Normalisation of total body iron load with very intensive combined chelation reverses cardiac and endocrine complications of thalassaemia major
Kallistheni Farmaki,
Ioanna Tzoumari,
Christina Pappa,
Giorgos Chouliaras,
Vasilios Berdoukas,
Kallistheni Farmaki
Transfusion Department and Thalassaemia Unit, General Hospital of Corinth, Corinth
Search for more papers by this authorIoanna Tzoumari
Transfusion Department and Thalassaemia Unit, General Hospital of Corinth, Corinth
Search for more papers by this authorChristina Pappa
Transfusion Department and Thalassaemia Unit, General Hospital of Corinth, Corinth
Search for more papers by this authorGiorgos Chouliaras
Thalassaemia Unit, 1st Dept of Paediatrics, University of Athens, “Aghia Sophia” Children’s’ Hospital, Athens, Greece
Search for more papers by this authorVasilios Berdoukas
Thalassaemia Unit, 1st Dept of Paediatrics, University of Athens, “Aghia Sophia” Children’s’ Hospital, Athens, Greece
Search for more papers by this authorKallistheni Farmaki,
Ioanna Tzoumari,
Christina Pappa,
Giorgos Chouliaras,
Vasilios Berdoukas,
Kallistheni Farmaki
Transfusion Department and Thalassaemia Unit, General Hospital of Corinth, Corinth
Search for more papers by this authorIoanna Tzoumari
Transfusion Department and Thalassaemia Unit, General Hospital of Corinth, Corinth
Search for more papers by this authorChristina Pappa
Transfusion Department and Thalassaemia Unit, General Hospital of Corinth, Corinth
Search for more papers by this authorGiorgos Chouliaras
Thalassaemia Unit, 1st Dept of Paediatrics, University of Athens, “Aghia Sophia” Children’s’ Hospital, Athens, Greece
Search for more papers by this authorVasilios Berdoukas
Thalassaemia Unit, 1st Dept of Paediatrics, University of Athens, “Aghia Sophia” Children’s’ Hospital, Athens, Greece
Search for more papers by this authorDr Kallistheni Farmaki, Transfusion Department and Thalassaemia Unit, General Hospital of Corinth, Leoforos Athinon 53, Corinth 20100, Greece. E-mail: [email protected]
Summary
Cardiac and endocrine disorders are common sequelae of iron overload in transfused thalassaemia patients. Combined chelation with desferrioxamine (DFO) and deferiprone (DFP) is well tolerated and produces an additive/synergistic effect superior to either drug alone. 52 thalassaemia major patients were transitioned from DFO to combined chelation with DFO and DFP. Serum ferritin, cardiac and hepatic iron levels were monitored regularly for up to 7 years, as were cardiac and endocrine function. Patients’ iron load normalized, as judged by ferritin and cardiac and hepatic magnetic resonance imaging findings. In all 12 patients receiving treatment for cardiac dysfunction, symptoms reversed following combined chelation, enabling nine patients to discontinue heart medications. In the 39 patients with abnormal glucose metabolism, 44% normalized. In 18 requiring thyroxine supplementation for hypothyroidism, 10 were able to discontinue, and four reduced their thyroxine dose. In 14 hypogonadal males on testosterone therapy, seven stopped treatment. Of the 19 females, who were hypogonadal on DFO monotherapy, six were able to conceive. Moreover, no patients developed de novo cardiac or endocrine complications. These results suggest that intensive combined chelation normalized patients’ iron load and thereby prevented and reversed cardiac and multiple endocrine complications associated with transfusion iron overload.
References
- Aessopos, A., Fragodimitri, C., Karabatsos, F., Hatziliami, A., Yousef, J., Giakoumis, A., Dokou, A., Gotsis, E.D., Berdoukas, V. & Karagiorga, M. (2007) Cardiac magnetic resonance imaging R2* assessments and analysis of historical parameters in patients with transfusion-dependent thalassemia. Haematologica, 92, 131–132.
- Aessopos, A., Berdoukas, V. & Tsironi, M. (2008) The heart in transfusion dependent homozygous thalassaemia today – prediction, prevention and management. European Journal of Haematology, 80, 93–106.
- Anderson, L.J., Westwood, M.A., Holden, S., Davis, B., Prescott, E., Wonke, B., Porter, J.B., Walker, J.M. & Pennell, D.J. (2004) Myocardial iron clearance during reversal of siderotic cardiomyopathy with intravenous desferrioxamine: a prospective study using T2* cardiovascular magnetic resonance. British Journal of Haematology, 127, 348–355.
- Angelopoulos, N.G., Zervas, A., Livadas, S., Adamopoulos, I., Giannopoulos, D., Goula, A. & Tolis, G. (2006) Reduced insulin secretion in normoglycaemic patients with beta-thalassaemia major. Diabetic Medicine, 23, 1327–1331.
- Au, W.Y., Lam, W.W., Chu, W., Tam, S., Wong, W.K., Liang, R. & Ha, S.Y. (2008) A T2* magnetic resonance imaging study of pancreatic iron overload in thalassemia major. Haematologica, 93, 116–119.
- Biondi, B. & Cooper, D.S. (2008) The clinical significance of subclinical thyroid dysfunction. Endocrine Reviews, 29, 76–131.
- Borgna-Pignatti, C., Rugolotto, S., De Stefano, P., Zhao, H., Cappellini, M.D., Del Vecchio, G.C., Romeo, M.A., Forni, G.L., Gamberini, M.R., Ghilardi, R., Piga, A. & Cnaan, A. (2004) Survival and complications in patients with thalassemia major treated with transfusion and deferoxamine. Haematologica, 89, 1187–1193.
- Borgna-Pignatti, C., Cappellini, M.D., De Stefano, P., Del Vecchio, G.C., Forni, G.L., Gamberini, M.R., Ghilardi, R., Origa, R., Piga, A., Romeo, M.A., Zhao, H. & Cnaan, A. (2005) Survival and complications in thalassemia. Annals of the New York Academy of Sciences, 1054, 40–47.
- Borgna-Pignatti, C., Cappellini, M.D., De Stefano, P., Del Vecchio, G.C., Forni, G.L., Gamberini, M.R., Ghilardi, R., Piga, A., Romeo, M.A., Zhao, H. & Cnaan, A. (2006) Cardiac morbidity and mortality in deferoxamine- or deferiprone-treated patients with thalassemia major. Blood, 107, 3733–3737.
- Cario, H., Holl, R.W., Debatin, K.M. & Kohne, E. (2003a) Disproportionately elevated fasting proinsulin levels in normoglycemic patients with thalassemia major are correlated to the degree of iron overload. Hormone Research, 59, 73–78.
- Cario, H., Holl, R.W., Debatin, K.M. & Kohne, E. (2003b) Insulin sensitivity and beta-cell secretion in thalassaemia major with secondary haemochromatosis: assessment by oral glucose tolerance test. European Journal of Pediatrics, 162, 139–146.
- Caro, J.J., Ward, A., Green, T.C., Huybrechts, K., Arana, A., Wait, S. & Eleftheriou, A. (2002) Impact of thalassemia major on patients and their families. Acta Haematologica, 107, 150–157.
- Christoforidis, A., Perifanis, V. & Athanassiou-Metaxa, M. (2006) Combined chelation therapy improves glucose metabolism in patients with beta-thalassaemia major. British Journal of Haematology, 135, 271–272.
-
Cooper, D.S. (2001) Clinical practice. Subclinical hypothyroidism.
New England Journal of Medicine, 345, 260–265.
10.1056/NEJM200107263450406 Google Scholar
- Cunningham, M.J., Macklin, E.A., Neufeld, E.J. & Cohen, A.R. (2004) Complications of beta-thalassemia major in North America. Blood, 104, 34–39.
- De Sanctis, V., Eleftheriou, A. & Malaventura, C. (2004) Prevalence of endocrine complications and short stature in patients with thalassaemia major: a multicenter study by the Thalassaemia International Federation (TIF). Pediatric Endocrinology Reviews, 2(Suppl. 2), 249–255.
- De Sanctis, V., De Sanctis, E., Ricchieri, P., Gubellini, E., Gilli, G. & Gamberini, M.R. (2008) Mild subclinical hypothyroidism in thalassaemia major: prevalence, multigated radionuclide test, clinical and laboratory long-term follow-up study. Pediatric Endocrinology Reviews, 6(Suppl. 1), 174–180.
- Dolgin, M. (1994) Nomenclature and Criteria for Diagnosis of Diseases of the Heart and Great Vessels. Little Brown and Company, New York.
- Engle, M.A., Erlandson, M. & Smith, C.H. (1964) Late cardiac complications of chronic, severe, refractory anemia with hemochromatosis. Circulation, 30, 698–705.
- Farmaki, K., Angelopoulos, N., Anagnostopoulos, G., Gotsis, E., Rombopoulos, G. & Tolis, G. (2006) Effect of enhanced iron chelation therapy on glucose metabolism in patients with beta-thalassaemia major. British Journal of Haematology, 134, 438–444.
- Fink, H. (1964) Transfusion hemochromatosis in Cooley’s anemia. Annals of the New York Academy of Sciences, 119, 680–685.
- Gabutti, V. & Piga, A. (1996) Results of long-term iron-chelating therapy. Acta Haematologica, 95, 26–36.
- Gamberini, M.R., Fortini, M., De Sanctis, V., Gilli, G. & Testa, M.R. (2004) Diabetes mellitus and impaired glucose tolerance in thalassaemia major: incidence, prevalence, risk factors and survival in patients followed in the Ferrara Center. Pediatric Endocrinology Reviews, 2(Suppl. 2), 285–291.
- Gharib, H., Tuttle, R.M., Baskin, H.J., Fish, L.H., Singer, P.A. & McDermott, M.T. (2005) Consensus statement #1: subclinical thyroid dysfunction: a joint statement on management from the American Association of Clinical Endocrinologists, the American Thyroid Association, and The Endocrine Society. Thyroid, 15, 24–28.
- Giardina, P.J. & Grady, R.W. (2001) Chelation therapy in beta-thalassemia: an optimistic update. Seminars in Hematology, 38, 360–366.
- Hoffbrand, A.V. (2005) Deferiprone therapy for transfusional iron overload. Best Practice & Research. Clinical Haematology, 18, 299–317.
- Hoffbrand, A.V., Cohen, A. & Hershko, C. (2003) Role of deferiprone in chelation therapy for transfusional iron overload. Blood, 102, 17–24.
- Kattamis, C., Ladis, V., Tsoussis, D., Kaloumenou, I. & Theodoridis, C. (2004) Evolution of glucose intolerance and diabetes in transfused patients with thalassemia. Pediatric Endocrinology Reviews, 2(Suppl. 2), 267–271.
- Link, G., Konijn, A.M., Breuer, W., Cabantchik, Z.I. & Hershko, C. (2001) Exploring the “iron shuttle” hypothesis in chelation therapy: effects of combined deferoxamine and deferiprone treatment in hypertransfused rats with labeled iron stores and in iron-loaded rat heart cells in culture. Journal of Laboratory and Clinical Medicine, 138, 130–138.
- Maggio, A., Vitrano, A., Capra, M., Cuccia, L., Gagliardotto, F., Filosa, A., Magnano, C., Rizzo, M., Caruso, V., Gerardi, C., Argento, C., Campisi, S., Cantella, F., Commendatore, F., D’Ascola, D.G., Fidone, C., Ciancio, A., Galati, M.C., Giuffrida, G., Cingari, R., Giugno, G., Lombardo, T., Prossomariti, L., Malizia, R., Meo, A., Roccamo, G., Romeo, M.A., Violi, P., Cianciulli, P. & Rigano, P. (2009) Improving survival with deferiprone treatment in patients with thalassemia major: a prospective multicenter randomised clinical trial under the auspices of the Italian Society for Thalassemia and Hemoglobinopathies. Blood Cells, Molecules, and Diseases, 42, 247–251.
- Melchionda, N., Forlani, G., Marchesini, G., Baraldi, L. & Natale, S. (2002) WHO and ADA criteria for the diagnosis of diabetes mellitus in relation to body mass index. Insulin sensitivity and secretion in resulting subcategories of glucose tolerance. International Journal of Obesity and Related Metabolic Disorders, 26, 90–96.
- Merkel, P.A., Simonson, D.C., Amiel, S.A., Plewe, G., Sherwin, R.S., Pearson, H.A. & Tamborlane, W.V. (1988) Insulin resistance and hyperinsulinemia in patients with thalassemia major treated by hypertransfusion. New England Journal of Medicine, 318, 809–814.
- Miskin, H., Yaniv, I., Berant, M., Hershko, C. & Tamary, H. (2003) Reversal of cardiac complications in thalassemia major by long-term intermittent daily intensive iron chelation. European Journal of Haematology, 70, 398–403.
- Modell, B., Khan, M. & Darlison, M. (2000) Survival in beta-thalassaemia major in the UK: data from the UK Thalassaemia Register. Lancet, 355, 2051–2052.
- Modell, B., Khan, M., Darlison, M., Westwood, M.A., Ingram, D. & Pennell, D.J. (2008) Improved survival of thalassaemia major in the UK and relation to T2* cardiovascular magnetic resonance. Journal of Cardiovascular Magnetic Resonance, 10, 42.
- Pennell, D.J., Berdoukas, V., Karagiorga, M., Ladis, V., Piga, A., Aessopos, A., Gotsis, E.D., Tanner, M.A., Smith, G.C., Westwood, M.A., Wonke, B. & Galanello, R. (2006) Randomized controlled trial of deferiprone or deferoxamine in beta-thalassemia major patients with asymptomatic myocardial siderosis. Blood, 107, 3738–3744.
- Piga, A., Gaglioti, C., Fogliacco, E. & Tricta, F. (2003) Comparative effects of deferiprone and deferoxamine on survival and cardiac disease in patients with thalassemia major: a retrospective analysis. Haematologica, 88, 489–496.
- Sohn, Y.S., Breuer, W., Munnich, A. & Cabantchik, Z.I. (2008) Redistribution of accumulated cell iron: a modality of chelation with therapeutic implications. Blood, 111, 1690–1699.
- St Pierre, T.G., Clark, P.R., Chua-anusorn, W., Fleming, A.J., Jeffrey, G.P., Olynyk, J.K., Pootrakul, P., Robins, E. & Lindeman, R. (2005) Noninvasive measurement and imaging of liver iron concentrations using proton magnetic resonance. Blood, 105, 855–861.
- Tanner, M.A., Galanello, R., Dessi, C., Smith, G.C., Westwood, M.A., Agus, A., Roughton, M., Assomull, R., Nair, S.V., Walker, J.M. & Pennell, D.J. (2007) A randomized, placebo-controlled, double-blind trial of the effect of combined therapy with deferoxamine and deferiprone on myocardial iron in thalassemia major using cardiovascular magnetic resonance. Circulation, 115, 1876–1884.
- Tanner, M.A., Galanello, R., Dessi, C., Smith, G.C., Westwood, M.A., Agus, A., Pibiri, M., Nair, S.V., Walker, J.M. & Pennell, D.J. (2008) Combined chelation therapy in thalassemia major for the treatment of severe myocardial siderosis with left ventricular dysfunction. Journal of Cardiovascular Magnetic Resonance, 10, 12.
- Tavecchia, L., Masera, N., Russo, P., Ciro, A., Vincenzi, A., Vimercati, C. & Masera, G. (2006) Successful recovery of acute hemosiderotic heart failure in beta-thalassemia major treated with a combined regimen of desferrioxamine and deferiprone. Haematologica, 91, ECR19.
- Telfer, P., Coen, P.G., Christou, S., Hadjigavriel, M., Kolnakou, A., Pangalou, E., Pavlides, N., Psiloines, M., Simamonian, K., Skordos, G., Sitarou, M. & Angastiniotis, M. (2006) Survival of medically treated thalassemia patients in Cyprus. Trends and risk factors over the period 1980–2004. Haematologica, 91, 1187–1192.
- Thomas, R.M. & Skalicka, A.E. (1980) Successful pregnancy in transfusion-dependent thalassaemia. Archives of Disease in Childhood, 55, 572–574.
- Tsironi, M., Deftereos, S., Andriopoulos, P., Farmakis, D., Meletis, J. & Aessopos, A. (2005) Reversal of heart failure in thalassemia major by combined chelation therapy: a case report. European Journal of Haematology, 74, 84–85.
- Tuck, S.M., Jensen, C.E., Wonke, B. & Yardumian, A. (1998) Pregnancy management and outcomes in women with thalassaemia major. Journal of Pediatric Endocrinology and Metabolism, 11(Suppl. 3), 923–928.
- Wonke, B., Wright, C. & Hoffbrand, A.V. (1998) Combined therapy with deferiprone and desferrioxamine. British Journal of Haematology, 103, 361–364.
- Wood, J.C., Enriquez, C., Ghugre, N., Tyzka, J.M., Carson, S., Nelson, M.D. & Coates, T.D. (2005) MRI R2 and R2* mapping accurately estimates hepatic iron concentration in transfusion-dependent thalassemia and sickle cell disease patients. Blood, 106, 1460–1465.
- Wu, K.H., Chang, J.S., Tsai, C.H. & Peng, C.T. (2004) Combined therapy with deferiprone and desferrioxamine successfully regresses severe heart failure in patients with beta-thalassemia major. Annals of Hematology, 83, 471–473.
- Zanninelli, G., Glickstein, H., Breuer, W., Milgram, P., Brissot, P., Hider, R.C., Konijn, A.M., Libman, J., Shanzer, A. & Cabantchik, Z.I. (1997) Chelation and mobilization of cellular iron by different classes of chelators. Molecular Pharmacology, 51, 842–852.
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