Non‐Specific Serum Iron in Thalassaemia: an Abnormal Serum Iron Fraction of Potential Toxicity

Hershko, Chaim; Graham, G.; Bates, George W.; Rachmilewitz, Eliezer A.

doi:10.1111/j.1365-2141.1978.tb03662.x

Cited by 404 publications

(211 citation statements)

References 16 publications

(22 reference statements)

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“…This is the reason why levels of NTBI in normal healthy individual do not exceed 1 lmol/L, and often undetectable by most of the methods [13]. In the iron overload scenarios like thalassemia; hemochromatosis and others iron gets a chance to exist in form which is not bond to Tf [2,[14][15][16][17][18]. Increased levels of NTBI in the above mentioned situations is easily explainable whereas it is difficult to give a convenient explanation for the raised levels of NTBI where Tf saturation is not high [18][19][20].…”

Section: Sources and Status Of Ntbi In Circulationmentioning

confidence: 99%

“…Endogenous source is more important factor as iron absorption is well regulated at the mucosal level. In hemolytic anemia, increased endogenous inflow of iron due to excess haemolysis and/or compensatory blood transfusion may cause higher saturation of Tf leading to existence of NTBI [2,14,15,21]. Lee et al [22] reported the existence of NTBI in diabetes mellitus.…”

Section: Sources and Status Of Ntbi In Circulationmentioning

confidence: 99%

“…There is a lacunae in the literature regarding the precise way of removal and the shelf life of NTBI, though some studies state its clearance from highly vascular organs like liver and heart [1]. Even after lapse of 34 years of its first mentioning of NTBI by Hershko et al [2] the equivocal of definition of NTBI is difficult proposition due its heterogeneous nature.…”

Section: Introductionmentioning

confidence: 99%

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Non Transferrin Bound Iron: Nature, Manifestations and Analytical Approaches for Estimation

Patel

Ramavataram

2012

Ind J Clin Biochem

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Section: Sources and Status Of Ntbi In Circulationmentioning

confidence: 99%

Section: Sources and Status Of Ntbi In Circulationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Non Transferrin Bound Iron: Nature, Manifestations and Analytical Approaches for Estimation

Patel

Ramavataram

2012

Ind J Clin Biochem

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“…This led to simple and sensitive assays that are performed under nearly physiological conditions, with 40-lM ascorbate added to initiate redox cycling of the iron and ensuing generation of reactive oxygen species (ROS) that are quantified by a fluorescence assay (Table I). Furthermore, unlike other studies [11,14,15], the LPI assay does not depend on supplementation of strong iron-mobilizing agents, or high-affinity chelators [16,20]. Thus, the assay avoids the inadvertent detection of TBI [15] or labile iron-chelates [19,[21][22][23].…”

Section: Rationale Of the Studymentioning

confidence: 99%

Non‐transferrin bound iron in Thalassemia: Differential detection of redox active forms in children and older patients

Breuer¹,

Ghoti

Shattat³

et al. 2011

American J Hematol

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Non-transferrin bound iron (NTBI) is commonly detected in patients with systemic iron overload whose serum iron-binding capacity has been surpassed. It has been perceived as an indicator of iron overload, impending organ damage and a chelation target in poly-transfused thalassemia patients. However, NTBI is a heterogeneous entity comprising various iron complexes, including a significant redox-active and readily chelatable fraction, which we have designated as ''labile plasma iron'' (LPI). We found that LPI levels can be affected by plasma components such as citrate, uric acid, and albumin. However, the inclusion of a mild metal mobilizing agent in the LPI assay (designated here as ''eLPI''), at concentrations that do not affect transferrin-bound iron, largely overcomes such effects and provides a measure of the full NTBI content. We analyzed three distinct groups of poly-transfused, iron overloaded thalassemia patients: non-chelated children (3-13 yrs, Gaza, Palestine), chelated adolescents-young adults (13-28 yrs, Israel), and chelated adults (27-61 yrs, Israel) for LPI and eLPI. The eLPI levels in all three groups were roughly commensurate (r 2 5 0.61-0.75) with deferrioxamine-detectable NTBI, i.e., DCI. In older chelated patients, eLPI levels approximated those of LPI, but in poly-transfused unchelated children eLPI was notably higher than LPI, a difference attributed to plasma properties affected by labile iron due to lack of chelation, possibly reflecting age-dependent attrition of plasma components. We propose that the two formats of NTBI measurement presented here are complementary and used together could provide more comprehensive information on the forms of NTBI in patients and their response to chelation. Am. J. Hematol. 87:55-61, 2012. V

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“…Transition metals such as iron, and some iron-containing low molecular weight compounds play an important role in the generation of reactive oxygen species (ROS) and free radicals, which are supposed to damage cellular and subcellular structures and cause metabolic dysfunction [3,4,9,10,12,19]. Inter alia, the disturbed iron metabolism generates oxygen-derived free radicals in thalassemias.…”

Section: Introductionmentioning

confidence: 99%

Iron status and oxidative stress in β‐thalassemia patients in Jakarta

Laksmitawati

Handayani

Udyaningsih-Freisleben

et al. 2003

BioFactors

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Abstract.A study on thalassemia intermedia and major patients in Jakarta was initiated to obtain a comprehensive picture of metabolic dysregulation, iron overload, oxidative stress, and cell damage. Data are presented from a group of 14 transfusiondependent patients in an age range of 11-25 years (T) and another group of 9 frequently transfused (for at least 15 years) patients aged 17-30 years (L). A third group comprised 6 patients (aged 7 to 14 years) who had not yet obtained transfusions (N). The 21 controls (C) were voluntary students without diagnosis or clinical signs of thalassemia up to 30 years of age. The study was approved by the Ethical Clearance Board of the Medical Faculty and all blood samples from controls and patients were obtained on fully informed consent. Levels of antioxidants (vitamins A, C, E and β-carotene) and reactive thiols are considerably decreased in transfused patients, whereas signs of iron overload and cell damage are increased (serum iron, ferritin, transferrin saturation, SGOT, SGPT, γ-GT, bilirubin). Results can be summarized that non-transfused thalassemia intermedia patients exert slight signs of oxidative stress, and increased hemoglobin degradation but no significant indication of tissue or cell damage. This picture differs considerably from transfusion-dependent thalassemia major patients: highly significant decrease in antioxidants and thiols and tremendous iron overload and cell damage. The picture is even worsened in long-term transfused patients. Iron chelation after transfusion is not sufficient in Indonesia, because it is normally (with few exceptions) applied only once together with transfusion. Hence, one major reason of the bad condition of transfusion-dependent thalassemia patients in Indonesia appears to be frequent transfusions (on the average one per month) and insufficient chelation of one treatment per month together with transfusion.

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Non‐Specific Serum Iron in Thalassaemia: an Abnormal Serum Iron Fraction of Potential Toxicity

Cited by 404 publications

References 16 publications

Non Transferrin Bound Iron: Nature, Manifestations and Analytical Approaches for Estimation

Non Transferrin Bound Iron: Nature, Manifestations and Analytical Approaches for Estimation

Non‐transferrin bound iron in Thalassemia: Differential detection of redox active forms in children and older patients

Iron status and oxidative stress in β‐thalassemia patients in Jakarta

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