scholarly journals Efficacy and Safety of Amlodipine in Preventing Myocardial Iron Overload in Patients with Transfusion-Dependent Thalassemia Major : A Systematic Review and Meta-Analysis

Blood ◽  
2020 ◽  
Vol 136 (Supplement 1) ◽  
pp. 48-49
Author(s):  
Richi Kashyap ◽  
Muhammad Ashar Ali ◽  
Saad Ullah Malik ◽  
Farhan Khalid ◽  
Ali Jaan ◽  
...  
Keyword(s):  
Adverse Effects ◽  
Iron Overload ◽  
Meta Analysis ◽  
Iron Concentration ◽  
Iron Chelation ◽  
Thalassemia Major ◽  
Iron Toxicity ◽  
Control Group ◽  
P Value ◽  
Myocardial Iron

Background: Patients diagnosed with thalassemia major who are transfusion dependant, have iron accumulation leading to iron toxicity and severe impairment in organs like heart, liver and endocrine organs which are highly sensitive to iron toxicity. This makes iron chelation therapy imperative for these patients. Half of the deaths resulting from iron toxicity related complications are attributed to cardiac complications. Iron chelation therapies have not been completely successful to prevent iron toxicity related complications like arrhythmia, cardiomyopathy and heart failure. Higher doses of iron chelation therapies have been associated with various side effects. Studies have shown L-type calcium channel blocker might be able to reduce iron uptake by myocardium. The aim of this meta-analysis is to assess the efficacy and safety of amlodipine to reduce myocardial iron concentration (MIC). Methods: We used PICO framework to do a systematic literature search using four database PubMed, Cochrane, Embase, and Web of Science using keywords, "Thalassemia" AND "Amlodipine" from the inception till July 2020. The initial search showed 90 articles out of which, six randomized clinical trials (RCT) (N= 226) were selected after exclusion of case reports, case series, preclinical trials, review articles, meta-analysis, and trials not providing any information about preventing iron overload in patients with transfusion dependent thalassemia. We extracted the data for myocardial iron concentration (MIC), myocardial T2, ferritin, hepatic iron/liver iron concentration (LIC), liver T2, left ventricular ejection fraction, response rate and adverse effects. DerSimonian-Laird random effects model was used to derive mean differences along with their 95% confidence interval (CI) using comprehensive meta-analysis version 3.0. Results: In six RCT, 96 patients were tested in experimental group and 97 in control group. In five RCT total number of male participants were 45 in experimental group and 54 in control group. 33 patients had splenectomy in experimental group and 41 in control group. The age range was 8 years to 31 years. The myocardial T2 score increased in amlodipine group compared to standard chelation group with significant mean difference estimated to be -0.62 (95% CI: -0.95-0.29, p-value: <0.001) in favor of amlodipine in meta-analysis of the four trials (Fig 1.). Statistically significant reduction in myocardial iron was seen in two trials on adding amlodipine to standard chelation therapy (N=55) (Table 1.) (Khaled et al and Fernandes et al). Significant difference was reported in liver T2 score and LIC at the end of six months between amlodipine and control group by Khaled et al. But, there was no statistically significant mean difference in serum ferritin and in liver MRI T2 between amlodipine group and control group with mean difference of -1143 (95% CI: -2410 to 124, p-value = 0.07) and -0.06 (95% CI: -0.463 to 0.338, p-value = 0.76) in meta-analysis of four and two trials respectively (Fig 2. And Fig 3.). El-Haggar et al compared amlodipine with spirulina and statistically significant improvement in myocardial T2 and NT-proBNP level was seen in both groups. Spirulina group also showed significant reduction in serum ferritin, which showed spirulina could also help reduce iron overload. Only mild adverse effects were reported by trials (Table 2.). No cases of severe hypotension, palpitation or any other serious adverse effects were seen in the amlodipine group. Conclusion: This systematic review and meta-analysis suggests that addition of amlodipine 2.5-5 mg/day to standard chelation therapy with monitoring for potential adverse effects, could benefit patients with thalassemia major by reducing cardiac iron overload and thus improve survival and quality of life. Future studies are required to study the role of amlodipine in reducing iron overload in endocrine organs that also absorb iron through voltage-gated channels, particularly considering the close association of cardiac siderosis with endocrine complications and the correlation of pancreas and MICs. Disclosures Anwer: Incyte, Seattle Genetics, Acetylon Pharmaceuticals, AbbVie Pharma, Astellas Pharma, Celegene, Millennium Pharmaceuticals.: Honoraria, Research Funding, Speakers Bureau.

scholarly journals Male Gender Increases the Risk of Liver Fibrosis in Patients with Thalassemia Major Independent of Iron Overload

Blood ◽  
2016 ◽  
Vol 128 (22) ◽  
pp. 3630-3630
Author(s):  
Murtadha K. Al-Khabori ◽  
Said Al Busaifi ◽  
Al Ghaliya Al Omairi ◽  
Moez Hassan ◽  
Humoud Al Dhuhli ◽  
...  
Keyword(s):  
Logistic Regression ◽  
Liver Fibrosis ◽  
Iron Overload ◽  
Iron Concentration ◽  
Thalassemia Major ◽  
Male Gender ◽  
Ultrasound Elastography ◽  
P Value ◽  
Positive Serology ◽  
Multivariable Logistic Regression

Abstract Introduction and Objectives: Iron overload in patients with Thalassemia Major (TM) leads to various complications including liver fibrosis. The independent impact of gender on this risk has been previously investigated but not yet confirmed. We, therefore, planned to assess the independent impact of gender in patients with TM on the risk of liver fibrosis. Methods: We included 96 patients with TM followed and transfused in one academic tertiary hospital. Patients underwent assessment of liver fibrosis using ultrasound elastography (FibroScan device) with a cut off value of 7.8 kPa. The mean ferritin in the 5 years prior to elastography assessment was used to represent iron overload. Association was tested using Chi-squared and the independent impact of gender was confirmed in the multivariable logistic regression with a model that included mean ferritin and gender. Results: The median age of the 96 included patients was 26 years (Interquartile range [IQR]: 22-30). Males constituted 45% of patients and 33% of patients were splenectomised. The median alanine transaminase, aspartate transaminase, albumin and total bilirubin were 30 U/L (IQR: 18-64), 30 U/L (IQR: 18-46), 46 g/L (IQR: 44-48) and 21 µmol/L (IQR: 14-32) respectively. The median ferritin and liver iron concentration assessed by MRI T2* were 1293 µg/L (IQR: 753-2715) and 6.7 mg/gdw (IQR: 3.5-16.1) respectively. Thirty seven percent of patients had positive serology for HCV while 1% of patients had positive serology for HBV. The proportion of patients with fibrosis as assessed by elastography was 59%. The proportion of male patients with fibrosis was 70% compared to 51% in female patients with a trend towards statistical significance (odds ratio [OR] of 2.2 with a p value of 0.094). In the multivariable logistic regression model, both gender (OR of 3.0, P value of 0.0188) and ferritin (OR of 1.0004, p value of 0.0036) were statistically significant independent predictors of liver fibrosis. Conclusion: Male gender increases the risk of liver fibrosis independent from iron overload. Our study confirms the previously suspected but unproven association. Follow up and therapy may be tailored to include gender as a decision factor. Larger studies are needed to further confirm these results. Disclosures No relevant conflicts of interest to declare.

Long-Term Iron Chelation Therapy with Deferiprone in Patients with Thalassemia Major and Low Iron Load

Blood ◽  
2016 ◽  
Vol 128 (22) ◽  
pp. 3626-3626 ◽  
Author(s):  
Shahina Daar ◽  
Murtadha K. Al-Khabori ◽  
Khalil Al Farsi ◽  
Bader Abdulla Al-Rawahi ◽  
Arwa Z. Al-Riyami
Keyword(s):  
Iron Overload ◽  
Safety Profile ◽  
Chelation Therapy ◽  
Conflicts Of Interest ◽  
Serum Magnesium ◽  
Iron Concentration ◽  
Thalassemia Major ◽  
P Value ◽  
Patient Reported

Abstract Introduction and Objectives: Iron chelators are effective in reducing iron burden and in improving clinical outcomes in patients with transfusional iron overload. However, limited data are available on their efficacy and safety in transfusion-dependent patients with low iron overload, due mainly to concerns of chelation toxicity observed with deferoxamine (DFO) in patients with serum ferritin (SF) < 1500ug/L. Deferiprone (DFP) has markedly lower affinity for iron (pFe3+ log stability constant = 19.9) than that of deferoxamine (26.6), and may provide a better safety profile in patients with low iron overload. The objective of this study is to evaluate the safety and efficacy of DFP in patients with thalassemia major (TM) and SF <500 ug/L. Methods: A total of 32 patients with TM (15 males) who had achieved SF <500 ug/L while on chelation with combined DFO and DFP (n=30) or on deferasirox (DFX) (n=2) had their chelation switched to DFP monotherapy (75-100mg/kg/day). All patients received 50 mg of oral zinc sulfate once a week for the duration of the study. Iron overload was assessed using SF and MRI T2* of liver and heart within 3 months of switch and then 6-12 monthly thereafter. Renal and liver function tests were performed monthly and trace elements (serum magnesium, copper, zinc and selenium) were also assessed. Results: Patients were followed for a median of 4.5 years (Range: 1-11 years). The median age at time of switch was 22.7 years (Range 11-28). The mean packed red blood cell volume transfused during the study was 197 mL/kg/year (Range: 157-282 mL). There was no significant increase in the SF (Baseline 392 ug/L; Last assessment 418 ug/L; p value 0.55) or the liver iron concentration (Baseline 3.44 mg/g dw; Last assessment 3.1 mg/g dw; p value 0.54) during the follow up. On the contrary, there was a statistically significant improvement in the cardiac T2* (Baseline 30 ms; Last assessment 38 ms; p <0.001). DFP was discontinued in 28% of patients (Ineffective in 3; Agranulocytosis in 1; Pregnancy in 1; Bone marrow transplantation in 2; Deaths in 2). The two deaths were unrelated to the chelation therapy (Decompensated HCV related liver cirrhosis and severe hypoglycaemia in a patient with diabetes mellitus). Two patients had mild asymptomatic hypocalcemia, and one had low copper levels. All three patients normalized their results with no treatment and without stopping DFP. No patient reported gastrointestinal disturbances or arthralgia, and none had elevation of liver enzymes or serum creatinine. Conclusion: Long-term DFP therapy in patients with TM and low iron overload was effective in stabilizing SF and LIC and was associated with improvement in the myocardial iron. The safety profile was consistent with those observed during therapy in patients with more severe iron burden and there were no increase in the unexpected adverse drug reactions. Disclosures No relevant conflicts of interest to declare.

scholarly journals Oral chelators deferasirox and deferiprone for transfusional iron overload in thalassemia major: new data, new questions

Blood ◽  
2006 ◽  
Vol 107 (9) ◽  
pp. 3436-3441 ◽  
Author(s):  
Ellis J. Neufeld
Keyword(s):  
Iron Overload ◽  
Cardiac Disease ◽  
Iron Status ◽  
Iron Chelation ◽  
Thalassemia Major ◽  
Myocardial Iron ◽  
Cardiac Events ◽  
New Era ◽  
Improve Compliance ◽  
Magnetic Resonance Imaging Mri

For nearly 30 years, patients with transfusional iron overload have depended on nightly deferoxamine infusions for iron chelation. Despite dramatic gains in life expectancy in the deferoxamine era for patients with transfusion-dependent anemias, the leading cause of death for young adults with thalassemia major and related disorders has been cardiac disease from myocardial iron deposition. Strategies to reduce cardiac disease by improving chelation regimens have been of the highest priority. These strategies have included development of novel oral iron chelators to improve compliance, improved assessment of cardiac iron status, and careful epidemiologic assessment of European outcomes with deferiprone, an oral alternative chelator available for about a decade. Each of these strategies is now bearing fruit. The novel oral chelator deferasirox was recently approved by the Food and Drug Administration (FDA); a randomized clinical trial demonstrates that deferasirox at 20 to 30 mg/kg/d can maintain or improve hepatic iron in thalassemia as well as deferoxamine. A randomized trial based on cardiac T2* magnetic resonance imaging (MRI) suggests that deferiprone can unload myocardial iron faster than deferoxamine. Retrospective epidemiologic data suggest dramatic reductions in cardiac events and mortality in Italian subjects exposed to deferiprone compared with deferoxamine. These developments herald a new era for iron chelation, but many unanswered questions remain.

A MRI Prospective Survey on Heart and Liver Iron and Cardiac Function in Thalassemia Major Patients Treated with Deferasirox Versus Deferiprone and Desferrioxamine in Monotherapy

Blood ◽  
2016 ◽  
Vol 128 (22) ◽  
pp. 3631-3631
Author(s):  
Alessia Pepe ◽  
Laura Pistoia ◽  
Liana Cuccia ◽  
Monica Fortini ◽  
Vincenzo Caruso ◽  
...  
Keyword(s):  
Iron Overload ◽  
Iron Concentration ◽  
Thalassemia Major ◽  
Left Ventricular ◽  
Ventricular Ejection ◽  
Left Ventricular Ejection ◽  
Myocardial Iron ◽  
Liver Iron ◽  
Biventricular Function

Abstract Background: No prospective data are available about the efficacy of deferasirox versus deferiprone and desferrioxamine in monotherapy. Our study aimed to prospectively assess the efficacy of deferasirox versus deferiprone and desferrioxamine in monotherapy in a large cohort of thalassemia major (TM) patients by quantitative Magnetic Resonance (MR). Methods: Among the 2551 TM patients enrolled in the MIOT (Myocardial Iron Overload in Thalassemia) network we selected those with an MR follow up study at 18±3 months who had been received one chelator alone between the 2 MR scans. We identified three groups of patients: 235 treated with DFX, 142 with DFP and 162 with DFO. Iron overload was measured by T2* multiecho technique. Liver T2* values were converted into liver iron concentration (LIC) values. Biventricular function parameters were quantitatively evaluated by cine images. Results: Excellent/good levels of compliance were similar in the DFX (98.7%) vs DFP (96.3%) and DFO (97.5%) groups. Among the patients with myocardial iron overload at baseline, in all three groups there was a significant improvement in the global heart T2* value (DFX: +4.58±5.91ms P<0.0001, DFP: 8.53±6.97ms P<0.0001 and DFO: +3.93±5.21 ms P<0.0001) and a reduction in the number of pathological segments (DFX: -4.49±4.55 P<0.0001, DFP: -8.08±5.5.84 ms P=0.001 and DFO: -3.65±3.81 ms P<0.0001). In DFP and in DFO groups there was a significant improvement in left ventricular ejection function (LVEF) (+4.86±6.99% P=0.044 and +3.87±7.48% P=0.004, respectively). Only in the DFP group there was a significant improvement in right ventricular ejection function (RVEF) (6.69±4.61% P=0.001). The improvement in the global heart T2* was significantly lower in the DFX versus the DFP group , but it was not significantly different in the DFX versus the DFO group (Figure 1). The improvement in the LVEF was significantly higher in both DFP and DFO groups than in the DFX group while the improvement in the RVEF was significantly higher in the DFP than in DFX group (Figure 2). Among the patients with hepatic iron at baseline (LIC≥3mg/g dw) the changes were not significantly different in DFX versus the other groups. Conclusions: Prospectively in a large clinical setting of TM patients, DFX monotherapy was significantly less effective than DFP in improving myocardial siderosis and biventricular function and it was significantly less effective than DFO in improving the LVEF. Figure 1 Figure 1. Figure 2 Figure 2. Disclosures Pepe: Chiesi Farmaceutici and ApoPharma Inc.: Other: Alessia Pepe is the PI of the MIOT project, that receives no profit support from Chiesi Farmaceutici S.p.A. and ApoPharma Inc..

scholarly journals Evaluation of Erythroferrone, Hepcidin, and Iron Overload Status in Iraqi Transfusion-dependent β-Thalassemia Major Patients

2019 ◽  
Author(s):  
Hasan Smesam ◽  
Hasan Qazmooz ◽  
Sareh Arjmand ◽  
Hussein Kadhem Al-Hakeim ◽  
Seyed Omid Ranaei‐Siadat,
Keyword(s):  
Iron Overload ◽  
Iron Status ◽  
Iron Chelation ◽  
Fold Increase ◽  
Thalassemia Major ◽  
Beta Thalassemia ◽  
Control Group ◽  
Beta Globin ◽  
Beta Thalassemia Major ◽  
Globin Chains

Beta thalassemia major (&beta;-TM) disorder characterized by the lack, or severe reduction in the production of hemoglobin &beta;-globin chains. The standard protocol for the management of &beta;-TM is blood transfusion and iron chelation therapy to reduce the iron overload state. The present study aimed to investigate the relationships between two iron regulatory hormones, hepcidin (HEPC) and erythroferrone (ERFE) levels and iron status parameters (ISPs) in Iraqi patients with &beta;-TM. ISPs and hormones were measured in sixty patients and compared with thirty healthy controls. The results indicated significant changes in different iron status parameters, while ferritin (FRT) with the ~11 fold increase showed the most change. Significant reduction in HEPC and increase in ERFE levels were detected in patients as compared to the control group, while no direct correlation was identified with the other measured ISPs. Receiver operating characteristic (ROC) analysis showed that the z-score of the composite of ERFE+FRT has a full diagnostic ability for &beta;-TM. In conclusion, our finding indicated the correlation between different ISPs, FRT as the leading predictor of iron overload and tow main iron regulatory hormones.

Longitudinal Changes in Iron Overload Parameters and Iron Chelation Therapy in Young Patients with Thalassemia Major,

Blood ◽  
2011 ◽  
Vol 118 (21) ◽  
pp. 3202-3202
Author(s):  
Antonis Kattamis ◽  
Konstantinos Stokidis ◽  
Polyxeni Delaporta ◽  
Kyriakopoulou Dimitra ◽  
Theoni Petropoulou ◽  
...  
Keyword(s):  
Iron Overload ◽  
Chelation Therapy ◽  
Iron Concentration ◽  
Young Patients ◽  
Iron Chelation ◽  
Thalassemia Major ◽  
Time Points ◽  
Cardiac Siderosis ◽  
Iron Load ◽  
Oral Chelators

Abstract Abstract 3202 Background: New modalities for the assessment of iron overload and the availability of new oral chelators have led to important changes in the iron load status and its treatment for patients with thalassemia major (TM). The goals of this retrospective analysis were to evaluate the changes that occurred in regards to the degree of iron overload, as well as to the therapeutic regimen of iron chelation over the last decade in young patients with TM. Methods: All patients with TM followed in our unit, who were <18 years at certain time points, were included in this study. Group A included all patients who were younger than 18 years old on 1/1/2001, while group B, C, D, E and F on 1/1/2003, 1/1/2005, 1/1/2007, 1/1/2009, and 1/1/2011, respectively. Liver iron concentration (LIC) and cardiac siderosis (T2*) were evaluated by MRI. Cardiac iron concentration (CIC) was calculated based on the recently prescribed formula CIC= 45 × (T2*Heart)−1.22.The closest MRI, which was <12 months from the time point, was recorded for each patient at each group. The therapeutic regimen for iron chelation, being deferoxamine (DFO), deferiprone (DFP), combination therapy of DFO and DFP (DFO+DFP) and deferasirox (DFX), used at the different time points were also recorded. Results: The results of the analysis are shown in the following table: Ferritin levels did not change significantly over the last decade (p>0.05). There was a trend for decreasing values of LIC (Independent Samples Kruskal-Wallis test, p=0.075) with the mean LIC of group E and F being significantly lower than group C (Mann-Whitney test, p<0.05). Similarly, there was a trend for improvement in the indexes of cardiac iron load. Of note is, that cardiac overload was not documented in this group of patients. None of the patients has significant (T2*<10 msec), and only 3 patients had moderate cardiac siderosis (T2*>10 <20 msec). Conclusions: A steady decrease in the number of young patient with thalassemia has been observed, reflecting the efficacy of the thalassemia prevention program. As expected, the utilization of MRI to evaluate iron overload has increased significantly especially in the second part of the last decade, but it remains limited mainly to older children and teenagers. Oral chelation has become the preferable mode of treatment of hemosiderosis in young patients with TM. While DFX is, currently, the most used iron chelator, the use of DFO is becoming limited as an additive therapy to DFP. Despite presumed better compliance with oral chelation therapy, the iron overload indexes have not improved dramatically. This may reflect the short period of using the oral chelators or/and the need for further treatment intensification. Disclosures: Kattamis: Novartis Oncology: Honoraria, Research Funding, Speakers Bureau; Apopharma: Honoraria.

Monitoring Cardiac Siderosis in Patients with Beta-Thalassemia Major on Various Chelation Regimens,

Blood ◽  
2011 ◽  
Vol 118 (21) ◽  
pp. 3177-3177
Author(s):  
Srikanth R. Ambati ◽  
Rachel Randolph ◽  
Kevin Mennitt ◽  
Dorothy A Kleinert ◽  
Patricia Giardina
Keyword(s):  
Iron Overload ◽  
Serum Ferritin ◽  
Iron Concentration ◽  
Iron Chelation ◽  
Thalassemia Major ◽  
Beta Thalassemia ◽  
Liver Iron ◽  
Beta Thalassemia Major ◽  
Cardiac Siderosis ◽  
Hepatic Iron Overload

Abstract Abstract 3177 Background: Patients with Beta-thalassemia major develop progressive iron overload in various organs. Cardiac siderosis is a major cause of mortality and morbidity in these patients, and also poses a significant treatment challenge. Methods: We have reviewed 101 beta-thalassemia major patients 39 Male (M) 62 Female (F) with a mean age of 27.9 (range: 2 to 60 years). All received regular transfusions to maintain pre transfusion Hb levels of 9 to10 gm/dl and all received iron chelation initially with deferoxamine (DFO) and subsequently treated with deferasirox (DFX) or deferiprone (DFP) in combination with DFO. Each patient was monitored yearly for iron excess by hepatic and cardiac magnetic resonance imaging (MRI) T2*. They were also assessed with monthly evaluations for liver and renal function (Bili, AST, ALT, BUN, Creatinine), serum ferritin, CBC (or weekly if on DFP), and urinalysis. Annual EKG, ECHO, hearing and vision testing and endocrine evaluations were also performed. The patients were grouped according to the severity of cardiac siderosis. Mild to moderate cardiac siderosis was defined as a T2* 12–20 msec and severe cardiac siderosis T2*≤ 11 msec. Annual studies were compared using paired student T test and repeated measures Analysis Of Variance (ANOVA) when necessary. Patient population: Twenty one of the 101 patients (7M and 14F) with a mean age of 30.6 yr, age range 15 to 56 yr, had abnormal cardiac T2* of <20 msec and three or more subsequent annual cardiac T2* measurements. Thirteen patients, 3 M 10 F with a mean age of 33 (range: 19 to 60), had severe cardiac siderosis and 8 patients, 3 M 5 F with mean age of 38 (range: 25 to 49), had mild-moderate cardiac siderosis. During the course of the observation their iron chelation therapy was optimized to reduce serum ferritin levels < 1500 μg/dl and to reduce or maintain liver iron concentration (LIC) ≤ 7 mg/gm dw. Data analysis: At the time of their first annual MRI study (baseline), 8 patients were on DFO of which 6 were switched to DFX, 13 patients were on DFX, 11 patients were dose escalated on DFX, and 4 patients were switched to combination chelation with DFO and DFP. At baseline, patients with severe cardiac siderosis had a mean cardiac T2* level = 7.4 ± 0.47 SEM (range: 4.6 to 11msec). Over the treatment course of 6 years annual cardiac T2* levels consistently improved and by 6 years cardiac T2* reached a mean level =14.3 ±1.5 SEM (range: 12 to 17 ms) (Fig 1). Those patients who at baseline had a mild to moderate cardiac siderosis with mean cardiac T2* of 14.6 ± 1.02 SEM (range: 12 to 19 msec) improved by 3 years of treatment when they achieved a mean cardiac T2* of 26.3 ± 3.4 SEM (range of 16 to 42 msec) (Fig 2). Liver iron concentration (LIC) was measured annually by MRI. Initially the majority, 16 out of 21 of patients, had hepatic iron overload LIC ≤ 10 mg/ gm dw of whom 56% (9 of the 16) had severe cardiac siderosis. 5 of 21 patients had a LIC > 15 mg/ gm dw of whom 80% (4 out of 5) patients had severe cardiac siderosis (Fig 3). Patients with LIC ≤10 mg/ gm dw had ferritin levels ranging from 166 to 3240 μg/ dl and patients with LIC >15 mg/ gm dw had elevated serum ferritin levels of 1180 to 17,000 μg/ dl. Patients with severe cardiac siderosis had mean MRI ejection fraction (EF)= 55.8% (range: 31 to 70%) while patients with mild to moderate cardiac siderosis had mean MRI EF= 60% (range: 53 to 66%). One patient with severe cardiac siderosis was recovering from symptomatic congestive heart failure. Conclusion: Cardiac siderosis can be noninvasively diagnosed utilizing MRI T2* techniques and subsequently to monitor treatment. The majority of patients improve cardiac T2* over time with optimal chelation therapy. Severe cardiac siderosis occurs even with mild to moderate hepatic iron overload. Left ventricular EF may not predict severe cardiac siderosis. Therefore it is important to annually monitor cardiac siderosis with MRI T2*. Disclosures: No relevant conflicts of interest to declare.

scholarly journals Cardiac MR images of thalassemia major patients with myocardial iron overload: a data note

2021 ◽  
Vol 14 (1) ◽  
Author(s):  
Emad Shiae Ali ◽  
Mohamad Amin Bakhshali ◽  
Seyed Jafar Shoja Razavi ◽  
Hoorak Poorzand ◽  
Parvaneh Layegh
Keyword(s):  
Heart Failure ◽  
Mr Imaging ◽  
Iron Overload ◽  
Thalassemia Major ◽  
Patient Specific ◽  
Control Group ◽  
Specific Information ◽  
Myocardial Iron ◽  
Mr Images ◽  
Cardiac Mr

Abstract Objective Patients with thalassemia major (TM) have the highest mortality rate due to heart failure induced by myocardial iron overload. However, T2* weighted MR imaging is currently a gold standard approach for measuring iron overload. Examining ventricular volumes with magnetic resonance imaging (MR imaging) and measuring myocardial iron overload in TM patients allows for an early prediction of heart failure. This dataset includes cardiac MR images of TM patients and the control group with clinical and echocardiographic data. This dataset may be useful to researchers investigating myocardial iron overload. This dataset can also be used for medical image processing applications, such as ventricle segmentation. Data description This study provides open-source cardiac MR images of 50 subjects and clinical and echocardiographic data. From February 2016 to January 2019, all images and clinical data were obtained from the MRI department of a general hospital in Mashhad, Iran. All the images are 16-bit gray-scale and stored in DICOM format. All patient-specific information is removed from image headers to preserve patient privacy. In addition, all images associated with each subject are compressed and saved in the RAR format.

Lack of Correlation between Serum Ferritin and Liver Iron Concentration in Beta-Zero Thalassemia Intermedia.

Blood ◽  
2004 ◽  
Vol 104 (11) ◽  
pp. 3620-3620 ◽  
Author(s):  
Renzo Galanello ◽  
Nicolina Giagu ◽  
Susanna Barella ◽  
Liliana Maccioni ◽  
Raffaella Origa
Keyword(s):  
Iron Overload ◽  
Serum Ferritin ◽  
Regulatory Protein ◽  
Iron Concentration ◽  
Iron Chelation ◽  
Dry Weight ◽  
Thalassemia Major ◽  
Thalassemia Intermedia ◽  
Liver Iron Concentration ◽  
Liver Iron

Abstract Serum ferritin and liver iron concentration (LIC) are the most commonly used methods for assessment of iron overload in thalassemia. While in patients with thalassemia major a significant correlation has been found between these two parameters, data are lacking in patients with thalassemia intermedia. In this study we measured the serum ferritin and LIC in 22 adult patients with beta-zero thalassemia intermedia never transfused (14 patients) or sporadically transfused, i.e. less than 10 units in total (8 patients), who maintained a mean hemoglobin of 8.8 ± 1.1 g/dl. Serum ferritin levels were measured by an automated chemiluminescence immunoassay analyzer, whereas LIC was determined by atomic absorption in liver biopsies. We compared the results obtained in those patients with those obtained in 22 regularly transfused (mean annual Hb = 11.3 ± 0.3 g/dl) and iron chelated thalassemia major patients, matched by sex, age and liver iron concentration. We also determined serum erythropoietin (s-epo) and serum transferrin receptor (s-TfR) in a cohort of the two patient groups (12 thalassemia intermedia; 15 thalassemia major). Mean LIC was 11.3 ± 6 mg/g dry weight tissue in thalassemia intermedia, and 11.8 ± 7 mg/g d.w. in thalassemia major group. Mean serum ferritin (at least 2 determinations from each patient within ± 2 months of liver biopsy) was 627 ± 309 ng/ml in thalassemia intermedia and 2748 ± 2510 ng/ml in thalassemia major. The difference was statistically significant (p = 0.0001). LIC was weakly correlated with serum ferritin in thalassemia major patients (r2=0.46; p=0.001) and uncorrelated in patients with thalassemia intermedia (r2=0.04; p=0.37) (Figure). S-epo and s-TfR were significantly higher in thalassemia intermedia than in thalassemia major [s-epo 467 ± 454 mU/ml versus 71 ± 44 mU/ml (p<0.001); s-TfR 43 ± 13 mU/ ml versus 13 ± 6 mU/ml (p<0.0001)]. The discrepancy between LIC and serum ferritin in thalassemia intermedia patients may be due to the higher levels of s-epo (secondary to anemia) in those patients, which through the iron regulatory protein 1 determine an up-regulation of s-TfR and a repression of ferritin translation (Weiss et al 1997). The mechanism of iron overload may also be mediated by hepcidin, whose synthesis could be suppressed as a consequence of anemia. The observation reported has important implications for iron chelation in patients with thalassemia intermedia. In such patients serum ferritin levels have little value for the monitoring of iron overload. Figure Figure

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