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

Ferritin is an iron storage protein which has been shown to be present in blood serum only recently. An immunoradiometric determination of ferritin in 324 subjects with different iron stores is reported. In healthy men and women a ferritin concentration of 131 microgram/l (SD: 1,59) and 67 microgram/l (SD: 1,79) was found respectively. In male and female blood donors as well as patients with iron deficiency and iron overload significant differences of serum ferritin concentration could be demonstrated. In clinical practice the determination of serum ferritin is a valuable method for the estimation of body iron stores.
 ...
PMID:[Ferritin. Radioimmunological determination in serum and clinical significance (author's transl)]. 59 79

The present studies were conducted to determine the relationships between iron status and ferritin levels in plasma, liver, and spleen of rats. Rats were fed either iron-adequate or iron-deficient purified diets, and measurements of hemoglobin and plasma and tissue ferritin levels were made at various times during iron depletion and iron repletion. Although mean plasma ferritin concentrations of iron-deficient rats were directionally less than those of iron-adequate rats, these differences were not statistically significant due to high variability among similarly treated animals. During iron repletion plasma ferritin concentrations again were so variable that no significant effect of iron repletion on plasma ferritin concentrations was observed. On the other hand, liver and spleen ferritin concentrations of similarly treated rats were much less variable. Ferritin liver and spleen stores decreased more rapidly than hemoglobin during iron deficiency and were restored more slowly than hemoglobin during iron repletion. There was no evidence of correlation between liver and plasma ferritin concentration. Because of the variable responses of plasma ferritin concentration to iron depletion and repletion and the lack of relationship between plasma and liver ferritin concentrations, it is concluded that plasma ferritin concentration is not a good indicator of iron status in rats.
 ...
PMID:Variable effects of iron status on the concentration of ferritin in rat plasma, liver, and spleen. 62 22

A direct radioimmunoassay for ferritin in serum is described in which Bolton and Hunter reagent is used to label ferritin. The detection limit of the assay is 150 pg; 95% reference ranges were found to be 12-200 microgram/l for men and 5-76 microgram/l for women. Ferritin concentrations in patients with iron deficiency anaemia were found to be uniformly low in subjects with uncomplicated iron deficiency but were normal or even raised in subjects with iron deficiency anaemia associated with malignant or inflammatory conditions.
 ...
PMID:Measurement of serum ferritin by radioimmunoassay. 63 7

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.
 ...
PMID:Ferritin iron absorption in man. 112 Jan 90

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.
 ...
PMID:Brain iron: persistent deficiency following short-term iron deprivation in the young rat. 120 Dec 39

Iron deficiency is the most frequent cause of anemia. The correct diagnosis is based on history, peripheral blood findings and investigations of the iron status. Anemia occurs only when iron stores are empty. Iron deficiency anemia is a microcytic, hypochromic anemia. Red blood cells show poikilo- and anisocytosis with predominance of small erythrocytes. In one third of the patients the anemia is accompanied by slight leukopenia. The platelet counts may be normal, increased or decreased. Iron deficiency is documented by decreased serum iron, increased transferrin and decreased iron saturation. Ferritin below 15 ng/ml confirms the depletion of iron. Once the diagnosis of iron deficiency is established, its cause must be investigated. Pregnancy and bleeding are the most frequent conditions leading to iron deficiency. Therapy of iron deficiency involves treatment of the underlying condition as well as reestablishment of iron stores. Oral therapy is the most safe and economical method of correcting iron deficiency. Parenteral therapy should be confined to exceptional situations.
 ...
PMID:[Iron-deficiency anemia: diagnosis and therapy]. 156 14

Iron deficiency is frequent among physically active women. Several diagnostic and therapeutic strategies have been advocated. We determined how women's preferences for care varied with their risk of iron deficiency and/or anemia. The women's strength of feelings (utilities) and management costs were used to assess: 1) no evaluation or therapy; treatment based on a 2) complete blood count (CBC) or 3) ferritin level; and 4) empiric iron therapy. The analysis was applied to groups with differing iron deficiency prevalence. Women (N = 22) were adverse to the risk of both anemia and iron deficiency without anemia, and their preferences did not correlate with age, running mileage, years of running, or vitamin supplement use. Because of women's desire to avoid undiagnosed deficiency, the benefits of no evaluation, complete blood count assessment, and, to a less extent, serum ferritin decreased as the prevalence of iron deficiency increased. Ferritin level was more effective per cost than a CBC. However, empiric therapy had the highest effectiveness per cost. These results suggest a strategy that combines both patient concerns and the clinical suspicion of disease in choosing management for physically active women at risk for iron deficiency.
 ...
PMID:Management of suspected iron deficiency: a cost-effectiveness model. 179 74

The basic ferritin level in red cells was examined in 60 healthy volunteers and in 110 patients with various diseases of the red cell series. From samples of heparinized whole blood first leucocytes were removed and then they were haemolyzed. After subsequent centrifuging in the supernatant the basic ferritin content was assessed by means of an Amersham Ferritin RIA kit (Amersham, Great Britain). Normal values in healthy volunteers varied between 3.2 and 30.2 ag/ery. In patients with iron deficiency the values were significantly reduced, in patients with pernicious anaemia, beta-thalassemia minor, hereditary spherocytosis and glucose-6-phosphate dehydrogenase deficiency or pyruvate kinase deficiency the levels of red cell ferritin were significantly elevated, as compared with the control group. The red cell ferritin level depends on the iron supply to cells of the red cell series and the amount needed for erythropoiesis. A reduced supply in sideropenia leads to a reduced level of red cell ferritin, in haemolytic anaemia its level depends on the generally elevated iron supply in the organism and possibly impaired haemoglobin synthesis, on the one hand, and concurrent elevated iron requirements in case of hyperplasia of red cell formation, on the other hand. Assessment of red cell ferritin is important not only for accurate estimation of the amount of iron available in the cell for haeme formation but also to elucidate the pathogenesis of some changes of iron metabolism in diseases of the red cell series.
 ...
PMID:[The importance of determination of ferritin levels in erythrocytes]. 224 33

Iron status, including S-ferritin, S-iron, S-total iron binding capacity (TIBC), TIBC saturation, haemoglobin (Hb) and dietary iron intake, was assessed in a population study comprising 92 healthy 85-year-old subjects (32 males, 60 females). S-iron, S-TIBC, TIBC saturation and S-ferritin values were not significantly different in the two sexes. Males had a geometric mean S-ferritin of 130 micrograms/l, females of 98 micrograms/l. Ferritin levels less than 15 micrograms/l (i.e. depleted iron stores) were found in one female (1.6%); and in one male (3.1%), who in addition had iron deficiency anaemia. None of the females displayed latent iron deficiency (i.e. S-ferritin less than 15 micrograms/l and S-TIBC saturation less than 15%) or iron deficiency anaemia. Arithmetic mean Hb was 145 +/- 13 (SD) g/l (9.0 +/- 0.8 mmol/l) in males and 139 +/- 11 g/l (8.6 +/- 0.7 mmol/l) in females (p less than 0.02). Median nutritional iron intake was 10 mg/day (range 3-17), higher in males (median 12) than in females (median 9) (p less than 0.0001). Iron intake showed significant correlations to S-iron, S-TIBC and TIBC saturation, but not to S-ferritin.
 ...
PMID:Serum ferritin and iron status in a population of 'healthy' 85-year-old individuals. 231 46

In 340 bone marrow biopsies we compared ferritin, stained with an immunoperoxidase method, with hemosiderin, stained with Perls' reaction. Ferritin and hemosiderin showed the same distribution in reticuloendothelial cells. All the Perls-positive cases (n = 177) were ferritin-positive too. None of the ferritin-negative cases (n = 13) were Perls-positive. Of 163 cases with negative Perls' reaction in bone marrow, 13 (12.5%) were also ferritin-negative: these patients were mainly affected by polycythemia vera or by untreated iron deficiency anemia. Thus, immunohistochemical assessment of bone marrow ferritin can be a more sensitive tool for the evaluation of body iron stores in iron deficiency than Perls' reaction.
 ...
PMID:Immunohistochemical assessment of ferritin in bone marrow trephine biopsies: correlation with marrow hemosiderin. 246 64


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