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MRI multicentre prospective survey in thalassaemia major patients treated with deferasirox versus deferiprone and desferrioxamine.
Pepe, A, Meloni, A, Pistoia, L, Cuccia, L, Gamberini, MR, Lisi, R, D'Ascola, DG, Rosso, R, Allò, M, Spasiano, A, et al
British journal of haematology. 2018;(5):783-795
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Abstract
We prospectively assessed the efficacy of deferasirox versus deferiprone or desferrioxamine as monotherapy in thalassaemia major (TM) patients by magnetic resonance imaging (MRI). We selected the patients enrolled in the Myocardial Iron Overload in Thalassaemia network who received only one chelator between two MRIs (deferasirox = 235, deferiprone = 142, desferrioxamine = 162). Iron overload was measured by T2* technique and biventricular function by cine images. Among the patients with baseline myocardial iron, in all three groups there was a significant improvement in global heart T2* values. The deferiprone and desferrioxamine groups showed a significant improvement in left ventricular ejection fraction (LVEF). Only the deferiprone group showed a significant improvement in right ventricular ejection fraction (RVEF). The improvement in global heart T2* was significantly lower in the deferasirox versus the deferiprone group. The improvement in the LVEF was significantly higher in the deferiprone and desferrioxamine groups than in the deferasirox group and the improvement in the RVEF was significantly higher in the deferiprone than in deferasirox group. Among the patients with baseline hepatic iron, the changes in hepatic iron were comparable in deferasirox versus the other groups. Deferasirox monotherapy was less effective than deferiprone in improving myocardial siderosis and biventricular function and less effective than desferrioxamine in improving the LVEF.
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One-year results from a prospective randomized trial comparing phlebotomy with deferasirox for the treatment of iron overload in pediatric patients with thalassemia major following curative stem cell transplantation.
Inati, A, Kahale, M, Sbeiti, N, Cappellini, MD, Taher, AT, Koussa, S, Nasr, TA, Musallam, KM, Abbas, HA, Porter, JB
Pediatric blood & cancer. 2017;(1):188-196
Abstract
BACKGROUND Iron overload is well documented in patients with β-thalassemia major, and patients who have undergone hematopoietic stem cell transplantation (HSCT) remain at risk as a result of pre- and immediate post-HSCT transfusions. PROCEDURE This is a prospective, randomized, 1-year clinical trial that compares the efficacy and safety of the once-daily oral iron chelator deferasirox versus phlebotomy for the treatment of iron overload in children with β-thalassemia major following HSCT. RESULTS Patients (aged 12.4 years) received deferasirox (n = 12, 10 mg/kg/day starting dose) or phlebotomy (n = 14, 6 ml/kg/2 weeks) for 1 year. In two and five patients, deferasirox dose was increased to 15 and 20 mg/kg/day, respectively. Magnetic resonance imaging (MRI)-assessed liver iron concentration (LIC) decreased with deferasirox (mean 12.5 ± 10.1 to 8.5 ± 9.3 mg Fe/g dry weight [dw]; P = 0.0005 vs. baseline) and phlebotomy (10.2 ± 6.8 to 8.3 ± 9.2 mg Fe/g dw; P = 0.05). LIC reductions were greater with deferasirox than with phlebotomy for patients with baseline serum ferritin 1,000 ng/ml or higher (-8.1 ± 1.5 vs. -3.5 ± 5.7 mg Fe/g dw; P = 0.048). Serum ferritin and non-transferrin-bound iron also decreased significantly. In two patients with severe cardiac siderosis, a clinically relevant improvement in myocardial T2* was seen, following phlebotomy and deferasirox therapy (n = 1 each). Adverse effects with deferasirox were skin rash, gastrointestinal upset, and increased liver function tests (all n = 1), while those for phlebotomy were difficulty with venous access (n = 4) and distress during procedure (n = 1). Parents of 13/14 children receiving phlebotomy wished to switch to deferasirox, with 1/14 being satisfied with phlebotomy. CONCLUSIONS Deferasirox treatment or phlebotomy reduces iron burden in pediatric patients with β- thalassemia major post-HSCT, with a manageable safety profile.
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Multidisciplinary evaluation at baseline and during treatment improves the rate of compliance and efficacy of deferasirox in elderly myelodysplastic patients.
Del Corso, L, Biale, L, Parodi, EL, Russo, R, Filiberti, R, Arboscello, E
International journal of clinical oncology. 2017;(2):380-386
Abstract
BACKGROUND Deferasirox (DFX) is used to reduce iron levels in patients with myelodysplastic syndrome (MDS) who develop iron overload after chronic red blood cell infusions. However, DFX can be associated with renal and gastrointestinal toxicities, which may cause treatment interruption or discontinuation. This study aimed to determine the effectiveness and safety of DFX in patients with MDS. METHODS This multicenter, retrospective, observational study was conducted at two hospitals in Italy. Elderly patients with transfusion-dependent MDS received DFX for up to 12 months and were divided into two groups: group A comprised patients who were not under multidisciplinary assessment; group B comprised patients under multidisciplinary control. Treatment effectiveness was estimated by monitoring the serum ferritin (SF) levels throughout the study. Any treatment-related adverse events (AEs), clinically relevant analytical alterations, and reasons for treatment discontinuation were monitored. RESULTS The study included 44 patients (13 female, 31 male; median age 77.0 years). At 3 months, SF levels decreased by ≥20 % in 29 and 31 % of patients in groups A and B, respectively, in 17 and 36 % of patients at 6 months, and in 22 and 58 % at 12 months. The most common AEs were diarrhea and increased serum creatinine, which were more frequent in group A. The discontinuation rate after renal AE was 15 and 5 % in groups A and B, respectively. CONCLUSION Multidisciplinary evaluation can be an effective strategy for monitoring renal function in patients on DFX therapy, to improve treatment adherence and overall efficacy in elderly patients with MDS.
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Comparison of deferiprone and deferrioxamine for the treatment of transfusional iron overload in children with beta thalassemia major.
Waheed, N, Ali, S, Butt, MA
Journal of Ayub Medical College, Abbottabad : JAMC. 2014;(3):297-300
Abstract
BACKGROUND Thalassemia major is the most common genetic disorder in Pakistan. The study was done to compare the efficacy and safety of the deferiprone with deferrioxamine for the treatment of iron overload in children with thalassemia major. METHODS This randomized controlled trail was conducted at thalassemia blood transfusion unit of Allied Hospital, Faisalabad (AHF)/District Headquarter Hospital (DHQ), Faisalabad. Thalassemia-Unit Hilal-e-Ahmar, Alizeb Foundation and Blood Bank Services Faisalabad from November 2010 to December 2011.Children with beta thalassemia major of age more than 2 years and less than 16 years with transfusion iron over load were randomly allocated to one of the two groups each comprising of 67 patients. One group received deferiprone given at a daily dose of 75mg/kg in three divided doses orally while the other group received deferrioxamine at dose 50 mg/kg/24hrs for 5 days/week as parental infusion. Changes in the serum ferritin level were assessed. Cardiac function and toxicity were also examined. RESULTS Serum ferritin was significantly reduced after 1 year in both treatment arms (p=0.01). Neutropenia observed in 13 (19.40%) non-splenectomized patients taking deferiprone. Transient elevations in ALT were observed in 3 (4.47%) children taking deferiprone. Left ventricular ejection fraction (LVEF) remained in normal range in both treatment arm but has decreased significantly in Deferrioxamine group compliance. Compliance was better in deferiprone as compared to deferrioxamine. Discontinuing percentage 2 (3%) vs 9 (13.43%). CONCLUSION Deferiprone is a highly efficacious and safe chelation therapy for patients with thalassemia major who are non-compliant to Deferrioxamine. Deferiprone have an efficacy profile comparable to standard Deferrioxamine.
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[Effectiveness of iron amino acid chelate versus ferrous sulfate as part of a food complement in preschool children with iron deficiency, Medellín, 2011].
Rojas, ML, Sánchez, J, Villada, Ó, Montoya, L, Díaz, A, Vargas, C, Chica, J, Herrera, AM
Biomedica : revista del Instituto Nacional de Salud. 2013;(3):350-60
Abstract
INTRODUCTION Iron depleted deposits are the first link in the chain of events leading to iron deficiency which is the most prevalent nutritional shortage and main cause of anemia worldwide. This situation can be prevented through food fortification. OBJECTIVE To compare the efficacy of amino acid chelate iron with ferrous sulfate as fortifier of a dietary complement in preschoolers with iron deficiency. MATERIALS AND METHODS This study was a blinded clinical trial with randomized groups. We analyzed 56 preschoolers with iron deficiency (ferritin < 24 ng/ml) that received 13 g of milk with 12.5 mg of iron, either amino acid chelate or in the ferrous sulfate form. After two months, hemoglobin, hematocrit and serum ferritin concentrations were measured. RESULTS In the ferrous sulfate group, ferritin concentration increased from 18.8 ng/ml to 24.1 ng/ml, while the variation was of 18.4 ng/ml to 29.7 ng/ml in the amino acid chelate group, with statistically differences in both cases. Serum ferritin was different between groups, being higher in iron amino acid chelate group (p=0.022). Hemoglobin and hematocrit levels did not change after the intervention. Adverse reactions in the ferrous sulfate group were 35.7%, compared with 42.9% in the iron amino acid chelate group; 5 children had respiratory tract infection, without statistical differences. CONCLUSIONS Both compounds increased serum ferritin concentration, with a higher increase in those who were given milk with iron amino acid chelate. There were no differences in the adverse reactions and infections incidences between the groups.
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Comparison of pharmacokinetics and urinary iron excretion of two single doses of deferiprone in β-thalassemia/hemoglobin E patients.
Rodrat, S, Yamanont, P, Tankanitlert, J, Chantraraksri, U, Fucharoen, S, Morales, NP
Pharmacology. 2012;(1-2):88-94
Abstract
Dose-related pharmacokinetics and urinary iron excretion (UIE) of an orally active iron chelator, deferiprone (L1), was investigated in 12 severe β-thalassemia/hemoglobin E patients. The patients received two single doses of 25 and 50 mg/kg with a 2-week washout period. Deferiprone was rapidly absorbed and reached maximum concentration (C(max)) within 1 h after administration. Pharmacokinetic parameters including C(max) and area under concentration time curve from time zero to infinity (AUC(0-∞)) as well as urinary excretion of non-conjugated and glucuronide-conjugated deferiprone (L1 and L1-G) increased proportionally with the dose of deferiprone. A constant ratio of AUC(0-∞) of L1-G to L1 and a percentage of urinary excretion of L1-G indicated that increasing the dosage does not influence deferiprone biotransformation. Longer terminal elimination half-lifeand higher volume of distribution of L1 were observed with the high dose and correlated with deferiprone-chelated iron in serum. Unexpectedly, UIE did not show a linear relationship with the increased dose of deferiprone. The correlation between UIE and creatinine clearance suggested the possibility of L1-iron complex redistribution in patients with renal impairment treated with high-dose deferiprone.
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Cardiac iron removal and functional cardiac improvement by different iron chelation regimens in thalassemia major patients.
Cassinerio, E, Roghi, A, Pedrotti, P, Brevi, F, Zanaboni, L, Graziadei, G, Pattoneri, P, Milazzo, A, Cappellini, MD
Annals of hematology. 2012;(9):1443-9
Abstract
Heart failure due to myocardial iron overload remains the leading cause of morbidity and mortality in adult thalassemia major (TM) patients. We evaluated the removal of cardiac iron and the changes of cardiac function by different iron chelation in TM patients by T2* cardiac magnetic resonance (CMR). Sixty-seven TM patients (27 males/40 females; mean age, 35 ± 6 years) on different chelation regimens underwent T2* CMR at baseline (t (0)), after 6-14 months (t (1)) and after 32 ± 7 months (t (2)). Patients were divided in four groups according to chelation treatment: group A (deferasirox), group B (deferoxamine), group C (combined treatment, deferoxamine plus deferiprone) and group D (deferiprone alone). Myocardial T2* at t (0) was <10 ms in 8 patients, between 10 and 20 ms in 22 patients and ≥ 20 ms in 37 patients. Progressive changes in T2* were observed at t (1) and t (2). Ten patients (10/36, 27.8 %) in group A, three patients (3/15, 20 %) in group B and three patients (3/12, 25 %) in group C moved from an abnormal T2* to normal values. We observed an improvement of left ventricular ejection fraction and a reduction of end-systolic and end-diastolic left ventricular volumes only in patients in group A with baseline cardiac T2* between 10 and 20 ms. Rigorous compliance to any chelation therapy at proper doses significantly improve myocardial T2*. Treatment with deferasirox significantly improves left ventricular function. Combination therapy seems to ameliorate cardiac T2* in a shorter period of time in severe siderosis.
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Effect of deferiprone or deferoxamine on right ventricular function in thalassemia major patients with myocardial iron overload.
Smith, GC, Alpendurada, F, Carpenter, JP, Alam, MH, Berdoukas, V, Karagiorga, M, Ladis, V, Piga, A, Aessopos, A, Gotsis, ED, et al
Journal of cardiovascular magnetic resonance : official journal of the Society for Cardiovascular Magnetic Resonance. 2011;(1):34
Abstract
BACKGROUND Thalassaemia major (TM) patients need regular blood transfusions that lead to accumulation of iron and death from heart failure. Deferiprone has been reported to be superior to deferoxamine for the removal of cardiac iron and improvement in left ventricular (LV) function but little is known of their relative effects on the right ventricle (RV), which is being increasingly recognised as an important prognostic factor in cardiomyopathy. Therefore data from a prospective randomised controlled trial (RCT) comparing these chelators was retrospectively analysed to assess the RV responses to these drugs. METHODS In the RCT, 61 TM patients were randomised to receive either deferiprone or deferoxamine monotherapy, and CMR scans for T2* and cardiac function were obtained. Data were re-analysed for RV volumes and function at baseline, and after 6 and 12 months of treatment. RESULTS From baseline to 12 months, deferiprone reduced RV end systolic volume (ESV) from 37.7 to 34.2 mL (p=0.008), whilst RV ejection fraction (EF) increased from 69.6 to 72.2% (p=0.001). This was associated with a 27% increase in T2* (p<0.001) and 3.1% increase in LVEF (p<0.001). By contrast, deferoxamine showed no change in RVESV (38.1 to 39.1 mL, p=0.38), or RVEF (70.0 to 69.9%, p=0.93) whereas the T2* increased by 13% (p<0.001), but with no change in LVEF (0.32%; p=0.66). Analysis of between drugs treatment effects, showed significant improvements favouring deferiprone with a mean effect on RVESV of -1.82 mL (p=0.014) and 1.16% for RVEF (p=0.009). Using regression analysis the improvement in RVEF at 12 months was shown to be greater in patients with lower baseline EF values (p<0.001), with a significant difference in RVEF of 3.5% favouring deferiprone over deferoxamine (p=0.012). CONCLUSION In this retrospective analysis of a prospective RCT, deferiprone monotherapy was superior to deferoxamine for improvement in RVEF and end-systolic volume. This improvement in the RV volumes and function may contribute to the improved cardiac outcomes seen with deferiprone.
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Intermediate-term evaluation of a pratical chelation protocol based on stratification of thalassemic patients by serum ferritin and magnetic resonance imaging cardiac t2*.
Ha, SY, Mok, AS, Chu, WC, Rasalkar, DD, Cheuk, DK, Chiang, AK, Ho, MH, Chan, GC
Hemoglobin. 2011;(3):199-205
Abstract
A standardized chelation protocol was applied by stratifying transfusion-dependent thalassemic patients into three groups, namely well chelated group (A), inadequately chelated group without (B) or with (C) risk of cardiac complications based on serum ferritin (SF) levels and magnetic resonance imaging (MRI) cardiac T2* measurements. Group A patients were advised to continue with deferoxamine (DFO) (Regimen Ic). Group B patients were given options of either intensification of DFO alone (Regimen Ii), deferiprone (L1) alone (Regimen II) or combined therapy with L1 and DFO (Regimen III). Group C patients were advised to take either Regimen Ii or Regimen III. The 1-year result showed that the combined therapy (Regimen III) significantly reduced SF level, cardiac and liver iron in the groups of inadequately chelated patients. The same set of outcome parameters was repeated at 2.5 years of treatment so as to evaluate the intermediate-term effects of this risk stratified chelation protocol. The number of patients with cardiac T2* <20 ms decreased from 34 (60%) at baseline to 17 (30%) of the whole cohort of 57 patients at the end of the study. There were further improvements in SF, cardiac and liver T2* in Group C patients. Significant improvement in left ventricular ejection fraction (LVEF) was demonstrated after 2.5 years of the combined therapy group in which the change was not initially apparent after the first year of assessment.
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Effect of transfusional iron intake on response to chelation therapy in beta-thalassemia major.
Cohen, AR, Glimm, E, Porter, JB
Blood. 2008;(2):583-7
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Abstract
The success of chelation therapy in controlling iron overload in patients with thalassemia major is highly variable and may partly depend on the rate of transfusional iron loading. Using data from the 1-year phase III study of deferasirox, including volumes of transfused red blood cells and changes in liver iron concentration (LIC) in 541 patients, the effect of iron loading on achieving neutral or negative iron balance was assessed in patients receiving different doses of deferasirox and the comparator deferoxamine. After dose adjustment, reductions in LIC after 1 year of deferasirox or deferoxamine therapy correlated with transfusional iron intake. At a deferasirox dose of 20 mg/kg per day, neutral or negative iron balance was achieved in 46% and 75% of patients with the highest and lowest transfusional iron intake, respectively; 30 mg/kg per day produced successful control of iron stores in 96% of patients with a low rate of transfusional iron intake. Splenectomized patients had lower transfusional iron intake and greater reductions in iron stores than patients with intact spleens. Transfusional iron intake should be monitored on an ongoing basis in thalassemia major patients, and the rate of transfusional iron loading should be considered when choosing the appropriate dose of an iron-chelating agent. This study is registered at http://clinicaltrials.gov as NCT00061750.