Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

---

Query: UMLS:C0240066 (iron deficiency)
7,156 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Until recent years, main biologic markers of inflammation used in current practice were limited to erythrocyte sedimentation rate, fibrinogen, and serum protein electrophoresis. A better understanding of inflammatory mechanisms and improvement of laboratories technologies helped in better understanding of the role and potential usefulness of inflammatory reaction proteins. Arrival of proteic profile and, more recently, the development of automation, still improved analysis of variations of different inflammatory reaction proteins. These proteins are then analyzed as an element of a "functional biological system", with known and so expected kinetics and ranges. The analyze of proteic profile combines the analyze of proteins variations, with elected but not exclusive associations, as Immunoglobulins and Complement, Orosomucoid and Haptoglobin, or Albumin and Transferrin. In Internal Medicine, proteic profile may help in solving daily problems. These problems may be so schematized: when the fundamental pathology is not yet known in an unraveling check-up, facing clinical symptoms, with a normal or fewly disrupted usual biologic panel, proteic profile may help to choose investigations necessary for the diagnosis; in the follow-up of patients treated for known inflammatory pathology facing new symptoms, part has to be done between complication of the disease and/or of the treatment, new pathology associated or unefficiency of the treatment. We report herein part of our experience of proteic profile in an Internal Medicine department, from some particularly demonstrative case reports: congenital or acquired abnormality of iron metabolism, with normal usual iron panel (iron deficiency, hemochromatosis); severe evolutive inflammatory or infectious disease with normal erythrocyte sedimentation rate (temporal arteritis, infectious endocarditis).
...
PMID:[Importance of the protein profile in internal medicine]. 751 44

Under normal circumstances, most of the lumenal iron taken into the intestinal mucosal cell is stored within the cell as ferritin and subsequently is lost in the faeces when the cell exfoliates at the end of its lifespan. To evaluate whether faecal iron proteins reflect mucosal cell iron as well as whole body iron and to examine further the kinetics of gastrointestinal iron transport, faecal H-rich and L-rich ferritin were measured in normal subjects and patients with iron deficiency and genetic haemochromatosis. In normal and iron-deficient subjects, the concentration of L-rich but not H-rich faecal ferritin correlated closely with body iron status. In genetic haemochromatosis, the faecal L-rich and H-rich ferritin concentrations were lower than expected for their body iron status. The administration of oral iron to normal subjects led to a rise in L-rich ferritin. Administration of oral or parenteral iron to patients with iron deficiency led to a prompt rise in both forms of faecal ferritin, although the relative increase of L-rich ferritin was greater than that of H-rich ferritin with oral iron administration. Faecal ferritin correlated closely with iron stores in normals and patients with iron deficiency but faecal ferritin levels were lower than expected in genetic haemochromatosis, similar to that previously noted in the duodenal mucosal cells of these patients.
...
PMID:Ferritin excretion and iron balance in humans. 764 9

Hemochromatosis (HC) is a common inherited disorder of iron metabolism for which neither the gene nor biochemical defect have yet been identified. The aim of this study was to look for clinical evidence that the predominant ancestral haplotype in Australian patients is associated with a common mutation in the gene. We compared indices of iron metabolism and storage in three groups of HC patients categorized according to the presence of the ancestral haplotype (i.e., patients with two copies, one copy, and no copies of the ancestral haplotype). We also examined iron indices in two groups of HC heterozygotes (those with the ancestral haplotype and those without) and in age-matched controls. These analyses indicate that (i) HC patients with two copies of the ancestral haplotype show significantly more severe expression of the disorder than those with one copy or those without, (ii) HC heterozygotes have partial clinical expression, which may be influenced by the presence of the ancestral haplotype in females but not in males, and (iii) the high population frequency of the HC gene may be the result of the selective advantage conferred by protecting heterozygotes against iron deficiency.
...
PMID:Evidence that the ancestral haplotype in Australian hemochromatosis patients may be associated with a common mutation in the gene. 766 62

In the present study we report a serial investigation of the numbers of the peripheral blood cells--erythrocytes, polymorphonuclear neutrophils, total lymphocytes, T-lymphocyte subpopulations (CD2, CD4, CD8), B lymphocytes and monocytes--in a group of 21 patients with haemochromatosis during the time of intensive phlebotomy treatment, i.e., from iron overload until the onset of iron deficiency. A remarkable individual stability of all blood cell populations studied was found in all patients. Patients differed in their relative proportions of CD4+ and CD8+. Each individual's CD4/CD8 ratio, as well as the absolute numbers, remained unaffected with time, confirming the existence of a strict homeostatic regulation of the relative numbers of the two major peripheral T lymphocytes. A significant positive correlation between CD4/CD8 ratios and the amount of iron mobilised by phlebotomy was found during this study. A novel correlation between the relative proportions of CD4+ and CD8+ cells and iron overload is confirmed by the follow-up of iron re-entry in the serum transferrin pool in the treated patients.
...
PMID:Haemochromatosis as a window into the study of the immunological system: a novel correlation between CD8+ lymphocytes and iron overload. 802 Jun 28

Limited red blood cell (RBC) regeneration often prevents collection of sufficient blood from autologous donors. We studied the effects of subcutaneous recombinant erythropoietin (rEPO) in subjects making frequent blood donations. Six healthy iron-replete male subjects took rEPO (200 U/kg) subcutaneously daily, and donated blood (450 mL) twice a week for 3 weeks. During a control study, these subjects also attempted twice-weekly blood donations without rEPO. Four other males given rEPO, including one with idiopathic hemochromatosis, waited until day 8 to begin blood donations. All healthy subjects took oral ferrous sulfate. Subcutaneous rEPO given with blood donations resulted in a marked reticulocytosis (mean peak value 568 +/- 159 x 10(9)/L v 235 +/- 77 x 10(9)/L, control study; P < .05), and enhanced RBC production at 28 days (1,208 +/- 227 mL v 719 +/- 161 mL, P < .05). rEPO in advance of blood donations was slightly less effective in normal subjects (941 +/- 139 mL, P < .05); however, the subject with hemochromatosis produced substantially more RBCs (1,764 mL) than any normal subject. rEPO-treated normal subjects (but not the rEPO-treated patient with hemochromatosis or untreated controls) produced iron-deficient RBCs with elevated zinc protoporphyrin levels and low hemoglobin content. These cells appeared within 1 week of rEPO administration and before laboratory confirmation of depleted iron stores. Thus, subcutaneous rEPO is an effective stimulant of erythropoiesis in nonanemic blood donors. However, in addition to eventual depletion of iron stores, early functional iron deficiency affects response to the drug.
...
PMID:Red blood cell regeneration induced by subcutaneous recombinant erythropoietin: iron-deficient erythropoiesis in iron-replete subjects. 835 95

The feeding of diets enriched with (3,5,5-trimethylhexanoyl)ferrocene (TMH-ferrocene) has been shown recently to produce a severe experimental iron overload in rats and has been considered as an adequate animal model for hereditary haemochromatosis in humans. We synthesized three 59Fe-labelled ferrocene compounds with different lipophilic characters (ferrocene, TMH-ferrocene, and 1,1'-bis(3,5,5-trimethylhexanoyl)ferrocene [(TMH)2-ferrocene]) and studied the metabolism of iron from these compounds in comparison with the hydrophilic ferrous sulphate in rats with iron deficiency, and normal and increased iron stores. The bioavailability of iron from TMH-ferrocene (whole body retention, 48% from a 5 mg Fe dose) was twice as high as from ferrocene and six times higher than from (TMH)2-ferrocene and ferrous sulphate. In contrast to the well-known iron salts (ferrous sulphate), the intestinal absorption of TMH-ferrocene iron was independent from the dose (1 or 5 mg Fe) and similar in iron-deficient and iron-loaded rats, indicating that the intestinal absorption of the TMH-ferrocene is not regulated by the body iron stores. After intestinal absorption, TMH-ferrocene iron in the portal blood is transported to the liver independently from transferrin. In contrast to absorbed ferrocene, iron from TMH-ferrocene is almost completely released from the hydrocarbon moiety within the liver. Depending on the body iron stores, TMH-ferrocene iron is then incorporated preferentially into haemoglobin (iron-deficient rats) or added to the iron stores in the liver (iron-loaded rats). A transient storage of the 59Fe-label in fat tissue was observed only from oral ferrocene but not from TMH-ferrocene. Due to the outstandingly high bioavailability of TMH-ferrocene, the chronic feeding of this compound resulted in a fast and progressive iron overload in rats (liver iron: 16.9 mg Fe/g wet weight after 10 weeks of feeding a diet containing 0.5% TMH-ferrocene), and can be regarded as the best characterized and most useful animal model for severe hepatocellular iron overload in humans.
...
PMID:Metabolism of iron from (3,5,5-trimethylhexanoyl)ferrocene in rats. A dietary model for severe iron overload. 843 91

We have studied the iron metabolism in nine patients with erythropoietic protoporphyria (EPP) and three patients with sideroblastic anaemia (SA). All, except one EPP patient were iron deficient. The SA patients had a secondary haemochromatosis. The bone marrow aspirates of patients with SA and also three patients with EPP had a high incidence of ring sideroblasts. Ultrastructural examination of the bone marrow consistently showed finely dispersed electron-dense deposits localized in mitochondria of erythroblasts in all patients with EPP and SA. Mitochondrial electron energy-loss spectroscopy (EELS) indicated identical iron compounds in erythroblasts of all EPP and SA patients. These findings indicate that the mitochondrial iron utilization is disturbed in EPP and SA. The observation of mitochondrial iron deposition in erythroblasts in EPP and SA suggests that this failure is not of pathognomonic value for diagnosis of SA, but is apparently the result of an inefficient haem synthesis, in EPP due to a defective ferrochelatase. The mitochondrial iron deposition does not depend on the iron status (iron overload or iron deficiency) of the EPP patient.
...
PMID:Accumulation of iron in erythroblasts of patients with erythropoietic protoporphyria. 846 22

The patient presented with apparent hemochromatosis and celiac sprue, a unique combination not previously reported. Almost all patients with celiac sprue have an iron deficiency which is usually present very early, often antedating other manifestations of the condition.
...
PMID:Hemochromatosis and celiac sprue. Case report. 850 14

Regulation of iron balance is of particular interest, especially iron absorption, cellular iron metabolism and transferrin-transferrin receptor in hematopoiesis. Recent advances in molecular and cell biology have helped to reveal the mysteries of cellular iron metabolism concerning mRNA encoding ferritin and transferrin receptor synthesis. The physiology of transferrin and transferrin receptor is applied in the evaluation of erythropoiesis, i.e., erythron transferrin uptake in ferrokinetics and measurement of serum transferrin receptor. In iron absorption, much of the key mechanism remains unknown. The importance of iron metabolism in human beings is discussed in traditional areas of iron deficiency and nutrition. Iron overload is a new clinical problem to be solved in hemochromatosis or in relation to ischemic heart disease.
...
PMID:Overview of iron metabolism. 858 65

Iron deficiency severe enough to cause anemia is associated with significant morbidity while uncontrolled iron absorption which occurs in disorders such as hereditary hemochromatosis causes multiorgan failure and early death. Preliminary data from the Third National Health and Nutrition Examination Survey demonstrate that the prevalence of iron deficiency anemia in the United States is now very low. This implies that the current iron consumption is adequate for most individuals. An important unresolved question relates to the necessity for further reducing the prevalence of iron deficiency without anemia. More information is required to determine whether this lesser degree of iron deficiency is harmful. Recent survey data indicate that concomitantly with the reduced prevalence of iron deficiency there has been a rise in serum ferritin concentrations in American men and postmenopausal women. These findings have led to concern about the effectiveness of the physiological mechanisms for limiting storage accumulation in normal individuals and carriers of the hemochromatosis gene when dietary iron content is high. Furthermore, recent epidemiological observations suggest that a modest increase in iron stores (in a range previously considered safe) is a possible risk factor for ischemic heart disease and cancer; however, a causal relationship remains to be proven. Nonetheless, because there is no known benefit of high iron storage status, it seems prudent to avoid further increases in and possibly to reduce the dietary iron intake of men and postmenopausal women. Mean intake in these groups exceeds the current RDA by a significant margin. Therefore, the sources of dietary iron as well as other factors contributing to high serum ferritin values have to be defined. Also, efforts should be made to increase the awareness of professionals and the public about the possible risks of excessive dietary iron. The complexity of the Western diet and an incomplete understanding of all of the factors affecting serum ferritin concentrations make it very difficult to specify a safe upper range for daily iron intake at the present time.
...
PMID:Deliberations and evaluations of the approaches, endpoints and paradigms for iron dietary recommendations. 881 5


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

---