Eleni Eracleous scite author profile

Effective new therapies and mechanisms have been developed for the targeting and prevention of iron overload and toxicity in thalassaemia and idiopathic haemochromatosis patients. A new era in the development of chelating drugs began with the introduction of deferiprone or L1, which as a monotherapy or in combination with deferoxamine can be used universally for effective chelation treatments, rapid iron removal, maintenance of low iron stores and prevention of heart and other organ damage caused by iron overload. Several experimental iron chelators such as deferasirox (4-[3,5-bis (2-hydroxyphenyl)-1,2,4-triazol-1-yl]-benzoic acid) or ICL670, deferitrin (4,5-dihydro-2- (2,4-dihydroxyphenyl)-4-methylthiazole-4 (S)-carboxylic acid) or GT56-252, 1-allyl-2-methyl-3-hydroxypyrid-4-one or L1NAll and starch deferoxamine polymers have reached different stages of clinical development. The lipophilic ICL670, which can only be administered once daily is generally ineffective in causing negative iron balance but is effective in reducing liver iron. It is suspected that it may increase iron absorption and the redistribution of iron from the liver to the heart and other organs. The experimental iron chelators do not appear to have significant advantages in efficacy and toxicity by comparison to deferiprone, deferoxamine or their combination. However, the prospect of combination therapies using deferiprone, deferoxamine and new chelators will provide new mechanisms of chelator interactions, which may lead to higher efficacy and lower toxicity by comparison to monotherapies. A major disadvantage of the experimental chelators is that even if they are approved for clinical use, they are unlikely to be as inexpensive as deferiprone and become available to the vast majority of thalassaemia patients, who live in developing countries.

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Low Serum Ferritin Levels are Misleading for Detecting Cardiac Iron Overload and Increase the Risk of Cardiomyopathy in Thalassemia Patients. The Importance of Cardiac Iron Overload Monitoring Using Magnetic Resonance Imaging T2 and T2*

Kolnagou¹,

Economides²,

Eracleous³

et al. 2006

Hemoglobin

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The incidence of cardiomyopathy was monitored in a 6-year follow-up study involving 56 transfused thalassemia patients treated with deferoxamine (DFO), deferiprone (L1) or their combination. During this period, five female patients on regular subcutaneous or intravenous DFO presented with cardiac complications. Three patients suffered congestive heart failure and the other two arrhythmias. Four of the five patients maintained serum ferritin levels of about 1 mg/L or below and the fifth about 1.5 mg/L for several years prior to the cardiomyopathy. Cardiac magnetic resonance imaging (MRI) T2* and T2 was performed in four patients after the cardiomyopathy, identifying the presence of moderate-to-heavy siderosis. The treatment of the five patients has since changed, involving mainly the use of L1. Low serum ferritin levels appear to be misleading for detecting cardiac iron overload and this may increase the risk of cardiomyopathy. The MRI T2 and T2* relaxation time measurements are a more accurate method of detecting cardiac iron overload. Chelation therapy using L1 or appropriate L1/DFO combinations can reduce cardiac iron overload and the mortality rate in thalassemia patients.

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Contrast-Enhanced Magnetic Resonance Cholangiography Versus Heavily T2-Weighted Magnetic Resonance Cholangiography

Papanikolaou¹,

Prassopoulos²,

Eracleous³

et al. 2001

Investigative Radiology

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Uses and Limitations of Serum Ferritin, Magnetic Resonance Imaging T2 and T2* in the Diagnosis of Iron Overload and in the Ferrikinetics of Normalization of the Iron Stores in Thalassemia Using the International Committee on Chelation Deferiprone/Deferoxamine Combination Protocol

Kolnagou¹,

Yazman²,

Economides³

et al. 2009

Hemoglobin

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Excess cardiac iron deposition leads to congestive cardiac failure and accounts for more than 70% of deaths in thalassemia major patients. In three separate studies involving 145 thalassemia patients, serum ferritin and magnetic resonance imaging (MRI) relaxation times T2 and T2* have been compared for assessing iron load levels during chelation treatment. In two studies, variable levels of cardiac iron load have been detected by T2 and T2* in patients treated with deferoxamine (DFO), which, however, were unrelated to serum ferritin. In most cases, similar range levels from normal to severe cardiac iron load could be identified by both the T2 and T2* methods. However, in a few cases there were substantial differences in the levels detected between the two methods. In the third study, the ferrikinetics of the normalization of the iron stores during the International Committee on Chelation (ICOC) deferiprone (L1)/DFO combination protocol was followed up using T2 and T2* and serum ferritin. Iron deposits were found not to be proportionally distributed between the liver and the heart or uniformly distributed within each organ. Iron mobilization in each patient varied and iron deposits in each organ were cleared at different rates. Despite some limitations, the application of the MRI relaxation times T2 and T2* offers the best diagnostic methods for iron overload estimations in most organs and especially the heart. These MRI methods and serum ferritin could also be used for the ferrikinetics of iron mobilization and removal during chelation therapy and the normalization of the iron stores during the ICOC L1/DFO combination protocol. There is a need to standardize the two MRI relaxation times T2 and T2* methods and identify the factors causing the differences between them.

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Long Term Comparative Studies in Thalassemia Patients Treated with Deferoxamine or a Deferoxamine/Deferiprone Combination. Identification of Effective Chelation Therapy Protocols

Kolnagou¹,

Economides²,

Eracleous³

et al. 2008

Hemoglobin

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For the past 2-6 years, two groups of thalassemia patients, one of 16 patients on deferoxamine (DFO) monotherapy (35-80 mg/kg, 2-5 days/week) and the other group comprising 19 patients on a deferiprone (L1) and DFO combination therapy (L1 75-100 mg/kg/day and DFO 30-60 mg/kg, 1-5 days/week), have been studied and compared before and after the introduction of the combination therapy. The patients on the combination therapy were mainly those not complying or experiencing toxicity with DFO. The effects of chelation therapy on iron load was monitored using regular serum ferritin measurements and also magnetic resonance imaging (MRI) T2* relaxation time measurements at the end of the study. In both groups, cardiac MRI T2* levels were within the normal range (>19 ms) in more than 75% of the patients. There was a substantial improvement in serum ferritin levels and normalization of the MRI T2* levels of the liver in many cases treated with the combination therapy at effective doses by comparison to the DFO group, where the serum ferritin and MRI T2* levels were largely unchanged. It would appear that the major overall determining factor in the rapid clearance of excess iron in thalassemia patients and the maintenance of normal iron stores is the selection and implementation of effective chelation dose protocols. The International Committee on Chelation (ICOC) combination protocol L1 (80-110 mg/kg/day)/DFO (40-60 mg/kg at least 3 days per week) and to a lesser extent, DFO monotherapy at about 50 mg/kg/day, 5 days/week, appears to achieve this goal.

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Eleni Eracleous

Advances in Iron Overload Therapies. Prospects for Effective Use of Deferiprone (L1), Deferoxamine, the New Experimental Chelators ICL670, GT56-252, L1NAll and their Combinations

Low Serum Ferritin Levels are Misleading for Detecting Cardiac Iron Overload and Increase the Risk of Cardiomyopathy in Thalassemia Patients. The Importance of Cardiac Iron Overload Monitoring Using Magnetic Resonance Imaging T2 and T2*

Contrast-Enhanced Magnetic Resonance Cholangiography Versus Heavily T2-Weighted Magnetic Resonance Cholangiography

Uses and Limitations of Serum Ferritin, Magnetic Resonance Imaging T2 and T2* in the Diagnosis of Iron Overload and in the Ferrikinetics of Normalization of the Iron Stores in Thalassemia Using the International Committee on Chelation Deferiprone/Deferoxamine Combination Protocol

Long Term Comparative Studies in Thalassemia Patients Treated with Deferoxamine or a Deferoxamine/Deferiprone Combination. Identification of Effective Chelation Therapy Protocols

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