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

Iron deficiency anemia is common in patients with chronic renal failure not undergoing hemodialysis. Current therapy consists of oral or intravenous (IV) iron dextran (IVID). The standard IV regimen is 100 to 200 mg/dose for a 1-g total dose. We hypothesized that 500 mg/wk of IVID for two doses would be less costly and equally effective as 200 mg/wk for five doses. We prospectively studied 22 patients with creatinine clearances less than 50 mL/min who were not undergoing dialysis and had anemia and evidence of iron deficiency (ferritin level <100 ng/mL or transferrin saturation [TSAT] <20%). Patients were randomized into two groups: group I (n = 8), 200 mg/wk of IVID for 5 weeks, and group II (n = 14), 500 mg/wk of IVID for 2 weeks. All patients tolerated IVID infusions without serious adverse reactions. Over the 6-month follow-up, both groups experienced an increase in hemoglobin levels from baseline. Ferritin levels in both groups increased (P < 0.005), peaked at 2 weeks, then declined thereafter. Over the 6-month follow-up, both groups experienced significant improvement, although the beneficial effects of group II declined at a significantly faster rate than group I (P = 0.003). There was no significant difference in change in ferritin levels between groups. TSAT peaked at 2 weeks in both groups (P < 0. 001). Group I experienced a significant increase in TSAT throughout the 6-month follow-up (P < 0.03), and group II achieved a significant increase in TSAT at 2 weeks, but not at 3 and 6 months. There was no significant difference in pretreatment to posttreatment change in TSAT. Treatment in group II was 35.2% more cost-effective than in group I ($965 versus $1,490, respectively). We conclude that IVID, 500 mg/wk, for 2 weeks is as effective and safe as 200 mg/wk for 5 weeks, but much less costly.
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PMID:Intravenous iron dextran treatment in predialysis patients with chronic renal failure. 1100 80

Iron status, i.e. serum ferritin and haemoglobin (Hb) levels, was assessed in a population survey in 1994 (Dan-Monica 10) comprising 1319 Caucasian Danish women in age cohorts of 40, 50, 60 and 70 years. In the entire series, ferritin levels increased significantly from 40 years to 60 years of age. The prevalence of small iron stores (ferritin 16-32 microg/l), depleted iron stores (ferritin < 16 microg/l) and of iron deficiency anaemia (ferritin < 13 microg/l and Hb < 121 g/l) decreased steadily with age. Blood donors (n = 109) had lower ferritin levels than non-donors (P<0.0001). Ferritin levels in donors were inversely correlated with the cumulated number of lifetime phlebotomies (r(s) = -0.25, P<0.01). Ferritin levels in non-donors (n = 1208) were low in 40-year-old women (median 40 microg/l) and increased to a median of 95 microg/l in 60- and 70-year-old women (P<0.0001). In non-donors 40 years of age, the prevalence of small iron stores was 40.4%, the prevalence of depleted iron stores 10.8% and the prevalence of iron deficiency anaemia 2.16%. The prevalence of iron overload (ferritin >300 microg/l) was 1.54%. Ferritin levels in 60- and 70-year-old non-donors were correlated with the body mass index (r(s) =0.11, P=0.01). Ferritin levels in 50- to 60-year-old non-donors were correlated with alcohol intake (r(s)=0.23, P<0.0001). In the entire series, 37.5% of non-donors took supplemental ferrous iron (median 14 mg iron per day). Iron supplements had a significant positive influence on iron status in 40-year-old premenopausal non-donors but no effect in postmenopausal women or in donors. Non-donors (n = 170) treated with acetylsalicylic acid had lower ferritin levels (median 55 microg/l) than non-treated (n = 1038; median 75 microg/l) (P<0.0001). Compared with the Dan-Monica 1 iron status survey in 1984, the prevalence of iron deficiency and iron deficiency anaemia was unchanged, whereas the prevalence of iron overload displayed a slight increase. The 1987 abolition of the mandatory iron fortification of flour apparently had no negative effect on iron status.
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PMID:Iron status in Danes 1994. II: Prevalence of iron deficiency and iron overload in 1319 Danish women aged 40-70 years. Influence of blood donation, alcohol intake and iron supplementation. 1113 20

In sub-Saharan Africa, anaemia in pregnancy results from multiple causes including malaria, iron deficiency and haemoglobinopathies. In a cross-sectional study among 530 pregnant women in Ghana in November-December 1998, red blood cell indices were analysed with respect to malaria, serum concentrations of ferritin and C-reactive protein (CRP), and the haemoglobin and alpha-globin genotypes. Anaemia (haemoglobin [Hb] < 11 g/dL) was found in 54% of the women; 63% harboured malaria parasites at predominantly low numbers. Ferritin levels were considerably influenced by malaria and inflammatory processes (CRP > 0.6 mg/dL). Depending on the definition applied, the prevalence of iron deficiency ranged between 5% and 46%. The HbAS trait was observed in 14%, HbAC and elevated HbF in 7% each, and sickle cell disease in 1%. Heterozygous beta-thalassaemia was present in 1% of the women and alpha(+)-thalassaemia in 33% (29% heterozygous, 4% homozygous). Women with HbAS had higher malaria parasite densities than those with HbAA. In individuals with highly elevated HbF (> 10%), parasitaemia occurred in 27% only. Low gravidity, second trimester of pregnancy, malaria, raised CRP levels, and homozygous alpha(+)-thalassaemia were independent risk factors for anaemia in multivariate analysis. alpha(+)-Thalassaemia, however, was associated with a lesser degree of malarial anaemia when compared to non-thalassaemic women. Iron deficiency appears not to be a major health problem in this population. Haemoglobinopathies are common but, except for homozygous alpha(+)-thalassaemia, do not substantially contribute to anaemia in pregnancy. alpha(+)-Thalassaemia ameliorates malarial anaemia in pregnant women.
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PMID:Anaemia in pregnant Ghanaian women: importance of malaria, iron deficiency, and haemoglobinopathies. 1113 70

In 1996, were studied in Costa Rica 961 children with ages between one and six years, with representation for metropolitan, urban and rural zones of the country. The classification approaches applied were emitted by the Pan-American Health Organization and the World Health Organization. The preschooler population presented in the national environment a prevalence of anemia of 26.3% (children from 1 to 4 years with hemoglobin < 11.0 g/dL and those from 5 to 6 years old with hemoglobin < 12.0 g/dL). The prevalence of Iron depletion (Ferritin < 12 ng/mL) and iron deficiency (Ferritin < 24 ng/mL) were 24.4% and 53.8%, respectively. The folate deficiency (< 6.0 ng/mL) was 11.4%. The iron deficiency was higher in children smaller than 4 years, being the maximum deficiency in the 1 year-old (75%). More than 40% of the preschool children presented sub-clinical deficiency of iron; of them, 10% showed severe deficiency of iron without presence of anemia. The children from the rural area presented the highest prevalence of anemia and iron depletion, while the metropolitan area met more frequency with iron deficiency. The nutritional anemias still constitute a moderate problem of public health in Costa Rica. The main cause is iron deficiency, associated in small proportion with folate deficiency and other factors associated with the erythropoiesis.
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PMID:[Prevalence of anemia, iron and folate deficiency in children 7 years smaller. Costa Rica, 1996]. 1151 31

Reference values for Ferritin Flex on the Dimension RxL analyzer calibrated against the 3rd International Standard for Ferritin (recombinant) and N-Latex Ferritin on the BNA II nephelometer calibrated against the 2nd International Standard for Ferritin (spleen) both from Dade Behring (Marburg, Germany) were established (77 men and 182 women). Exclusion criteria were iron deficiency or iron deficiency anemia, inflammation, liver disease, malignancy, and other hematological or chronic disorders. The reference values (5.0th-95th percentiles) were as follow: for N-Latex Ferritin - men, 12-399 microg/l; women <50 years, 11-102 microg/l and women > or =50 years, 17-219 microg/l; for Ferritin Flex - men, 14-415 microg/l; women <50 years, 11-111 microg/l and women > or =50 years, 22-224 microg/l. Both assays correlated very closely with each other (r=0.993). The linearity was acceptable down to 2 microg/l for the Ferritin Flex method, but only down to 15 microg/l for the N-Latex Ferritin assay. The mean recovery of the 3rd International Standard by N-Latex Ferritin and Ferritin Flex was comparable (approximately 80%). We conclude that the new Ferritin Flex assay, which is based on the new 3rd International Standard, should be used for ferritin measurement in the routine medical laboratories in the future.
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PMID:Reference values for a heterogeneous ferritin assay and traceability to the 3rd International Recombinant Standard for Ferritin (NIBSC code 94/572). 1205 77

The mRNA expression of ferritin subunits has not been studied thoroughly in the brain regions of iron-deficient rats. Sprague-Dawley rats (n = 26; 21 d old) were randomly assigned to an iron-deficient (3.5 mg Fe/kg diet) or a control diet (35 mg Fe/kg diet) for 6 wk. Ferritin protein and mRNA contents were quantified and the cellular expression of ferritin subunits in brain was determined. H and L ferritin had the same mRNA locations in nearly all brain regions. Both ferritin subunit mRNAs had heterogeneous distributions and there was a regional effect across brain regions. Iron deficiency did not affect the amount of ferritin mRNA in most brain regions, suggesting the post-transcriptional regulation of messengers by iron status. H ferritin protein was predominant in neurons and oligodendrocytes, whereas L ferritin protein and iron predominated in microglia cells and astrocytes as well as in oligodendrocytes and neurons. Ferritin mRNA was detectable only in neurons. Iron deficiency did not induce new types of cells containing either ferritin protein or mRNA. The fact that ferritin protein was found in four types of cells whereas mRNA was found in only one type of cell suggests that the site of ferritin synthesis is different from protein location in the brain. All of these data suggest that regulation of ferritin subunits is cellular and/or regional specific.
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PMID:H and L ferritin subunit mRNA expression differs in brains of control and iron-deficient rats. 1222 Dec 43

Anaemia is one of the most common disorders in pregnancy. The most common cause is iron deficiency. Iron deficiency anaemia is relatively easy to diagnose using a serum ferritin of <15 ng/ml. However, because ferritin is an acute phase reactant, the diagnosis of iron deficiency anaemia in hospitalised or ill patients may be difficult, since serum ferritin may be normal or raised, even in the face of iron deficiency. Soluble transferrin receptor assay (STfR) may be useful in these situations because it reflects the degree of iron requirement in relation to supply, and it is not an acute phase reactant. This study was undertaken to detect subclinical anaemia in pregnant women and to correlate STfR assay with the current diagnostic tests for iron deficiency anaemia. One hundred and fifty-three consenting pregnant women seen at the antenatal clinic at King Edward VIII Hospital (KEH) were recruited. Women on haemantinics, who had renal failure, haemoglinopathy and blood transfusion in the past 3 months, were excluded. An ELISA technique was used for the assay of STfR while standard methodology was used for the other biochemical and haematological assays (FBC, urea, creatinine, c reactive protein and iron studies). One hundred and fifty subjects were included in the final analysis. Seventy-two (48%) had varying degrees of iron deficiency anaemia. In 70% (105) of the samples analysed, serum ferritin and STfR agreed on the presence/absence of iron deficiency anaemia. STfR and S:F were 75% and 86% sensitive; 63% and 82% specific, respectively. The calculated positive and negative predictive values are: STfR 64% and 75%; S:F 84% and 87%; Hb 58% and 57%; mean corpuscular volume 91% and 55%, respectively. Ferritin remains the gold standard for the diagnosis of iron deficiency anaemia. However, because ferritin is an acute phase reactant, soluble transferrin receptor assay may be a better test in ill and hospitalised patients where ferritin may be normal or elevated, despite iron deficiency.
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PMID:Soluble transferrin receptors in anaemia of pregnancy. 1252 53

The pathophysiology of akathisia still remains controversial. Iron deficiency was proposed to be an important factor in the development of akathisia. In the present study, it was aimed to compare levels of serum iron and linked variables in chronic akathisic (n=30), and non-akathisic patients (n=30) with schizophrenia and healthy controls (n=30) because of the controversy in the association of iron and akathisia. The Barnes Akathisia Scale for akathisia and Simpson-Angus Rating Scale for extrapyramidal side effects were used. Serum iron and linked variables and hematological profile of the patients and control subjects were determined. Serum iron levels were significantly lower both in akathisic and non-akathisic groups compared to the control group (P<0.001). Moreover, akathisic patients had significantly lower iron levels than non-akathisic patients (P<0.05). Total iron binding capacity was significantly higher in patients with akathisia compared to the control group (P<0.01). Although non-akathisic patients had a mild increase in total iron binding capacity, it was not statistically significant compared to the control group (P>0.05). Ferritin levels were determined to be significantly lower in both groups compared to the control group (P<0.01). In addition, there was a significant difference in ferritin levels between the patients with and without akathisia (P<0.05). In conclusion, our results support the hypothesis that an association between akathisia and iron metabolism exists.
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PMID:Serum iron levels in schizophrenic patients with or without akathisia. 1265 Sep 48

Iron and oxygen are central to terrestrial life. Aqueous iron and oxygen chemistry will produce a ferric ion trillions of times less soluble than cell iron concentrations, along with radical forms of oxygen that are toxic. In the physiological environment, many proteins have evolved to transport iron or modulate the redox chemistry of iron that transforms oxygen in useful biochemical reactions. Only one protein, ferritin, evolved to concentrate iron to levels needed in aerobic metabolism. Reversible formation and dissolution of a solid nanomineral-hydrated, iron oxide is the main function of ferritin, which additionally detoxifies excess iron and possibly dioxygen and reactive oxygen. Ferritin is a large multifunctional, multisubunit protein with eight Fe transport pores, 12 mineral nucleation sites and up to 24 oxidase sites that produce mineral precursors from ferrous iron and oxygen. Regulation of ferritin synthesis in animals uses both DNA and mRNA controls and genes encoding two types of related subunits with: 1) catalytically active (H) or 2) inactive (L) oxidase sites. Ferritin with varying H/L ratios is related to cell-specific iron and oxygen homeostasis. H-ferritin oxidase activity accelerates rates of iron mineralization in ferritins and, in animals, ferritin produces H(2)O(2) as a byproduct. Properties of ferritin mRNA and ferritin protein pore structure are new targets for manipulating iron homeostasis. Recent observations of the high bioavailability of iron in soybean ferritin and efficient utilization of soybean and ferritin iron by iron-deficient animals, and of soybean iron by humans with borderline deficiency, indicate a role for ferritin in managing global iron deficiency in humans.
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PMID:Ferritin: at the crossroads of iron and oxygen metabolism. 1273 Apr 63

Iron deficiency is a major complication of regular blood donation as a result of regular iron loss from each donated blood unit. Ninety-two regular blood donors and 95 first time blood donors attending a hospital-based blood transfusion centre were assessed as to their haematological and iron status by blood counts and serum ferritin levels as an indicator of iron stores. All donors had passed the haemoglobin-screening test using a copper sulphate method prior to blood donation. Ferritin levels were found to be significantly lower among regular blood donors (47.8 mmol/L) as compared to first time blood donors (94.2 mmol/L). Iron deficiency as observed by low ferritin levels was seen in 7.4% of all first time donors as compared to 17.4% in regular donors. Male first time donors showed a low prevalence of iron deficiency but the prevalence significantly increased with regular blood donation. Female first time and regular blood donors however did not show any significant differences in prevalence of iron deficiency, with both groups exhibiting prevalence rates similar to male regular donors. The association between haemoglobin levels and iron deficiency was poor and the copper sulphate-screening test was found insensitive to anaemia with many donors passing the test and donating blood despite being anaemic. It is concluded that a high prevalence of iron deficiency is present among regular male blood donors and all female donors. Besides, the use of the copper sulphate screening test as a sole criterion for anaemia screening should be reviewed. Ferritin measurements should be included in the routine assessment of blood donors especially among regular blood donors.
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PMID:Anaemia and iron status among blood donors in a blood transfusion unit in Malaysia. 1619 72


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