Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0011849 (diabetes)
 277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A 71-year-old woman showed a highly unusual pattern of iron distribution in the organism which was associated with iron overload. The hallmark of this disease was an extreme hypersiderinemia, the serum iron reaching about 800 mug/100 ml. There was a pigment cirrhosis of the liver, bronzed skin containing hemosiderin, and diabetes mellitus. Paradoxically, hemosiderin was not detectable in bone marrow macrophages, sideroblasts and erythrocytes were reduced, and there was a decrease in radioiron utilization of erythropoiesis, thus indicating insufficient iron supply. The pathogenesis of this disorder based on the formation of an autoantibody with specificity for transferrin thus producing a circulating immune complex which bound the majority of serum iron. Immunosuppression achieved a partial remission including a recovery of the patient's general state, a rise in free transferrin, a decrease in serum iron, disappearance of hemosiderin in the liver, and a rise in erythrocyte production.
 ...
PMID:Transferrin-immune complex disease. 13 71

The question of whether iron overload causes glucose intolerance was studied in a group of 26 multiply transfused homozygous beta thalassemics. Of the 26, 13 (50%) had some abnormality in their oral glucose tolerance test, 5 fitting criteria for definite diabetes. Glucose intolerance correlated significantly with number of transfusions received and with age of the subjects, while a positive family history for diabetes was more common in the subjects with glucose intolerance. These data and a chart review of four deceased thalassemics with overt diabetes are consistent with the following conclusions: (1) glucose intolerance is common in multiply transfused thalassemics; (2) the incidence of abnormal glucose tolerance correlates with the number of transfusions received and the age of the subject; (3) a family history of diabetes may predisose multiply transfused thalassemics to glucose intolerance.
 ...
PMID:Abnormal glucose tolerance in beta-thalassemia major. 83 42

Patients with severe thalassaemia major suffer endocrine and other abnormalities before their eventual death from iron overload due to repeated blood transfusions. The endocrine status of 31 thalassaemic patients aged 2-5 to 23 years was investigated. Exact data were available on the rate and duration of blood transfusion in all of them and in many the liver iron concentration was also known. Although the patients were euthyroid, the mean serum thyroxine level was significantly lower, and the mean thyrotrophic hormone level significantly higher, compared with the values found in normal children. Forty oral glucose tolerance tests with simultaneous insulin levels were performed in 19 children, of whom 5 developed symptomatic diabetes and one had impaired tolerance. Previous tests on all 6 patients were available and some showed raised insulin levels possibly due to insulin resistance. 2 patients had clinical hypoparathyroidism and are described. The parathyroid hormone levels determined by radioimmunoassay in 25 patients were below the mean for the age group in all and outside the reference range in 16. Nonfasting plasma calcium levels were not reduced. Puberty was delayed in some patients. Concentrations of luteinizing hormone (LH) and follicle-stimulating hormone (FSH) measured in urine from 7 girls and 5 boys showed considerable variation. In the boys there was an overall tendency for FSH and LH excretion to be low with regard to age, but with respect to puberty rating FSH exretions were normal or low and LH normal or raised. The girls showed a tendency for LH but not FSH excretion to be raised in relation to puberty rating. The severity of the endocrine changes was related to the degree of iron loading and is discussed in relation to previous work in which the iron loading has rarely been accurately indicated nor parathyroid status assessed.
 ...
PMID:Hormonal changes in thalassaemia major. 100 88

The purpose of this study was to investigate through an epidemiological approach two controversial aspects of the pathogenesis of the diabetes mellitus of idiopathic haemochromatosis (I.H.) : the possible inheritance of the gene(s) for common diabetes mellitus (C.D.), and the diabetogenic role of iron overload. More than 80% of the living first degree relatives of 97 patients with I.H. were examined, while data were collected by inquiry concerning first degree relatives who had refused investigations or had died. Data on the more distant family members were also collected by inquiry. Physical examination and estimation of serum iron level and unsaturated-iron-binding capacity were systematically performed. When an anomaly had been thus detected further investigation for iron overload was carried out by mean of a deferoxamine test and eventually by liver biopsy. Evaluation of carbohydrate metabolism included testing for post-prandial glycosuria, estimation of post-prandial blood sugar, and eventually an oral glucose tolerance test. The results were compared to those of an inquiry for family history of diabetes in 100 patients with C.D. successively admitted to our department. Among the first degree relatives of patients with C.D. the prevalence of overt diabetes was 33 of 612 (5.4 %); whereas in the I.H. group it was 8 of 735 (1.1 %). The differences between the C.D. and I.H. groups were significant, whether the total I.H. group (p less than 10(-5)) or only I.H. proposite having overt diabetes (p less than 2 X 10(-2)) were considered. With respect to the more distant relatives the number of affected families was significantly higher in the C.D. group (31 of 100) than in the total I.H. group (5 of 97 ; p less than 10(-5)) or in the I.H. sub-group diabetic proposite (3 of 36 ; p less than 10(-2)). The frequency of carbohydrate intolerance in relatives bore no relation to the carbohydrate pattern of propositi. Carbohydrate intolerance was frequently found in relatives with iron overload (17 of 72). However, no correlation was observed between blood sugar and serum iron level or unsaturated-iron-binding-capacity, relatively gross parameters. Thus, the pathogenesis of diabetes mellitus associated with I.H. remains uncertain, but the inheritance of gene(s) for common diabetes is unlikely to play a determinant role.
 ...
PMID:[Diabetes of idiopathic haemochromatosis and common diabetes mellitus. Results of a prospective study of 97 families with idiopathic haemochromatosis (author's transl)]. 101 Jan 18

The association of haemochromatosis and osteoporosis is well established, but it is unclear whether this is due to iron overload, hypogonadism, liver disease, or diabetes mellitus. We describe a young eugonadal male patient with osteoporotic fractures as a presenting feature of haemochromatosis, suggesting that factors other than hypogonadism contribute to osteoporosis.
 ...
PMID:Osteoporotic fractures: an unusual presentation of haemochromatosis. 147 21

Iron overload was produced in Wistar rats by repeated intraperitoneal injections of ferric nitrilotriacetate (Fe(3+)-NTA) for one to six months. Pancreatic tissues from these iron-overloaded rats and untreated controls were examined for insulin (for B cells), glucagon (for A cells), transferrin receptor (TfR), transferrin (Tf) and ferritin (Ft) using immunohistochemical methods, and for iron by histochemical Berlin blue staining. In the islets of iron-overloaded rats, increased Ft staining appeared prior to deposition of Berlin blue-stainable iron, and the staining intensity of Ft and iron was stronger in B cells than in A cells. In the islets of untreated control rats, the staining intensity of TfR was stronger in B cells than in A cells. TfR staining of the islets was weaker in iron-overloaded rats than in the controls. These findings suggest that 1) iron uptake by islet cells in vivo is regulated and mediated by TfR, 2) intracytoplasmic Ft transforms into stainable iron in iron-overloaded rats, and 3) predominance of TfR expression in B cells may result in selective deposition of iron and predispose B cells to damage and diabetes mellitus in iron-overloaded rats.
 ...
PMID:Transferrin receptors and selective iron deposition in pancreatic B cells of iron-overloaded rats. 177 64

Diabetes mellitus is found with increased frequency in patients with both primary and secondary hemochromatosis. In these conditions, the pancreas shows fibrosis and iron overload of acini, interstitium, and islet B cells. Previous morphological studies have only described changes found in advanced stages of disease, while abnormalities of the initial stage of iron overload have, as yet, not been reported. Rats fed a carbonyl iron-supplemented diet for 4-15 months showed storage iron deposition (ferritin and hemosiderin) in many organs, in a pattern similar to primary human hemochromatosis. Electron microscopic examination of the pancreas showed ferritin particles segregated in lysosomes of acinar cells, as well as diffuse cytosiderosis of macrophages in the interstitial septa. In the islets, iron deposits were discrete and only in B cells. In the absence of electron-microscopic studies of incipient pancreatic cytosiderosis in human subjects, the present experimental animal study may contribute to a better understanding of the pathway leading to the extensive lesions found in the advanced stages of the human iron overloading diseases.
 ...
PMID:Ultrastructural changes in the pancreas of carbonyl iron-fed rats. 218 17

After 6 months on hemodialysis, a 58-year-old male patient with diabetes developed photosensitive bullous dermatosis on his hands and face. There was no evidence of liver diseases although the patient had a history of excessive alcohol consumption. He was suspected to have iron overload in the liver. Analysis of porphyrins in plasma, hemofiltrate, urine and feces by high performance liquid chromatography revealed significantly high levels in these samples with a porphyrin profiles which is consistent with porphyria cutanea tarda. The fluorometric assays of plasma also disclosed an elevated plasma porphyrin level. And it seemed that there were correlation between the fluctuation of vesicle formation, serum ferritin level and plasma porphyrin level. Small volume plasma exchange temporarily reduced the plasma porphyrin level and prevented vesicle formation.
 ...
PMID:[Porphyria cutanea tarda in a chronic hemodialysis patient]. 239 21

A significant decrease of work fitness was revealed in 23 patients with verified diagnosis of hereditary hemochromatosis exposed to graded physical exercise. It is assumed that the decrease of exercise tolerance in these patients may be most possibly accounted for by the lowering of myocardial contractility as a result of its injury due to iron overload. It is not excluded, however, that nonspecific dystrophic processes determined by diabetes mellitus, liver damage and coronary atherosclerosis in some cases may develop.
 ...
PMID:[Physical work capacity studied by measured physical loading in patients with hereditary hemochromatosis]. 263 73

The principle of iron conservation is the basis of iron metabolism; the normal basal loss of iron from the body is about 1 mg daily in a 70 kg man and 0.8 mg in a 55 kg woman. Iron is lost mainly by the menstrual and gastrointestinal routes. The total iron requirement during pregnancy is 800 mg; in the last month the requirement may amount to 7 to 8 mg/day. Supplementary iron is recommended for many menstruating women, and during the latter part of pregnancy. Correct fetal iron metabolism is ensured by proper maternal iron status, although there are contradictory opinions and findings about the relationship between maternal and fetal iron metabolism. Preterm infants fed on breast milk have a negative iron balance, and require an iron intake of about 0.6 mg/kg/day, and 3.4 mg/1 g haemoglobin, to compensate for intestinal and venesection iron losses, respectively. The absorption of supplementary iron by the preterm infant is a linear function of intake. Preterm infants do not require iron supplements when given repeated blood transfusions. During lactation the total iron losses of the mother are 1 mg/day, and thus no supplementary iron is needed if the iron metabolism has been in balance during the pregnancy. Serum ferritin concentration decreases continuously when iron stores in the body are reduced, and totally empty iron stores are the only known reasons for low serum ferritin concentration. Despite depleted iron stores, serum ferritin concentration can be normal or higher than normal in protein-energy malnutrition, up to 3 months after major surgery, in acute liver damage, in some patients with prolonged hyperglycaemia due to diabetes mellitus, in acute lobar pneumonia, active pulmonary tuberculosis and rheumatoid arthritis on gold therapy, in sepsis secondary to marrow hypoplasia induced by chemotherapy, in heavy drinkers and for a few days after myocardial infarction. In haemochromatosis, iron is deposited in liver (producing fibrosis), pancreas, endocrine glands and heart. The rise in the level of iron in the body is due to increased absorption and/or increased intake. This pathology may occur in transfusions, in alcoholism (especially when alcoholic beverages are contaminated with iron and the diet is low-protein), in several liver diseases, in congenital transferrin deficiency and in idiopathic disease. Patients susceptible to haemochromatosis should receive a low-iron diet. Serum ferritin determination may be helpful in early identification of susceptible members of a family with idiopathic familial haemochromatosis, but transferrin saturation is not a good indicator of either iron depletion or iron overload.(ABSTRACT TRUNCATED AT 400 WORDS)
 ...
PMID:Clinical pharmacokinetics of iron preparations. 267 7


1 2 3 4 5 6 7 8 9 10 Next >>