The Role of Labile Plasmatic Iron (LPI) In the Assessment of Iron Overload In β-Thalassemic Patients and Its Correlation with MRI Findings
| Autor: | Michelli da Silva Diniz, Laercio Alberto Rosemberg, Antonio Fabron Junior, Nelson Hamerschlak, Cesar Higa Nomura, Ronaldo Hueb Baroni, John C. Wood, Merula A. Steagal, Andreza Alice Feitosa Ribeiro, Claudia Angela Galenni di Sessa Velloso, Sandra Regina Loggetto, Sandra Saemi Nakashima, Marcelo Buarque de Gusmão Funari, Reiĵne Alves de Assis, Breno Pannia Espósito, Aderson S Araujo, Mônica Pinheiro de Almeida Veríssimo, Fernando Uliana Kay, Giorgio Roberto Baldanzi |
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| Rok vydání: | 2010 |
| Předmět: |
Liver Iron Concentration
medicine.medical_specialty Pathology Vitamin C medicine.diagnostic_test business.industry Thalassemia Immunology Ischemia Magnetic resonance imaging Cell Biology Hematology medicine.disease Biochemistry Gastroenterology Internal medicine medicine Chelation therapy Endothelial dysfunction Siderosis business |
| Zdroj: | Blood. 116:2072-2072 |
| ISSN: | 1528-0020 0006-4971 |
| Popis: | Abstract 2072 Introduction: The labile plasmatic iron (LPI) represents part of non-transferrin-bound iron (NTBI) capable of entering the tissues and causing oxidative injury. It might be related to certain types of brain damage, especially in those with ischemia, cognitive defects in Alzheimer's disease, endothelial dysfunction in thalassemic children, complications in myelodysplastic syndrome (MDS), in particular infection and tissue injury, and to the increase in mortality rates in transfused and diabetic patients. LPI determination has been used by several authors as a means to monitor the efficacy of different protocols of iron chelation in thalassemic and MDS patients. Efficacy studies of vitamin C and E antioxidant activity, which blocks iron-induced oxidative damage, have also used this methodology. LPI has been suggested as an alternative method to assess iron load. Objective: Establish a correlation between LPI and serum ferritin levels and tissue iron estimated by magnetic resonance imaging (MRI) T2*/R2* in the heart, pancreas and liver. Methods: Data from 83 patients with thalassemia major were analyzed. LPI was measured using a fluorescent method and values Results: Eighty three patients were studied, of which 44.6% were males and 55.4% females. The median number of red blood cell packs used per year was 29.3±7.4. The mean LPI was 1.04±2.39μM (range 0.001 – 11.45). The mean LIC and serum ferritin were 8.96±3.35 mg/g dry liver weight (1.31-18.34) and 2,928.19 ± 2,398.4 ng/ml (101-12,958), respectively. Cardiac T2* values varied from 3.4 to 59.52ms, of which 33.7% (28) showed cardiac iron overload (T2*43Hz, 86.3% (69) were classified as pancreatic siderosis. After ANOVA analysis, we found a strong correlation between LPI and LIC (p Conclusion: A strong correlation was found between LPI and liver iron concentration. It is still premature to use this correlation as a predictor of iron overload. However, it might be useful as a complementary method to monitor chelation therapy and does not preclude the MRI studies to assess tissue iron in clinical practice. Disclosures: No relevant conflicts of interest to declare. |
| Databáze: | OpenAIRE |
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