A Risk-Benefit Assessment of Iron-Chelation Therapy

Iron overload caused by lifelong transfusion-dependent anaemias, such as β-thalassaemia major, usually results in lethal cardiac toxicity in the second decade of life if not treated by iron chelation. There is no physiological mechanism for excreting the excess iron accumulated from blood transfusions and, unlike hereditary haemochromatosis, venesection is not an option. Therefore, chelation therapy is the only way to remove excess iron. This must be removed while not depriving cells of the essential iron needed for normal metabolism. Additionally, the iron chelator must prevent iron from participating in the generation of harmful free radicals.