Cardiac iron overload in pediatric oncology and bone marrow transplant survivors.

Abstract

e22022 Background: Cardiovascular late effects are a leading cause of mortality and morbidity in childhood cancer and Bone Marrow Transplant (BMT) survivors. In patients receiving chronic red blood cell transfusions, excess iron may be deposited in the liver, heart, and pituitary gland. Iron overload cardiomyopathy is characterized as a restrictive physiology with early diastolic dysfunction ultimately progressing to end-stage dilated cardiomyopathy. Iron loading in the heart can also lead to arrhythmias and increase myocardial ischemia reperfusion injury due to increased formation of reactive oxygen species. It is not yet known whether high transfused packed red blood cell (PRBC) volumes in cancer and BMT patients leads to cardiac iron deposition, and whether iron-induced cardiac injury contributes to the known cardiovascular late effects in these patients. Methods: 83 childhood cancer and BMT survivors with elevated serum ferritin levels and subsequent liver Magnetic Resonance (MR) imaging were identified. 18 patients (21.7%) who had liver iron content of > 12mg/g (mean 16.0 ± 7.36 mg/g) also underwent Cardiac MRI (CMR) to determine cardiac iron content. Results: Median transfused blood volume was 393 ml/kg [95% Confidence Interval (CI) 170-780 ml/kg]. All 18 patients had at least one echocardiogram showing normal ventricular ejection fractions [mean 65.1 ± Standard Deviation (SD) 3.53%] and normal shortening fractions (mean 35.4 ± 3.67%). All patients had myocardial iron content within normal ranges (T2* relaxation time mean 35.1 msec ± 7.1 [normal >20 msec], mean ± SD iron content 0.63± 0.2 mg/g dry weight, range 0.5-1.1). There was no association of cardiac iron content with transfused blood volume, anthracycline dose (mg/m2) or liver iron content (Pearson Correlation Coefficients 0.27, 0.29 and 0.89 respectively). Conclusions: Childhood cancer and BMT patients receive multiple PRBC transfusions to treat symptomatic anemia. It is currently unknown whether excess iron deposition in the heart contributes to the cardiac effects of impaired diastolic function and ultimately systolic dysfunction. In this study, 11 of 18 patients (61.1%) with high levels of liver iron had at least 1 other risk factor for the development of future cardiac dysfunction (either anthracycline exposure, radiation to the chest or total body irradiation or both). Larger studies are needed to determine whether oncology patients with high levels of iron deposition in their liver are also at risk for clinically significant cardiac iron loading, and what risk factors may exist for elevated myocardial iron content.