scholarly journals Iron Deficiency and Erythropoiesis: New Diagnostic Approaches

2003 ◽  
Vol 49 (10) ◽  
pp. 1573-1578 ◽  
Author(s):  
Carlo Brugnara
Keyword(s):  
Chronic Disease ◽  
Iron Deficiency ◽  
Transferrin Saturation ◽  
Microcytic Anemia ◽  
Deficiency Anemia ◽  
Anemia Of Chronic Disease ◽  
Body Iron ◽  
Iron Stores ◽  
Human Erythropoietin ◽  
Iron Deficient

Abstract Iron deficiency anemia is one of the most common diseases worldwide. In the majority of cases, the presence of hypochromic microcytic anemia and biochemical evidence for depletion of body iron stores makes the diagnosis relatively straightforward. However, in several clinical conditions, classic biochemical indices such as serum iron, transferrin saturation, and ferritin may not be informative or may not change rapidly enough to reflect transient iron-deficient states (functional iron deficiency), such as the ones that develop during recombinant human erythropoietin (r-HuEPO) therapy. The identification and treatment of iron deficiency in settings such as r-HuEPO therapy, anemia of chronic disease, and iron deficiency of early childhood may be improved by the use of red cell and reticulocyte cellular indices, which reflect in almost real time the development of iron deficiency and the response to iron therapy. In the anemia of chronic disease, measurements of plasma cytokines and iron metabolism regulators such as hepcidin (when available) may be helpful in the characterization of the pathophysiologic basis of this condition. The ratio of serum transferrin receptor (sTfR) to serum ferritin (R/F ratio) has been shown to have excellent performance in estimating body iron stores, but it cannot be used widely because of the lack of standardization for sTfR assays. The combination of hematologic markers such as reticulocyte hemoglobin content, which decreases with iron deficiency, and R/F ratio may allow for a more precise classification of anemias.

scholarly journals The Treatment of Iron Deficiency Anemia

Blood ◽  
1955 ◽  
Vol 10 (6) ◽  
pp. 567-581 ◽  
Author(s):  
DANIEL H. COLEMAN ◽  
ALEXANDER R. STEVENS ◽  
CLEMENT A. FINCH
Keyword(s):  
Iron Deficiency ◽  
Gastrointestinal Symptoms ◽  
The Body ◽  
Deficiency Anemia ◽  
Deficient Diet ◽  
Significant Group ◽  
Body Iron ◽  
Iron Stores ◽  
Iron Deficient ◽  
Full Complement

Abstract In the normal individual the amount of iron absorbed and lost from the body each day is exceedingly small. There are certain periods during life when body iron requirements are increased; the most important of these is infancy. Here, existing iron stores are rapidly depleted, and a deficient diet can soon produce iron deficiency. Once a full complement of body iron has been accrued, the adult is independent of iron intake and becomes iron deficient only through blood loss. In the production of iron deficiency, iron stores are exhausted before anemia appears. If any question in diagnosis from usual laboratory tests exists, the direct. examination of marrow for hemosiderin will establish the diagnosis. It is of obvious importance to confirm the diagnosis by specific therapy and to determine the cause of the iron depletion. Response to oral iron is highly predictable and failure of response usually in dictates a mistaken diagnosis. In a small but significant group of patients, either unable to take iron because of gastrointestinal symptoms, unable to absorb iron, or in need of iron reserves, parenteral administration of iron has distinct advantages. The saccharated oxide of iron is an effective preparation for this purpose.

scholarly journals Treatment of Anemia of Chronic Disease with True Iron Deficiency in Pregnancy

2017 ◽  
Vol 2017 ◽  
pp. 1-7 ◽  
Author(s):  
Gabriela Amstad Bencaiova ◽  
Alexander Krafft ◽  
Roland Zimmermann ◽  
Tilo Burkhardt
Keyword(s):  
Chronic Disease ◽  
Iron Deficiency ◽  
Pregnant Women ◽  
Iron Deficiency Anemia ◽  
Intravenous Iron ◽  
Deficiency Anemia ◽  
Anemia Of Chronic Disease ◽  
Human Erythropoietin ◽  
Anemia Treatment ◽  
In Pregnancy

Objective.We assess and compare the efficacy of anemia treatment in pregnant women with anemia of chronic disease with true iron deficiency and in women with iron deficiency anemia.Study Design.Fifty patients with moderate anemia (hemoglobin 8.0–9.9 g/dl) and iron deficiency (ferritin < 15 μg/l) were treated in the Anemia Clinic at the Department of Obstetrics.Results.All patients showed stimulation of erythropoiesis as evidenced by an increase in reticulocyte count at day eight of therapy and showed an increase in hemoglobin and hematocrit at the end of therapy (p<0.001). The target hemoglobin (≥10.5 g/dl) was achieved in 45/50 women (90%). 12 patients showed anemia of chronic disease with true iron deficiency (12/50; 24%). Seven women (7/12; 59%) with anemia of chronic disease and iron deficiency responded well to anemia treatment. 50% of women with anemia of chronic disease and iron deficiency (3/6) responded well to intravenous iron, and 67% (4/6) responded well to the combination of intravenous iron and recombinant human erythropoietin.Conclusion.Because of frequent true iron deficiency in pregnant women with anemia of chronic disease, anemia of chronic disease in pregnancy is often falsely diagnosed as iron deficiency anemia.

scholarly journals Role of Serum Transferrin Receptor in Diagnosing and Differentiating Iron Deficiency Anemia from Anemia of Chronic Disease in Patients with Chronic Kidney Disease

2017 ◽  
Vol 7 (2) ◽  
pp. 132-137
Author(s):  
Abdul Latif ◽  
Muhammad Rafiqul Alam ◽  
Asia Khanam ◽  
Farhana Hoque ◽  
Muhammad Abdur Rahim ◽  
...  
Keyword(s):  
Chronic Kidney Disease ◽  
Chronic Disease ◽  
Kidney Disease ◽  
Iron Deficiency ◽  
Iron Deficiency Anemia ◽  
Transferrin Receptor ◽  
Deficiency Anemia ◽  
Control Group ◽  
Anemia Of Chronic Disease ◽  
Female Ratio

Background: Anemia is common in patients with chronic kidney disease (CKD) and this is generally anemia of chronic disease, but iron deficiency anemia (IDA) is also common. Soluble transferrin receptor (sTfR) is a useful marker for IDA. Present study was undertaken to assess the utility of sTfR as a marker of IDA in selected group of Bangladeshi patients with CKD.Methods: This cross-sectional study was conducted in the Department of Nephrology, BSMMU, Dhaka, Bangladesh from January 2013 to December 2014. Patients with anemia admitted in nephrology department whether on hemodialysis or not and medicine department of BSMMU were taken for study. The study population was further divided into two groups; Group A, patients who are having IDA and Group B, patients with ACD and a control group was also selected. Data were collected by face to face interview and laboratory investigations with a self-administered questionnaire.Results: The mean age of the patients in two study groups were 38.40±13.23 and 34.85±10.52 years respectively and male-female ratio were 0.5:1 and 1:0.5. Mean sTfR level was higher (4.81± 1.64 ?g/ml) in patients with IDA than (2.89±1.40 ?g/ml) in patients with ACD (p <0.0001). In our study mean ferritin level was 599.59± 449.15?g/L in ACD patients whereas 101.23±119.42 in IDA patients (p<0.0001). Total iron binding capacity (TIBC) was more in ACD patients with sTfRe”3?g/ml as compared to ACD patients with sTfR<3?g/ml. Transferrin saturation (TSAT) level was significantly decreased in ACD patients with sTfR ?3?g/ml as compared to ACD patients with sTfR<3?g/ml.Conclusion: sTfR has a comparable ability to S. ferritin in diagnosing IDA and ACD. However, sTfR and serum ferritin alone cannot definitely exclude co-existing iron deficiency in ACD. As sTfR is not affected by infection and/or inflammation, thus providing a non-invasive alternative to bone marrow study.Birdem Med J 2017; 7(2): 132-137

scholarly journals FOR A FEW STEPS TO..., OR HOW TO AVOID FOR IRON DEFICIENCY AT PREGNANCY. LITERATURE REVIEW

2020 ◽  
pp. 39-47
Author(s):  
I.A. Zhabchenko
Keyword(s):  
Chronic Disease ◽  
Iron Deficiency ◽  
Risk Groups ◽  
The Body ◽  
Reproductive Age ◽  
Deficiency Anemia ◽  
Perinatal Complications ◽  
Anemia Of Chronic Disease ◽  
Bowel Diseases ◽  
Iron Delivery

The article presents modern data on the etiology, pathogenesis, diagnosis, prevention and treatment of iron deficiency anemia (IDA) and anemia of chronic disease, as well as their combination on the eve of and during pregnancy. The emphasis is made on the role of iron deficiency of any etiology in the development of obstetric and perinatal complications, especially its impact on the central nervous system formation and further psychophysical child development. Need for prevention of iron deficiency states in risk groups which includes all women of reproductive age who have menstruation is shown based on evidence-based medicine data. Effectiveness and safety of modern drugs containing iron in oral and parenteral forms has analyzed. The paper presents data on the safety and effectiveness of an innovative form of ferric iron in the form of liposomal iron, which differs in the mechanism of action, digestibility and the absence of side effects typical for this group of drugs. According to various authors the frequency of IDA in pregnant women ranges up to 80%, in puerperas up to 40%. It is unimpossible to stop IDA without iron supplementation only with an iron-rich diet. Two main groups of iron preparations are used to correct iron deficiency differing in the valence of iron atoms – bivalent iron salts and trivalent complexes. These drugs differ in the tolerability and bioavailability of atomic iron. Liposomal iron is a new drug for treatment of iron deficiency and IDA today; it has an innovative way of iron delivery to the body. Liposomal iron has advantages for the prevention of anemia in patients with anemia of chronic disease or its combination with IDA (inflammatory bowel diseases, obesity, after resection of the stomach and intestines, etc.). An innovative form of liposomal iron in Ukraine is represented by a dietary supplement Ferroview containing 30 mg of elemental iron, that is corresponds to the average prophylactic dose recommended in WHO documents.

scholarly journals Inherited microcytic anemias

Hematology ◽  
2020 ◽  
Vol 2020 (1) ◽  
pp. 465-470
Author(s):  
Maria Domenica Cappellini ◽  
Roberta Russo ◽  
Immacolata Andolfo ◽  
Achille Iolascon
Keyword(s):  
Iron Deficiency ◽  
Blood Cell ◽  
Iron Metabolism ◽  
Red Blood Cell ◽  
Iron Status ◽  
Transferrin Saturation ◽  
Microcytic Anemia ◽  
Deficiency Anemia ◽  
Mean Corpuscular Hemoglobin ◽  
Distribution Width

Abstract Inherited microcytic anemias can be broadly classified into 3 subgroups: (1) defects in globin chains (hemoglobinopathies or thalassemias), (2) defects in heme synthesis, and (3) defects in iron availability or iron acquisition by the erythroid precursors. These conditions are characterized by a decreased availability of hemoglobin (Hb) components (globins, iron, and heme) that in turn causes a reduced Hb content in red cell precursors with subsequent delayed erythroid differentiation. Iron metabolism alterations remain central to the diagnosis of microcytic anemia, and, in general, the iron status has to be evaluated in cases of microcytosis. Besides the very common microcytic anemia due to acquired iron deficiency, a range of hereditary abnormalities that result in actual or functional iron deficiency are now being recognized. Atransferrinemia, DMT1 deficiency, ferroportin disease, and iron-refractory iron deficiency anemia are hereditary disorders due to iron metabolism abnormalities, some of which are associated with iron overload. Because causes of microcytosis other than iron deficiency should be considered, it is important to evaluate several other red blood cell and iron parameters in patients with a reduced mean corpuscular volume (MCV), including mean corpuscular hemoglobin, red blood cell distribution width, reticulocyte hemoglobin content, serum iron and serum ferritin levels, total iron-binding capacity, transferrin saturation, hemoglobin electrophoresis, and sometimes reticulocyte count. From the epidemiological perspective, hemoglobinopathies/thalassemias are the most common forms of hereditary microcytic anemia, ranging from inconsequential changes in MCV to severe anemia syndromes.

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