Myocardial tissue characterization and the role of chronic anemia in sickle cell cardiomyopathy.

Purpose: To use cardiovascular magnetic resonance (CMR) techniques to examine possible causes for the left ventricular (LV) dilatation that occurs in sickle cell disease (SCD), including the effects of chronic anemia, iron-induced cardiomyopathy, and regional fibrosis due to sludge infarcts that occur during sickle crises.

Materials And Methods: A total of 47 patients with sickle cell anemia were assessed for LV function and myocardial iron levels using CMR measurements; 30 of these were also assessed for regional fibrosis using late gadolinium-enhancement CMR. The LV function was compared to both normal controls and transfusion dependent non-iron-loaded (NIL) thalassemia major (TM) patients.

Myocardial iron loading by magnetic resonance imaging T2* in good prognostic myelodysplastic syndrome patients on long-term blood transfusions.

Magnetic resonance imaging (MRI) was used to quantify myocardial iron loading by T2* in 11 transfusion-dependent good prognostic myelodysplastic syndrome (MDS) patients. Myocardial T2*, left ventricular function and hepatic T2* were measured simultaneously. Patients had been on transfusion therapy for 13-123 months and had serum ferritin levels of 1109-6148 microg/l at the time of study.

Normalized left ventricular volumes and function in thalassemia major patients with normal myocardial iron.

Purpose: To determine the reference range in thalassemia major (TM) for left ventricular (LV) function.

Materials And Methods: We used cardiovascular magnetic resonance (CMR) to measure heart volumes and function in 81 TM patients with normal myocardial T2* measurements (T2* > 20 msec) and by inference without excess myocardial iron. Forty age- and gender-matched healthy controls were also studied.

Microcytosis, iron deficiency and thalassaemia in a multi-ethnic community: a pilot study.

The high prevalence of microcytosis (defined here as mean cell haemoglobin<27 pg) with no other abnormality is a principal cause of confusion in screening for haemoglobin disorders. Here we report the results of a small pilot study aiming to resolve this confusion by routinely proceeding to plasma ferritin and HPLC assay, using the original sequestrene blood sample, when microcytosis is detected. Participants comprised a random sample of 1,302 people referred for a full blood count by their General Practitioner (GP) to the laboratory of a North London district general hospital serving a multi-ethnic inner-city population.

Development of thalassaemic iron overload cardiomyopathy despite low liver iron levels and meticulous compliance to desferrioxamine.

It is believed that myocardial iron deposition and the resultant cardiomyopathy only occur in the presence of severe liver iron overload. Using cardiovascular magnetic resonance, it is now possible to assess myocardial and liver iron levels as well as cardiac function in the same scan, allowing this supposition to be examined. We describe a patient with progressive myocardial iron deposition and the development of early iron overload cardiomyopathy despite excellent compliance to standard subcutaneous desferrioxamine, minimal liver iron and well-controlled serum ferritin levels.