Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0240066 (iron deficiency)
7,156 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The role of iron supply in the regulation of hepatic transferrin synthesis by the isolated perfused rat liver was studied using nutritional iron deficiency as the experimental model. The increased transferrin release encountered in iron deficiency could be equated with enhanced de novo synthesis as evidenced by the inhibitory effects of cycloheximide and measurements of intrahepatic protein pools before and after perfusion. Refeeding with iron, sufficient to restore plasma iron and hepatic ferritin iron but before correction of anaemia, promoted a reduction towards normal in the transferrin synthetic rate. This effect was not produced by transfusional correction of the anaemia, suggesting a specific response to iron supply. Phenobarbitone treatment, which produced a marked fall in hepatic ferritin iron concentration but no change in haemoglobin or plasma iron concentrations, promoted a specific enhancement of transferrin synthesis in both control and iron deficient livers. The concentration of liver iron stores appears to be a major regulatory factor in the control of hepatic transferrin synthesis.
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PMID:The role of iron in the regulation of hepatic transferrin synthesis. 88 9

Ferrritin can be measured in blood serum radioimmunometrically. Serum ferritin is directly correlated to body iron stores. In comparison to other parameters of storage iron (bone marrow iron, intestinal iron absorption) this quantitative diagnostic parameter is easily available. Thus it can be used to judge body iron status. In 20 patients with chronic haemorrhagic and 7 patients with posthaemorrhagic iron deficiency anaemia as well as nine blood donors with latent iron deficiency serum ferritin was used to control oral iron therapy. The continuous determination of serum ferritin during therapy gives a quantitative value of the relevant level of body iron stores. This value shows whether therapy was effective and when iron stores are replenished. The results demonstrate that oral iron therapy should be continued for at least 3 months from the time of normalisation of haemoglobin to obtain a sufficient restoration of iron depots.
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PMID:[Serum ferritin as a control parameter for oral iron therapy (author's transl)]. 89 9

A group of 359 healthy children and 49 adults were studied for the purpose of estimating the normal limits for serum iron concentration and transferrin saturation. The 144 children and seven adults who has any other laboratory evidence of iron deficiency (abnormal values of serum ferritin, free erythrocyte protoporphyrin, hemoglobin concentration, or mean corpuscular volume) were excluded. In evaluating the 215 children and 42 adults who met the criteria to be considered normal we found that serum iron concentration and transferrin saturation were significantly lower in children between the ages of 0.5 and 12 years than in adults. We conclude that in children between the ages of 0.5 and 12 years, a transferrin saturation of less than 16% constitutes good evidence of iron deficiency only in conjuction with anemia and low mean corpuscular volume.
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PMID:Serum iron concentration and transferrin saturation in the diagnosis of iron deficiency in children: normal developmental changes. 92 12

Prevention of iron deficiency in low-birth-weight infants requires iron supplementation before neonatal iron stores are exhausted. In order to accurately determine when this depletion occurs, we measured the hemoglobin, mean corpuscular volume, serum iron/iron-binding capacity, and serum ferritin in 117 low-birth-weight infants (1,000 to 2,000 gm) from 0.5 until 6 months of age. All infants received banked breast milk in the hospital and breast milk or cow milk formula later; those with odd birth dates received 2 mg iron as ferrous sulfate/kg/day starting at 0.5 months; those with even birth dates received no additional iron unless they developed anemia. The results indicate that low-birth-weight infants who receive no supplemental iron may develop iron deficiency by three months of age and that a dose of iron of 2 mg/kg/day started at two weeks of age prevents iron deficiency without providing excess.
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PMID:At what age does iron supplementation become necessary in low-birth-weight infants? 92 14

Iron deficiency is a frequent complication in chronically hemodialyzed patients because of the significant blood losses associated with this technique. Quantitating iron stores (by marrow examination or serum iron and total iron-binding capacity) on a repetitive basis had been difficult or unreliable, often resulting in failure to recognize iron deficiency superimposed on the existing anemia of chronic renal failure, or overtreating, which can lead to iron excess. Use of the serum ferritin allows easier quantitation of iron stores and, when measured serially in dialysis patients, can predict the emergence of iron deficiency. There was no correlation between serum ferritin levels and serum iron, total iron-binding capacity, or percent transferrin saturation. Iron absorption studies show that food iron absorption is physiologic, increasing when the serum ferritin is below 30 ng/ml, decreasing when more than 300 ng/ml. Treatment of iron deficiency with oral iron compounds increases serum ferritin levels and usually can maintain iron balance.
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PMID:Iron balance in hemodialysis patients. 93 Dec 7

The iron status of a population of 1564 subjects living in the northwestern United States was evaluated by measurements of transferrin saturation, red cell protoporphyrin, and serum ferritin. The frequency distribution of these parameters showed no distinct separation between normal and iron-deficient subjects. When only one of these three parameters was abnormal (transferrin saturation below 15%, red cell protoporphyrin above 100 mug/ml packed red blood cells, serum ferritin below 12 ng/ml), the prevalence of anemia was only slightly greater (10.9%) than in the entire sample (8.3%). The prevalence of anemia was increased to 28% in individuals with two or more abnormal parameters, and to 63% when all three parameters were abnormal. As defined by the presence of at least two abnormal parameters, the prevalence of iron deficiency in various populations separated on the basis of age and sex ranged from 3% in adolescent and adult males to 20% in menstruating women. It is concluded that the accuracy of detecting iron deficiency in population surveys can be substantially improved by employing a battery of laboratory measurements of the iron status.
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PMID:Evaluation of the iron status of a population. 95 65

The iron absorption from ferritin and hemosiderin biosynthetically labeled with radioiron was studied in 108 subjects. The geometric mean absorption of ferritin iron in both normal and iron-deficient subjects was 1.9 percent. Its mean absorption ranged from 0.9 percent in normal subjects to 2.5 percent in subjects with moderate iron deficiency and 5.7 percent in subjects with marked iron deficiency. The administration of this iron compound with vegetals in a meal showed distinctly lower absorption values than the absorption from either maize, wheat, or soybean. Ferritin iron absorption was also different from that of ferric chloride when they were administered together as a drink or mixed with maize or liver. The iron absorption from ferritin was markedly increased when it was administered with either meat or liver, but it did not reach the absorption level of these foods. It is still to be elucidated whether the difference in iron absorption between ferritin and vegetable foods administered together reflect that this iron is incompletely miscible with a nonheme iron pool or that it really forms a third iron pool.
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PMID:Ferritin iron absorption in man. 112 Jan 90

Rat intestinal mucosa gave low yields of ferritin purified by standard procedures. The resulting ferritin had less protein relative to iron and migrated faster electrophoretically than ferritin from other rat tissues. Pancreatic duct ligation reduced these differences, suggesting digestive enzyme attack during ferritin isolation. Even in ligated rats, ferritin accounted for only 5-10% of mucosal iron. However, shortly after giving 59FeCl3 orally, 50% of mucosal radioactivity occurred in cell sap, about equally distributed between ferritin and low-molecular-weight (chelated?) iron. No other cell sap components were 59Fe labeled. Iron may thus be transported as a chelate with which ferritin is in rapid equilibrium. Mucosal ferritin content increased with age and iron treatment and decreased with iron deficiency. The iron-deficient rats showed accelerated 59Fe uptake into blood with little mucosal retention. One day after administering parenteral iron to deficient rats, 59Fe transfer to blood became retarded but 59Fe now accumulated excessively in the mucosa, suggesting that iron status affects transport more rapidly at the serosal than at the mucosal cell surface. A scheme for control of iron absorption is presented.
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PMID:Ferritin and intestinal iron absorption: pancreatic enzymes and free iron. 114 11

This study was designed to determine the content of non-haem iron in the brain as iron deficiency develops in the rapidly growing rat. Rats were provided with either an iron-deficient diet or an identical control diet with added ferrous sulphate starting at 10 d of age and continuing after weaning at 21 d. At 28 d or 48 d of age the deficient animals received 5 mg of iron (iron dextran) i.m. and were placed on the control diet regimen. The deficient animals had a concentration of non-haem iron in the brain that was 27% below the control value at 28 d and 22% below at 48 d. After 14-45 d of iron treatment, the non-haem iron remained depressed, 19-29% below the control means (P less tha 0.05 to 0.001). Ferritin iron in brain also remained depressed, 33-42% below the control means (P less than 0.01). In contrast, haematocrit, liver non-haem iron, and liver ferritin iron, although they were more profoundly depressed in the iron-deficient animals, promptly returned to control values after treatment with iron. Thus, a brief period of severe iron deficiency in the young rat resulted in a deficit of brain iron that persisted in the adult animal despite an adequate intake of iron.
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PMID:Brain iron: persistent deficiency following short-term iron deprivation in the young rat. 120 Dec 39

Iron absorption from hemosiderin and ferritin biosynthetically labeled with radioactive iron has been studied in 61 subjects. The geometrical mean iron absorption from hemosiderin in both normal and iron deficient subjects was 3.4%. Its mean absorption ranged from 1.9% in normal subjects to 4.7% in subjects with moderate iron deficiency and 7.3% in subjects with marked iron deficiency. The iron absorption from hemosiderin was markedly increased when it was administered with ascorbic acid or liver. The absorption of iron from hemosiderin when hemosiderin and wheat were consumed in a meal, was lower than the absorption from wheat. Iron from liver ferritin and liver hemosiderin were less absorbed in this study than that previously reported for liver hemoglobin. The studies presented here support the possibility that ferritin and hemosiderin form an iron pool different from the non-heme pool formed by vegetal iron, egg iron and ferric and ferrous salts.
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PMID:Iron absorption by humans from hemosiderin and ferritin, further studies. 124 87


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