scholarly journals The relationships between pancreatic T2* values and pancreatic iron loading with cardiac dysfunctions,  hepatic and cardiac iron siderosis among Egyptian children and young adults with β-thalassaemia major and sickle cell disease: a cross-sectional study

F1000Research ◽  
2021 ◽  
Vol 9 ◽  
pp. 1108
Author(s):  
Khaled Salama ◽  
Amina Abdelsalam ◽  
Hadeel Seif Eldin ◽  
Eman Youness ◽  
Yasmeen Selim ◽  
...  
Keyword(s):  
Sickle Cell Disease ◽  
Pulmonary Artery ◽  
Iron Overload ◽  
Sickle Cell ◽  
Systolic Pulmonary Artery Pressure ◽  
Iron Loading ◽  
Thalassaemia Major ◽  
Cell Disease ◽  
Cardiac Iron ◽  
Diastolic Velocity

Background: Cardiac, hepatic and pancreatic T2* measured by magnetic resonance imaging (MRI) has been proven to be an accurate and non-invasive method for measuring iron overload in iron overload conditions. There is accumulating evidence that pancreatic iron can predict cardiac iron in young children because the pancreas loads earlier than the heart. The aim of our study was to assess the relationships between pancreatic T2* values and pancreatic iron loading with cardiac dysfunctions and liver and cardiac iron among patients with β-thalassaemia major (βTM) and sickle cell disease (SCD). Methods: 40 βTM and 20 transfusion-dependant SCD patients were included along with 60 healthy age and sex-matched controls. Echocardiography and Tissue Doppler Imaging were performed for all subjects as well as the control group.  Hepatic, cardiac and pancreatic iron overload in cases were assessed by MRI T2*. Results:  The mean age of our patients was 13.7 years with mean frequency of transfusion/year 12. Mean cardiac T2* was 32.9 ms and mean myocardial iron concentration was 0.7 mg/g; One patient had cardiac iron overload of moderate severity. Mean pancreatic T2* was 22.3 ms with 20 patients having mild pancreatic iron overload. Pancreatic T2* correlated positively peak late diastolic velocity at septal mitral annulus (r=0.269, p=0.038), peak early diastolic velocity at tricuspid annulus (r=0.430, p=0.001) and mitral annular plane systolic excursion (r=0.326, p=0.01); and negatively with end systolic pulmonary artery pressure (r=-0.343, p=0.007) and main pulmonary artery diameter (MPA) (r=-0.259, p=0.046). We couldn’t test the predictability of pancreatic T2* in relation to cardiac T2* as only one patient had cardiac T2*<20 ms. Conclusion: There was a relationship between pancreatic iron siderosis with cardiac dysfunction in multi-transfused patients with βTM and SCD. No direct relation between pancreatic iron and cardiac siderosis was detected.

scholarly journals Iron overload parameters and early detection of cardiac disease among Egyptian children and young adults with β-thalassaemia major and sickle cell disease: a cross-sectional study

F1000Research ◽  
2020 ◽  
Vol 9 ◽  
pp. 1108
Author(s):  
Khaled Salama ◽  
Amina Abdelsalam ◽  
Hadeel Seif Eldin ◽  
Eman Youness ◽  
Yasmeen Selim ◽  
...  
Keyword(s):  
Sickle Cell Disease ◽  
Pulmonary Artery ◽  
Iron Overload ◽  
Sickle Cell ◽  
Systolic Pulmonary Artery Pressure ◽  
Thalassaemia Major ◽  
Cell Disease ◽  
Cardiac Iron ◽  
Diastolic Velocity ◽  
Egyptian Children

Background: Cardiac, hepatic and pancreatic T2* measured by magnetic resonance imaging (MRI) has been proven to be an accurate and non-invasive method for measuring iron overload in iron overload conditions. There is accumulating evidence that pancreatic iron can predict cardiac iron in young children because the pancreas loads earlier than the heart. The aim of our study was to investigate cardiac function and cardiac iron and their relation to pancreatic iron among patients with β-thalassaemia major (βTM) and sickle cell disease (SCD). Methods: 40 βTM and 20 transfusion-dependant SCD patients were included along with 60 healthy age-matched controls. Echocardiography and Tissue Doppler Imaging were performed for all subjects as well as the control group.  Hepatic, cardiac and pancreatic iron overload in cases were assessed by MRI T2*. Results: The study group consisted of 40 βTM and 20 transfusion dependant SCD patients with mean age 13.7 years and mean frequency of transfusion/year 12. Mean cardiac T2* was 32.9 ms and mean myocardial iron concentration was 0.7 mg/g; One patient had cardiac iron overload of moderate severity. Mean pancreatic T2* was 22.3 ms with 20 patients having mild pancreatic iron overload. Pancreatic T2* correlated positively with main pulmonary artery diameter (p=0.046), peak late diastolic velocity at septal mitral annulus (p=0.038), peak early diastolic velocity at tricuspid annulus (p=0.001) and mitral annular plane systolic excursion (p=0.01); and negatively with end systolic pulmonary artery pressure (p=0.007). We couldn’t test the predictability of pancreatic T2* in relation to cardiac T2* as only one patient had cardiac T2*<20 ms. Conclusion: Assessment of pancreatic T2* in multi-transfused patients with βTM and SCD can predict myocardial dysfunction. No direct relation between pancreatic iron and cardiac siderosis was detected.

scholarly journals Cardiac Iron Overload in Sickle Cell Disease: When to Screen and How to Intervene

Blood ◽  
2018 ◽  
Vol 132 (Supplement 1) ◽  
pp. 528-528
Author(s):  
Amy Y Tang ◽  
Cassandra D Josephson ◽  
Kristina Lai ◽  
Peter A. Lane ◽  
Ross M. Fasano
Keyword(s):  
Risk Factors ◽  
Sickle Cell Disease ◽  
Iron Overload ◽  
Sickle Cell ◽  
Clinical Characteristics ◽  
Iron Loading ◽  
Cell Disease ◽  
Transfusion Therapy ◽  
Cardiac Iron ◽  
Cardiac Iron Overload

Abstract Background Iron overload is a recognized consequence of chronic transfusion therapy in patients with sickle cell disease (SCD), but most of the focus to date has been on the effects of increased liver iron concentration (LIC) with increasing transfusion burden. Even though there is a robust body of literature concerning cardiac iron overload (CIO) in patients with thalassemia major, there remains a paucity of data in how to detect and treat CIO in patients with SCD, particularly in the pediatric and young adult population. While CIO is seen less commonly in sickle cell disease than in thalassemia, patients with SCD remain at risk, with recent studies demonstrating an incidence of 2-5% of CIO in chronically transfused patients with SCD. We performed a retrospective chart review of patients with cardiac MRIs (cMRIs) and LICs by Ferriscan performed at our institution to identify risk factors for CIO, as well as to characterize institutional practice for assessing cardiac iron in the absence of defined practice guidelines. Methods We reviewed clinical characteristics of all patients with SCD who had cMRIs performed at Children's Healthcare of Atlanta between June 2012 and December 2017. We then queried our institutional sickle cell database for patients who were at least 3 years old in 2010, genotype SS or S Beta zero thalassemia, were on chronic transfusions for at least 5 years by 2017, and had not undergone a cMRI. Patients who were status post bone marrow transplant were excluded. For comparison of age, average ferritin, and transfusion duration, significance among means between patients with and without CIO was calculated using a two-tailed unpaired t-test. For comparison of LIC, significance among medians was calculated using the Mann Whitney test. A p value of <0.05 was considered significant. Statistical analyses were performed using Prism 6 (GraphPad Software, Inc.). Results Of 36 evaluable patients who had undergone cMRI, there were 11 with CIO, as defined by a T2* < 20ms. Clinical characteristics are shown in Figure 1. Patients were 7-28 years of age, and had received chronic transfusion therapy for a range of 22 months to 228 months. Between patients who did and did not have CIO, there was no significant difference in average 1-year ferritin level (6786 vs 6373 ng/mL, p=0.79), transfusion duration (103 vs 123 months, p=0.41), or age (15 vs 18 years, p=0.12). There was a higher median LIC by Ferriscan of > 43 mg/g in those with CIO vs 34 mg/g in those without CIO, although this was not statistically significant (Figure 1). Interestingly, CIO was seen as young as 7 years of age and after as little as 22 months of chronic transfusions, and with concurrent LIC values as low as 8.1 mg/g. Of the 11 patients with CIO, 6 had follow-up cMRI data available, and all 6 had normalization of cardiac iron (T2* > 20ms) on subsequent MRIs (Figure 2 and Table 2). There was 1 patient who did not have full transfusion and chelation history available for analysis. Of the remaining 5, 5/5 had increased or more aggressive chelation added, including 2 who were started on high-dose IV Desferal every 2 weeks; 3/5 also had partial manual exchange (PME) added to their chronic transfusion regimens. There were 80 patients who were on chronic transfusions but did not have a cMRI performed; as a group, they had a median LIC of 17 mg/g (range: 1.7 - >43 mg/g), an average 1-year ferritin of 3641 ng/mL (range: 520 - 8478 ng/mL), and had been on chronic transfusions for a mean of 87 months at time of Ferriscan study (range: 14 - 192 months). Overall, these patients had a lower transfusion burden than those who received cMRIs, but there were several in this group who had significant iron overload, including 10 who had LIC values of > 43mg/g. Conclusion CIO in SCD may be a more salient issue, and occur earlier, than previously described. We did not find a strong relationship between CIO and ferritin levels or LIC by Ferriscan, but we did find that CIO was reversible with more aggressive chelation or the addition of PME. While guidelines for monitoring for CIO in SCD are largely extrapolated from thalassemia data, the rate and physiology of iron loading may be completely different. Due to a paucity of information in this area, more studies are needed to guide screening and to fully assess risk factors that may put certain individuals more at risk for cardiac iron loading. Disclosures No relevant conflicts of interest to declare.

Pancreatic Iron Deposition Following the Role of Iron Loading Among Transfusion Dependent Sickle Cell Disease Egyptian Children and Young Adults

Blood ◽  
2019 ◽  
Vol 134 (Supplement_1) ◽  
pp. 4828-4828
Author(s):  
Mohsen Saleh Elalfy ◽  
Khalid Allam ◽  
Ahmed Ibrahim ◽  
Basant Mosaad ◽  
Fatma Soliman Elsayed Ebeid
Keyword(s):  
Young Adults ◽  
Sickle Cell Disease ◽  
Iron Overload ◽  
Sickle Cell ◽  
Serum Ferritin ◽  
Iron Loading ◽  
Cell Disease ◽  
Liver Iron ◽  
Cardiac Iron ◽  
Iron Load

Background: Transfusion in sickle cell disease (SCD) is uncommon but a well-defined practice; either as a replacement in severe anemia or as a prophylactic therapy for its major complications mainly stroke. Differential iron loading in SCD especially the extrahepatic organs is not fully studied. Primary objective is to measure pancreatic iron load among Egyptian transfusion-dependant SCD patients by using MRI T2* relaxometry method. Secondaryobjective is to correlate pancreatic iron load to transfusion iron input, both hepatic and cardiac iron load, trend of serum ferritin. Subjects and Methods: Sixty-six transfusion-dependant SCD child and young adults 8-25 years with more than twenty transfusions before enrollment, non was on regular exchange transfusion; they underwent clinical and laboratory assessments; complete hemogram, serum ferritin and serum amylase. All patients performed MRI examination on a 1.5- Tesla super conductive MR Philips scanner in MRI unit in Ain Shams University Hospital; the study takes about 10 -15 minutes. Radiological quantification of iron overload was performed via simple mathematical models using Microsoft Excel Spread Sheet for heart, pancreas, and kidneys. Results: The mean age of the studied SCD patients were 15.68 ± 7.02 years, they were 35 male (53.0%), 43 of them (65.2%) had positive family history of SCD. All were multiple transfusion; 22 for cardiopulmonary complication and acute chest syndrome (ASC), nine for stroke prevention and 35 for frequent sickling crisis and symptomatic anemia. Most of patients (80.3%) were on chelation therapies that were mainly (92.5%) oral mono-therapy. High frequencies of comorbidities were recorded in the studied cohort; delayed puberty (65.2%), hepatitis C infection (23.1%) and stroke (14.1%). The studied SCD patients had median transfusion index of 120ml/kg/year with mean iron overload per day 0.23 ± 0.15 mg/kg and half of them had serum ferritin > 2500ug/L. Almost two-thirds had moderate to severe liver iron overload with median LIC 11.63 mg/g liver dry weight, none had cardiac iron overload with median cardiac T2* 31 msec and nearly half of them (42.2%) showed marked decrease in signal intensity of renal cortex with relative sparing of the renal medulla and pelvis. Most of them (86%) had normal to mild pancreatic iron overload with median pancreatic R2* 53.8 msec. Pancreatic R2 level was not significantly correlated to either transfused iron, liver iron or serum ferritin and amylase. Patients with moderate to severe pancreatic iron overload had lower pre-transfusion hemoglobin level (p=0.004), higher level of marker of hemolysis (total bilirubin (p=0.012) and indirect bilirubin (p=0.048) than those with normal pancreatic MRI. Radiological quantification of iron overload was performed via a simple cheap and quick method for analysis of data. Conclusion: Moderately heavy transfused patients with SCD had no iron overload in the heart; pancreas follow same pattern as heart with minimal or no pancreatic iron loading, however moderate to severe hepatic iron loading. Whether iron loading might be related only to frequency of transfusion or also to frequency of vaso-occlusive will be discussed. Disclosures No relevant conflicts of interest to declare.

Consequences and management of iron overload in sickle cell disease

Hematology ◽  
2013 ◽  
Vol 2013 (1) ◽  
pp. 447-456 ◽  
Author(s):  
John Porter ◽  
Maciej Garbowski
Keyword(s):  
Sickle Cell Disease ◽  
Blood Transfusion ◽  
Iron Overload ◽  
Sickle Cell ◽  
Iron Concentration ◽  
Thalassemia Major ◽  
Iron Loading ◽  
Cell Disease ◽  
Liver Iron Concentration ◽  
Liver Iron

Abstract The aims of this review are to highlight the mechanisms and consequences of iron distribution that are most relevant to transfused sickle cell disease (SCD) patients and to address the particular challenges in the monitoring and treatment of iron overload. In contrast to many inherited anemias, in SCD, iron overload does not occur without blood transfusion. The rate of iron loading in SCD depends on the blood transfusion regime: with simple hypertransfusion regimes, rates approximate to thalassemia major, but iron loading can be minimal with automated erythrocyte apheresis. The consequences of transfusional iron overload largely reflect the distribution of storage iron. In SCD, a lower proportion of transfused iron distributes extrahepatically and occurs later than in thalassemia major, so complications of iron overload to the heart and endocrine system are less common. We discuss the mechanisms by which these differences may be mediated. Treatment with iron chelation and monitoring of transfusional iron overload in SCD aim principally at controlling liver iron, thereby reducing the risk of cirrhosis and hepatocellular carcinoma. Monitoring of liver iron concentration pretreatment and in response to chelation can be estimated using serum ferritin, but noninvasive measurement of liver iron concentration using validated and widely available MRI techniques reduces the risk of under- or overtreatment. The optimal use of chelation regimes to achieve these goals is described.

Lack of Cardiac Iron in SCD Patients Despite Severe Iron Overload

Blood ◽  
2014 ◽  
Vol 124 (21) ◽  
pp. 4943-4943
Author(s):  
Rasha I Ahmad ◽  
Sara Keyrouz ◽  
Mariam Arabi ◽  
Fadi Bitar ◽  
Wael al Jaroudi ◽  
...  
Keyword(s):  
Sickle Cell Disease ◽  
Iron Overload ◽  
Sickle Cell ◽  
Cardiac Involvement ◽  
Dry Weight ◽  
Iron Deposit ◽  
Acute Chest Syndrome ◽  
Cell Disease ◽  
Cardiac Iron ◽  
Male Sibling

Abstract In sickle cell disease (SCD), transfusions improve blood flow by reducing the proportion of red cells capable of forming sickle hemoglobin polymer. The major and unavoidable complication of transfusions in SCD is iron overload. Patients with significant transfusion load and iron siderosis, often have iron deposit into multi organs, including liver, pancreas and heart. However, patients with SCD may be relatively protected from iron mediated cardiac toxicity as compared to patients with thalassemia and similar transfusion load. Nonetheless while patients with SCD have less iron deposition in the heart it is presumed that severe loading will eventually lead to cardiac involvement. We report here two patients with scd with severe iron overload who had no cardiac involvement. These are an 18 year old female and her 20 year old male sibling, known to have SCD (HbSS) with significant blood transfusions history, once a month or every two weeks for 12 years duration. Both had undergone splenectomy, and multiple hospitalizations for pain crises and acute chest syndrome. They had received intermittent iron chelation therapy for only 2 years. Examination revealed marked hepatomegaly and highly elevated ferritin levels, 11964ng/ml and 7098ng/ml respectively, suggestive of iron overload. Both patients had unremarkable electrocardiogram and echocardiogram. SGPT and SGOT are normal. Both patients are below the 5thpercentile for height, and l the 18 year old girl is pre-pubertal, has growth hormone deficiency and is on treatment. Cardiac, liver and pancreas magnetic resonance imaging with T2* showed normal cardiac structure and function without siderosis ( heart T2*32 ms and 35 ms in the female and male siblings, respectively [normal >20 ms]). There was however considerable liver siderosis with estimated liver iron content 16.6±4.4 mg/g dry weight (female sibling) and 13.9±1.8 mg/g dry weight (male sibling). The corresponding R2* were 646±165 HZ and 541±62 Hz, respectively. Also, there was mild to moderate pancreatic siderosis in the 18 year old female (R2* 111 HZ) and mild pancreatic siderosis in her sibling (R2* 55 Hz) These two cases while consistent with what has been reported are unusual because of the degree of iron ovreloead. It is an unexepected finding that despite such extensive iron deposits in the liver, there is no evidence of cardiac iron. It thus seems that in patients with sickle cell disease, even with extensive liver siderosis and endocrine dysfunction there is sparing of the heart. Collecting and studying such cases may shed light on the mecahins of cardiac protection from iron overload in sickle cell disease. Disclosures No relevant conflicts of interest to declare.

scholarly journals Plasma level of matrix metalloproteinase-9 in patients with sickle cell disease and its correlation to myocardial iron overload

2020 ◽  
Author(s):  
Tamer Hassan ◽  
Mohamed Badr ◽  
Mohamed Arafa ◽  
Doaa Abdel Rahman ◽  
Manar Fathy ◽  
...  
Keyword(s):  
Sickle Cell Disease ◽  
Iron Overload ◽  
Sickle Cell ◽  
Serum Ferritin ◽  
Plasma Levels ◽  
Restrictive Cardiomyopathy ◽  
Myocardial Iron ◽  
Cell Disease ◽  
Cardiac Iron ◽  
Cardiac Iron Overload

Abstract Cardiac iron overload is secondary to chronic blood transfusion in patients with sickle cell disease (SCD). Iron overload cardiomyopathy is a restrictive cardiomyopathy associated with systolic and diastolic dysfunction. Matrix metalloproteinases (MMPs) are a family of zinc-dependent endopeptidases responsible for tissue remodeling. Many studies offer strong evidence for the role of MMP-9 in LV remodeling. We aimed to detect plasma levels of MMP-9 in patients with SCD and its correlation to myocardial iron overload. A case control study was carried out on 50 patients with SCD and 50 age and sex matched healthy controls. Assessment of cardiac iron overload in patients by MRI T2* was performed. Plasma MMP-9 levels were measured for patients and controls using ELISA. SCD patients had significantly higher levels of MMP-9 than controls. There was highly significant correlation between plasma levels of MMP-9 and serum ferritin. Patients with vaso-occlusive crises (VOC) > 5/year had significantly higher levels of MMP-9 than those with VOC ≤ 5 /year. No significant correlation was found between MMP-9 and cardiac T2*. MMP-9 seems to be a useful marker in SCD patients. Patients with serum ferritin > 1000 ng/ml, recurrent VOC > 5 /year had significantly higher MMP-9 serum levels than others.

Cardiac Iron Overload In Sickle-Cell Disease

Blood ◽  
2013 ◽  
Vol 122 (21) ◽  
pp. 1013-1013
Author(s):  
Antonella Meloni ◽  
Mammen Puliyel ◽  
Alessia Pepe ◽  
Massimo Lombardi ◽  
Vasilios Berdoukas ◽  
...  
Keyword(s):  
Myocardial Infarction ◽  
Sickle Cell Disease ◽  
Iron Overload ◽  
Sickle Cell ◽  
Clinical Characteristics ◽  
Transferrin Saturation ◽  
Thalassemia Major ◽  
Cell Disease ◽  
Cardiac Iron ◽  
Cardiac Iron Overload

Abstract Introduction Chronically transfused sickle cell disease (SCD) patients have lower risk of endocrine and cardiac iron overload load than comparably transfused thalassemia major patients. The mechanisms for this protection remain controversial but likely reflects lower transferrin saturation and circulating labile iron pools because of chronic inflammation and regeneration of apotransferrin through erythropoiesis. However, cardioprotection is incomplete; we have identified 6 patients out of the 201 patients (3%) followed at our Institution who have prospectively developed cardiac iron. We present the clinical characteristics of these patients to identify potential risk factors for cardiac iron accumulation. Methods Cardiac, hepatic, and pancreatic iron overload were assessed by R2* Magnetic Resonance Imaging (MRI) techniques as extensively described by our laboratory. The medical records of the selected patients were reviewed for demographic data, for transfusion and chelation history and for hematologic and biochemical parameters. Results Table 1 describes clinical characteristics of the six patients at the time they developed detectable cardiac iron (R2* ≥ 50 ms). Patient 6 was included because he showed a R2* of 49 Hz that was increasing rapidly. Five of the six patients were managed on simple transfusions. Five patients had been on chronic transfusion for more than 11 years. The three patients who developed cardiac iron the earliest (3.7 – 14 years of transfusions) had more efficient suppression of endogenous red cell production (HbS levels 2-5%) compared with patients who required longer transfusional exposure (HbS levels 13.3 – 41%). All patients had qualitatively poor chelation compliance (<50%), based upon their prescription refill rate. All patients had serum ferritin levels exceeding 4600 and liver iron concentration (LIC) greater than 22 mg/g. Pancreatic R2* was greater than 100 Hz in every patient studied (5/6). Figure 1 shows the longitudinal relationship between iron overload in the heart and in the other organs for each patient; initial iron levels are shown in black. Cardiac R2* appears increase dramatically once a critical LIC “threshold” is reached, qualitatively similar to the 18 mg/g threshold observed in thalassemia major patients. Cardiac R2* rose proportionally to pancreas R2*, similar to thalassemia major patients, with all of the patients having pancreas R2* > 100 Hz at the time cardiac iron was detected. Conclusions Cardiac iron overload occurs in a small percentage of chronically transfused SCD patients and is only associated with exceptionally poor control of total body iron stores. Duration of chronic transfusion is clearly important but other factors, such as levels of effective erythropoiesis, may also contribute to cardiac risk. The relationship between cardiac iron and pancreas R2* suggests that pancreas R2* can serve as a valuable screening tool for cardiac iron in SCD patients. Disclosures: Berdoukas: ApoPharma inc: Consultancy. Coates:ApoPharma inc, Novartis, Shire: Consultancy. Wood:Novartis: Consultancy, Honoraria; Shire: Consultancy, Research Funding; ApoPharma: Consultancy, Honoraria, Use of deferiprone in myocardial infarction, Use of deferiprone in myocardial infarction Patents & Royalties.

Pulmonary Hypertension Is Uncommon In Well-Transfused Thalassemia Major Patients

Blood ◽  
2010 ◽  
Vol 116 (21) ◽  
pp. 4273-4273
Author(s):  
Jon Detterich ◽  
Leila Noetzli ◽  
Susan Carson ◽  
Paul Harmatz ◽  
Thomas D. Coates ◽  
...  
Keyword(s):  
Pulmonary Hypertension ◽  
Sickle Cell Disease ◽  
Pulmonary Artery ◽  
Iron Overload ◽  
Research Funding ◽  
Thalassemia Major ◽  
Left Ventricular ◽  
Cell Disease ◽  
Liver Iron ◽  
Cardiac Iron

Abstract Abstract 4273 Introduction: Pulmonary hypertension is a common and serious cardiovascular complication in patients with thalassemia intermedia and sickle cell disease. Circulating platelet and erythrocyte fragments, as well as cell-free hemoglobin from intravascular hemolysis, may contribute to nitric oxide depletion, intimal proliferation, and pulmonary vascular remodeling. Splenectomy has been also been associated with pulmonary hypertension in some studies. Ineffective erythropoiesis, via release of PLGF and elevation of other proinflammitory cytokines, has also been associated with pulmonary hypertension. However, the risk for pulmonary hypertension in thalassemia major patients remains controversial, with prevalence estimates ranging from 10%-60%. We report echocardiography results from 80 thalassemia major patients enrolled in the Early Detection of Iron Cardiomyopathy Trial (EDICT) at Children's Hospital Los Angeles. Methods: Patients were enrolled from August 2004 until May 2009 in a combined cross-sectional and observational trial probing for early predictors of cardiac dysfunction. Patient visits were scheduled within one week of transfusion. All patients underwent echocardiography and cardiac MRI analysis within 4 months of each other; most were performed during the same clinical visit (median time between scans one day). Comprehensive assessments of pulmonary artery pressure (tricuspid and pulmonary regurgitation velocities), systolic function, and diastolic function were performed using two dimensional imaging, M-mode, and routine and tissue Doppler. All images were collected by experienced echocardiography technicians and analyzed by the principal investigator. Three to five beat averages were used to improve measurement stability. Tricuspid regurgitation (TR) jet was only reported if a full envelope was recognized; at our institution, the upper limit of normal for TR jet is 2.7 m/s. Results: Patient demographics are summarized in Table 1. Patients were gender-balanced and well distributed between 11 and 47 years of age. Patients who had been splenectomized (N=34) tended to be older. Iron overload was severe, with a mean liver iron concentration of 12.4 ± 14.2 mg/g dry weight. Roughly half of the patients had detectable cardiac iron and 9% had overt left ventricular dysfunction (LVEF < 56%). TR jet was detectable in 62/80 patients. Only one patient exhibited pulmonary artery hypertension (TR jet 2.9 m/s), however this patient also had severe cardiac iron overload and overt left ventricular systolic and diastolic dysfunction (LVEF 42.7%, E/E' 10). Two patients had TR jets of 2.6 ms and three had TR jets of 2.5 m/s. Pulmonary insufficiency jets were normal in all patients. TR velocity did not correlate with age, cardiac index, cardiac iron or liver iron, but demonstrated a weak (r=0.29, p=0.02) association with left ventricular diastolic dysfunction (E/E′). Discussion: The EDICT patient cohort suggests a low risk for pulmonary hypertension in well-transfused thalassemia major patients. The single elevated TR jet was explained by iron cardiomyopathy and normalized (2.2 m/s) after two years of aggressive chelation therapy. TR velocities at the upper limits of normal (2.5-2.7 m/s) were observed in five patients; these have been associated with poor outcomes in some sickle cell disease cohorts, but not in thalassemia major. Long-term surveillance remains critical as pulmonary hypertension risk may increase with age. Disclosures: Harmatz: Novartis: Research Funding. Coates:Novartis: Research Funding, Speakers Bureau. Wood:Novartis: Research Funding; Ferrokin Biosciences: Consultancy.

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