as haemosiderin and can be quantitatively assessed by liver biopsy or at necropsy using special stains such as Perls iron stain and/or biochemical tests. Iron may also be found within the Kupffer cells in the liver and the macrophage cells of the spleen especially where concurrent diseases are present such as haemolytic anaemia, septicaemia, neoplasia and starvation. Iron accumulation in the liver, also known as haemosiderosis, may not always be associated with clinical disease although in severe cases hepatic damage may occur. It is probable that concurrent disease conditions are largely responsible for the degree and nature of the pathological changes described in most cases of haemosiderosis. In some human individuals there may be a genetic predisposition to iron storage disease, haemochromatosis, associated with poor regulation of iron uptake across the intestine. In severe cases iron pigment will be found in the liver, spleen, gut wall, kidney and heart with subsequent development of ascites, heart failure and multisystem pathology. Clinical disease associated with accumulation of iron in the liver, and other tissues, has been reported in many species of bird although it is most commonly reported in Indian hill mynas ( Gracula religiosa ) and toucans ( Ramphastos sp ). It is likely that the tolerance to the build up of tissue iron varies in individual species of bird and that the predominant predisposing factors may differ, even within closely related taxonomic groups.
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PMID:Iron storage diseases in birds. 1918 82