Your search keyword '"Paul Harmatz"' showing total 30 results

1. The effect of deferasirox on cardiac iron in thalassemia major: impact of total body iron stores

Author

John C. Wood, Barinder P. Kang, Carole Paley, Alexis A. Thompson, Tara Glynos, Patricia J. Giardina, Thomas D. Coates, and Paul Harmatz

Subjects

Adult, Male, medicine.medical_specialty, Liver Iron Concentration, Iron Overload, Adolescent, Metabolic Clearance Rate, Iron, Thalassemia, Immunology, Population, Iron Chelating Agents, Benzoates, Biochemistry, Gastroenterology, Sepsis, Young Adult, Internal medicine, medicine, Humans, Child, education, education.field_of_study, Ejection fraction, business.industry, Myocardium, beta-Thalassemia, Deferasirox, Heart, Cell Biology, Hematology, Triazoles, medicine.disease, Surgery, Treatment Outcome, Hemoglobinopathy, Liver, Heart failure, Female, business, medicine.drug

Abstract

We present results from a prospective, multicenter, open-label, single-arm study evaluating response of cardiac and liver iron to deferasirox therapy for 18 months. Twenty-eight patients with abnormal T2* and normal left ventricular ejection fraction were enrolled from 4 US centers. All patients initially received deferasirox doses of 30 to 40 mg/kg per day. Patients were severely iron overloaded: mean liver iron concentration (LIC) 20.3 mg Fe/g dry weight, serum ferritin 4417 ng/mL, and cardiac T2* 8.6 ms. In the intent-to-treat population, 48% reached the primary endpoint (cardiac T2* improvement at 18 months, P = not significant). There were 2 deaths: 1 from congestive heart failure and 1 from sepsis. In the 22 patients completing the trial, LIC and cardiac T2* improvements were 16% (P = .06) and 14% (P = .07), respectively. Cardiac T2* improvement (13 patients) was predicted by initial LIC, final LIC, and percentage LIC change, but not initial cardiac T2*. Cardiac iron improved 24% in patients having LIC in the lower 2 quartiles and worsened 8.7% in patients having LIC in the upper 2 quartiles. Left ventricular ejection fraction was unchanged at all time points. Monotherapy with deferasirox was effective in patients with mild to moderate iron stores but failed to remove cardiac iron in patients with severe hepatic iron burdens. This study was registered at www.clinicaltrials.gov as #NCT00447694.

Published

2010

2. Severity of iron overload in patients with sickle cell disease receiving chronic red blood cell transfusion therapy

Author

Keith Quirolo, Linda D. Ferrell, Daniel W. Golden, Ellen Butensky, Paul Harmatz, Elliott Vichinsky, Roger Williams, Thomas P. Moyer, and Lynne Neumayr

Subjects

Liver injury, Hemolytic anemia, Pathology, medicine.medical_specialty, medicine.diagnostic_test, biology, business.industry, Immunology, Cell Biology, Hematology, medicine.disease, Biochemistry, Gastroenterology, Sickle cell anemia, Ferritin, Liver biopsy, Internal medicine, Biopsy, medicine, biology.protein, Transfusion therapy, Chelation therapy, business

Abstract

Chronic transfusion therapy is being used more frequently to prevent and treat the complications of sickle cell disease. Previous studies have shown that the iron overload that results from such therapy in other patient populations is associated with significant morbidity and mortality. In this study we examined the extent of iron overload as well as the presence of liver injury and the predictive value of ferritin in estimating iron overload in children with sickle cell disease who receive chronic red blood cell transfusions. A poor correlation was observed between serum ferritin and the quantitative iron on liver biopsy (mean 13.68 ± 6.64 mg/g dry weight;R = 0.350, P = .142). Quantitative iron was highly correlated with the months of transfusion (R = 0.795, P

Published

2000

3. Iron Level and Monocyte Morphology Predict TLR4 Expression and Reactive Oxygen Species Production Which Influences Chronic Inflammation in β-Thalassemia

Author

Nick R Slater, Ashutosh Lal, John B. Porter, Annie Higa, Patricia Evans, David W. Killilea, Lynne Neumayr, Vivian Ng, Paul Harmatz, Elliott Vichinsky, Nancy Sweeters, Patrick B. Walter, Marcels Weyhmiller, and Jackson Price

Subjects

Innate immune system, biology, Chemistry, Monocyte, Immunology, Pattern recognition receptor, Inflammation, Cell Biology, Hematology, Cell morphology, Biochemistry, medicine.anatomical_structure, medicine, biology.protein, TLR4, THP1 cell line, medicine.symptom, Antibody

Abstract

Introduction: β-thalassemia major requires a lifetime of transfusion and chelation therapy and despite improved chelation therapies, patients endure organ iron overload and increased hemolysis leading to organ injury and release of damage associated bio-markers. The structure of these markers are recognized by pattern recognition receptors (PRR) of the innate immune system as damage associated molecular patterns (DAMPs), which trigger inflammation and increased reactive oxygen species (ROS). The specificity of this recognition depends on PRRs, such as toll-like receptor 4 (TLR4), to provide the first line of defense against pathogens and DAMPS to initiate inflammation. Therefore, chronic organ iron loading is implicated in the chronic inflammation and morbidity of β-thalassemia major; however, the mechanism of how monocytes respond to iron loading in β-thalassemia remains largely unknown. This study investigated how chronic iron and heme overload affected innate immune cell morphology and expression of TLR4 and ROS by modeling THP-1 cellscompared to β-thalassemia monocytes. Methods: Cultured THP-1 monocytic cells were exposed to increasing concentrations of ferric citrate (0-250 μM) or heme (0-50 μM) for 24 hours or to chronic exposures of 40 μM ferric citrate for up to 3 weeks. Anti-human TLR4 phycoerythrin conjugated antibodies (TLR4-PE) were used to quantify TLR4 expression and 2,7-dichlorodihydrofluorescein diacetate (DCFH-DA) was used to measure ROS. Flow cytometry was done using a BD FACSCalibur. Peripheral-blood samples were obtained from 13 consenting β-thalassemia patients as part of the Novartis sponsored study investigating the effects of combined chelation therapy (CICL670AUS42T). Samples were also obtained from ethnically and age matched healthy controls. Peripheral-blood monocytes and THP-1 cells were gated on the parameters of forward and side scatter to stratify cells based on size and granularity, separating cells into two populations: larger more granular (LG) and smaller less granular (SG) cells. Results are reported as the MFI ratios of LG versus SG cells for TLR4-PE or DCFH-DA as a functional measure of the difference in TLR4 or ROS expression between these populations. Results: In vitro, LG THP-1 cells expressed 4-fold more TLR4 and 10-fold more ROS than SG cells (p < 0.001). Treatment of THP-1 cells with increasing concentrations of iron or heme for 1 day or 3 weeks, increased the ROS and TLR4 heterogeneity between LG and SG monocytes. The LG versus SG ratio of ROS production significantly correlated to the concentration of ferric citrate or heme added to the culture media (r = 0.64, p = 0.019 and r = 0.58 and p = 0.048, respectively). The mean ratio for iron but not heme treated THP-1 cells was significantly greater than for untreated cells (p = 0.008 and p = 0.406, respectively). Mean LG versus SG ratios of TLR4-PE MFI were 5.20 ± 1.56 for ferric citrate, 4.11 ± 0.90 for heme, and 3.78 ± 1.41 for untreated cells. We observed a similar TLR4 morphological heterogenic pattern in peripheral-blood monocytes from iron overloaded β-thalassemia patients. β-thalassemia LG monocytes had significantly greater TLR4 MFI than SG monocytes (LG mean = 11.91 ± 1.17, SG mean = 6.56 ± 1.02, p < 0.001). Long-term treatment of THP-1 monocytic cells for 3 weeks with 40 μM ferric citrate also resulted in the same phenomena regarding TLR4. No difference was observed in ROS production for control LG cells and SG cells; however, THP-1 cells treated for 3 weeks with 40uM ferric citrate revealed populations of LG cells that expressed 3 fold more ROS than SG cells. Conclusion: THP-1 monocytic cells and β-thalassemic peripheral-blood monocytes exhibit a morphological heterogeneity where LG cells express more TLR4 and in vitro, produce more ROS than SG cells. As TLR4 is one of the receptors for the initiation of inflammation, LG cells are likely greater contributors to the chronic inflammation experienced by β-thalassemia patients. Thus, we hypothesize that iron overload may give rise to monocytes that are larger and more granular and express more TLR4 and ROS. Disclosures Walter: Novartis: Research Funding. Porter:Shire: Consultancy, Honoraria; Novartis: Consultancy, Honoraria, Research Funding; Celgene: Consultancy.

Published

2015

4. Inflammatory and Vitamin Bio-Markers Of Iron Trafficking and Distribution In Transfusional Overload: Insights From Comparing Diamond Blackfan Anemia With Sickle Cell Disease and Thalassemia (MCSIO PILOT Study)

Author

Patricia Evans, Bjoern P. Schoennagel, Markus Seifert, John C. Wood, Joerg J Meerpohl, Peter Nielsen, Paul Harmatz, Patrick B. Walter, Lynne Neumayr, Roland Fischer, Elliott Vichinsky, Marcela G Weyhmiller, Quing Yuan, Guenter Weiss, John B. Porter, Regine Grosse, Jeffery L. Miller, and Zhiyue J. Wang

Subjects

Transferrin Saturation Measurement, biology, Anemia, business.industry, Transferrin saturation, Immunology, Ferroportin, Cell Biology, Hematology, medicine.disease, Ascorbic acid, Biochemistry, Ferritin, Hepcidin, medicine, biology.protein, Erythropoiesis, business

Abstract

Introduction Complications of transfusional iron overload vary with the underlying hematologic condition and may be affected by inherent differences in non-transferrin bound iron (NTBI) generation between these conditions. We have previously reported high NTBI levels in Diamond Blackfan anemia (DBA) relative to sickle cell (SCD), despite lower serum ferritin and LIC associated with very low sTfR levels in DBA. This suggested that low transferrin iron utilization in DBA relative to SCD and thalassemia major (TM) accounted for high NTBI levels. It is known that pro-inflammatory cytokine IL6 will increase hepcidin synthesis thereby decreasing ferroportin expression on macrophages but it is not known whether high levels of inflammatory cytokines can overcome or limit the effects of iron overload in raising NTBI and transferrin saturation. Here we have examined additional factors that may affect NTBI levels in different forms of inherited anemias. The relationship of inflammatory markers, the hepcidin/ferritin ratio and monocyte ferroportin in these conditions to NTBI levels have been examined. The possible effect of vitamin C or vitamin D deficiency on NTBI has also been examined. Methods 15 iron-overloaded patients (5 from each group of TM, SCD, and DBA) with ferritin > 1500 g/dl or LIC > 7 mg/g dry wt, age 16, age 0 to 9 at initiation of transfusion and 10 to 20 years of transfusion exposure were enrolled from 3 sites in the US and Europe. 5 non-transfused healthy controls were also enrolled. Fasting, early morning blood samples (including WBC isolation) were obtained one day prior to transfusion. Chelation was held for 72 hours prior to each sample and samples taken pre-transfusion. Measurement of hepcidin, sTfR, GDF-15, transferrin saturation, NTBI and LPI was as described elsewhere. Inflammatory cytokine IL6 and IL10 were measured by multiplex bead fluorimetry. Ferroportin expression in circulating monocytes, a potential marker of its expression in resident macrophages of spleen, liver and bone marrow was measured by western blotting. Results Results shown in Table 1 are most notable for the following findings: in DBA, the inflammatory markers IL6 and IL10 are high as in SCD or TM. Furthermore plasma hepcidin levels and hepcidin/ferritin ratios are higher in DBA, than in SCD or TM. Despite these high values of hepcidin, IL6 and IL10, monocyte ferroportin levels and NTBI remain high in DBA. This suggests that chronically high levels of circulating hepcidin do not decrease NTBI in patients with low transferrin iron utilization (as in DBA) and that this latter effect combined with iron overload is the more powerful determinant in raising NTBI levels. If the circulating monocytes are a true reflection of resident tissue macrophages that phagocytize red cells, this would suggest that high hepcidin levels are insufficient to suppress ferroportin expression in the presence of severe iron overload. TGFb was most raised in SCD whereas TNFα, were similar in SCD, Thal and DBA. In SCD ferroportin levels on circulating monocytes were lower than DBA and Thal as well as being lower than control which could contribute to low transferrin saturation and low NTBI levels. Vitamin C levels were also lowest and this could contribute to iron retention within macrophages and hence the low NTBI levels observed in SCD. Conclusions Taken with our previous findings (ASH abstract 2012), our results are consistent with NTBI and Tf saturation being determined by an interaction of opposing effects, which vary depending on the underlying cause of anemia. NTBI and Tf saturation are increased by (a) iron overload, (b) low erythropoiesis though low utilization of transferrin iron. The findings in this study extension suggest that vitamin C deficiency in SCD could be a contributing factor to low NTBI and this requires further investigation. However the presence of a raised inflammatory cytokine and raised hepcidin appears to be insufficient to abrogate the combined effects of low utilization of transferrin iron and iron overload on raising NTBI in DBA. Disclosures: Porter: Novartis: Consultancy, Research Funding; Celgene: Consultancy; Shire: Consultancy. Walter:Novartis: Research Funding. Harmatz:Novartis: Research Funding; Shire: Consultancy, Honoraria, Research Funding, travel, travel Other. Vichinsky:Novartis: Honoraria, Research Funding.

Published

2013

5. Innate Immune Cell Expression of Pattern Recognition Receptors From β-Thalassemia Patients During Intensive Combination Chelation Therapy

Author

Patrick B. Walter, David W. Killilea, Nancy Sweeters, Marcela G Weyhmiller, Vivian Ng, John B. Porter, Paul Harmatz, Elliott Vichinsky, Jackson Price, Annie Higa, Alisha Manji, Patricia Evans, and Ashutosh Lal

Subjects

Toll-like receptor, Innate immune system, biology, business.industry, Thalassemia, CD14, Monocyte, Immunology, Deferasirox, Cell Biology, Hematology, medicine.disease, Biochemistry, Ferritin, medicine.anatomical_structure, Immune system, biology.protein, medicine, business, medicine.drug

Abstract

Abstract 1025 Introduction: Thalassemia major patients endure chronic RBC transfusions, high levels of tissue iron, iron chelation and organ injury. Patients with thalassemia also have reduced immune function and are at risk for infection. Infection is in fact the second most common cause of death in thalassemia. The innate immune system provides the first line of defense against infection and it specificity depends on pattern recognition receptors (PRRs) specific to microbial pathogens. One class of PRR called the toll-like receptors (TLRs) interact with CD14 on innate immune cells transducing the signal for bacterial Lipopolysaccharide (LPS), resulting in cytokine production. The role iron plays in thalassemia in determining expression level of PRRs is unknown. Thus, the goal in these studies is to investigate the relationship of iron overload and its chelation to innate immune cell expression of PRRs in thalassemia. Patients and Methods: Eighteen transfusion dependent thalassemia patients (11 – 29 yrs old) participating in the combination trial of deferasirox and deferoxamine (Novartis sponsored CICL670AUS24T) were enrolled in a substudy investigating innate immunology (Novartis sponsored CICL670AUS42T). Fasting blood samples were obtained i) at baseline after a 72 hr. washout of chelator, and ii) at 6 and 12 months on study. Fourteen healthy controls (10 – 35 yrs old) were also enrolled. Peripheral blood mononuclear cells (PBMCs) were isolated from blood samples and then from these cells monocytes and granulocytes were purified using antibody-linked magnetic microbeads (Miltenyi Biotec Inc). Highly enriched populations of CD14+ monocytes and CD15+ granulocytes were verified by flow cytometry. The expression level of CD14 and CD15 in PBMCs and TLR4 in purified cells were determined and reported as the median fluorescent intensity (MFI). Liver iron concentration (LIC) was determined by biomagnetic susceptibility (“SQUID”, Ferritometer®) in patients with thalassemia; healthy controls were shown to have normal ferritin. Results: In PBMCs from thalassemia patients at baseline, the expression of monocyte CD14 and TLR4 were significantly increased 22% and 6.5% respectively compared to healthy controls (p < 0.05). Granulocytes from patients with thalassemia at baseline were also found to have a 50% higher expression of TLR4 compared to controls. Markers of iron burden, such as LIC and ferritin also significantly correlated with the expression of monocyte TLR4. In longitudinal analysis markers of iron burden, the expression of TLR4 on monocytes and granulocytes all significantly decreased in the follow-up period in thalassemia patients receiving intensive combination chelator therapy (p Conclusions: These studies support the hypothesis that iron burden influences the innate immune response in thalassemia as demonstrated by the increased monocyte expression of both CD14 and TLR4 at baseline, both of which likely contribute to the commonly observed susceptibility to infection. After intensive chelation, the levels of CD14 and TLR4 decreased, indicating that decreased iron overload with chelation may improve innate immune responsiveness. These changes in CD14 and TLR4 may be able to restore proper innate immune function in thalassemia patients. Disclosures: Walter: Novartis: Research Funding. Harmatz:Novartis: Research Funding; FerroKin BioSciences: Research Funding. Porter:Novartis: Consultancy, Research Funding. Vichinsky:ARUP Research Lab: Research Funding; ApoPharma: Consultancy, Research Funding; Novartis: Consultancy, Research Funding.

Published

2012

6. Iron Trafficking and Distribution in Transfusional Overload: Insights From Comparing Diamond Blackfan Anemia with Sickle Cell Disease and Thalassemia

Author

Jeffery L. Miller, Patrick B. Walter, Lynne Neumayr, Joerg J Meerpohl, John C. Wood, Qing Yuan, Guenter Weiss, Marcela G Weyhmiller, Zhiyue J. Wang, Roland Fischer, Elliott Vichinsky, Patricia Evans, Regine Grosse, John B. Porter, Paul Harmatz, and Bjoern P. Schoennagel

Subjects

chemistry.chemical_classification, Ineffective erythropoiesis, medicine.medical_specialty, biology, business.industry, Thalassemia, Immunology, Transferrin receptor, Cell Biology, Hematology, medicine.disease, medicine.disease_cause, Biochemistry, Sickle cell anemia, Ferritin, Endocrinology, chemistry, Transferrin, Hepcidin, Internal medicine, biology.protein, Medicine, Diamond–Blackfan anemia, business

Abstract

Abstract 995 Background: β-thalassemia major (TM) is the paradigm for chronic transfusional iron overload, in which the extra-hepatic organ failure is best described. In Sickle Cell Disease (SCD), these consequences appear later and at a lower frequency. In chronically transfused Diamond Blackfan Anemia (DBA), extra-hepatic iron overload, although less well documented, appears to occur early and at high frequency. A Multicenter Study of Iron Overload (MCSIO) aims to explore how key candidate factors affect iron distribution; including inflammation, ineffective erythropoiesis, level of iron overload, and hepcidin synthesis. Plasma non-transferrin bound iron (NTBI) could be a key mechanism by which iron is delivered to tissues and may determine the propensity for extra-hepatic iron distribution. Here we focus on how markers of ineffective erythropoiesis (IE) and erythron expansion impact iron distribution, with particular reference to NTBI and iron distribution determined by MRI. Methods: Iron-overloaded patients (5 TM, 5 SCD, and 5 DBA) with ferritin > 1500 g/dl or LIC > 7 mg/g dry wt, age ≥16, age 0 to 9 at initiation of transfusion and 10 to 20 years of transfusion exposure were enrolled from 3 sites in the US and Europe. 5 non-transfused healthy controls were also enrolled. A detailed medical, transfusion and chelation history were obtained with standardized MRI evaluations for hepatic, cardiac, and pituitary iron deposition. Fasting, early morning blood samples were obtained one day prior to transfusion. Chelation was held for 72 hours prior to each sample. Results: Results are shown in the table as median values. DBA patients had the highest NTBI prior to transfusion despite having the lowest ferritin and LIC levels. GDF15 levels were highest in TM, with similar levels in SCD and DBA. EPO levels were nearly two orders of magnitude higher in DBA than TM or SCD. DBA patients also had the highest median cardiac R2*; two patients showing values above the control range. Whereas the median pituitary R2 in DBA was not above control, two of the patients had the highest R2 values, suggesting heavy iron deposition. EPO values in DBA are nearly two orders of magnitude higher that in SCD or TM despite similar pre-transfusion Hb values. GDF15 values are approximately three times controls, while soluble transferrin receptors (sTfR) values are almost undetectable. With SCD, no patients had increased cardiac iron loading, despite median SF and LIC being the highest in this group. Surprisingly all SCD patients had pituitary R2 values above the upper limit of normal. 1 TM patient had increased cardiac R2* whereas three had increased pituitary iron. In TM, NTBI was strongly correlated with GDF15 (Pearson's Rho=0.93) but in DBA, GDF15 was inversely correlated with NTBI (-.95). Conclusions: High GDF15 levels have been reported in conditions associated with IE, such as TM, but not in DBA. GDF15 reputedly suppresses hepcidin synthesis, thereby increasing iron absorption and potentially NTBI levels. The increased GDF15 in DBA, while sTfr remain less than controls, suggests that erythropoietic precursors do not reach the stage where sTfr are expressed and that this occurs at a later differentiation stage than GDF15. Increasing NTBI in TM with increasing GDF15 is consistent with IE contributing to NTBI formation, but the lack of this relationship in DBA suggest another mechanism for high NTBI. As the erythron is destroyed at a pre-hemoglobinised stage in DBA, IE would not contribute directly to NTBI formation. However, the extremely high EPO levels in DBA may inhibit hepcidin synthesis, as in other conditions, thereby increasing NTBI. This in turn may account for the extra-hepatic iron distribution demonstrated by MRI in DBA. The increased pituitary iron without cardiac loading in the heavily loaded SCD patients suggests that with prolonged exposure to heavy iron overload, the pituitary iron loading may be the first indicator of extra-hepatic deposition. Disclosures: Porter: Novartis: Consultancy, Research Funding. Walter:Novartis: Research Funding. Harmatz:Novartis: Research Funding; Ferrokin: Research Funding. Wood:Ferrokin Biosciences: Consultancy; Shire: Consultancy; Apotex: Consultancy, Honoraria; Novartis: Honoraria, Research Funding. Vichinsky:Novartis: Consultancy, Research Funding; ApoPharma: Consultancy, Research Funding; ARUP Research lab: Research Funding.

Published

2012

7. Safety, Tolerability and Dose Response of FBS0701, a Novel Iron Chelator for Treatment of Transfusional Iron Overload: Results of a 24-Week Multicenter, International Phase 2 Study

Author

Farrukh Shah, Hugh Y. Rienhoff, Antonio Piga, John C. Wood, Renzo Galanello, John B. Porter, Paul Harmatz, Elliott Vichinsky, Vip Viprakasit, Gian Luca Forni, Ellis J. Neufeld, Yesim Aydinok, Rachael F. Grace, Jennifer Peppe, and Amber Jones

Subjects

medicine.medical_specialty, education.field_of_study, Intention-to-treat analysis, Anemia, business.industry, Immunology, Population, Deferasirox, Phases of clinical research, Cell Biology, Hematology, medicine.disease, Biochemistry, Tolerability, Internal medicine, medicine, Elevated transaminases, Adverse effect, education, business, medicine.drug

Abstract

Abstract 690 BACKGROUND: The iron chelators in current clinical use - deferoxamine, deferasirox, deferiprone - are useful for many but not all patients with transfusion-dependent anemias. FBS0701 is a novel, orally available tridentate iron chelator in clinical development. Pre-clinical studies demonstrated a >4-fold higher no-observable-adverse-effect level compared to deferasirox (Exjade®) suggesting a favorable clinical safety profile, especially with respect to gastrointestinal and renal toxicity. Multi-dose safety and PK studies in transfusional iron-overloaded patients established the acute safety of FBS0701 and support once-a-day dosing. OBJECTIVES: To assess the long term safety, tolerability, dose-response and pharmacodynamics of FBS0701 in adults with transfusional iron overload. METHODS: This was a 24 week, multi-center study of FBS0701 at two once-daily dose levels: 14.5 (16 mg of the salt form) and 29 (32 mg salt) mg/kg/d. These doses are the molar equivalent of 13.5 and 27 mg/kg of deferasirox. Adults under age 60 y, with liver iron concentration (LIC) measured by R2 (Ferriscan®) MRI at baseline between 3.5 and 30 mg/g dry weight and cardiac T2* >10 ms were eligible for enrolment. Fifty-one patients were stratified on the basis of historical mean daily transfusion iron intake and then randomized to dose. Patients were evaluated at Weeks 1, 2, 3, 4, 6, 8 and then monthly to 24 wks. Assessments included history and physical exam, vital signs, clinical pathology, adverse events (AEs), ECG and LIC by R2 MRI at baseline, 12 and 24 weeks. All results shown are from the safety population (patients who received at least one dose FBS0701) RESULTS: All patients had a primary hemoglobinopathy, the majority (75%) with β-thalassemia syndromes. Twenty-four (47%) patients had abnormal transaminases prior to dosing and 16 patients (31%) had a history of viral hepatitis. FBS0701 was generally well tolerated at both doses. Forty-nine patients (96%) completed the study; two withdrew for reasons unrelated to drug. There were no serious AEs related to FBS0701. No AEs showed dose-dependency in frequency or severity. Fewer than 5% had nausea, vomiting, abdominal pain, or diarrhea deemed related to FBS0701. The most common AE deemed related to FBS0701 was an increase in transaminases (15%, N=8). Three of these patients acquired HCV on-study from a single blood bank source. None of the remaining patients exceeded their baseline transaminases by 5X. Mean serum creatinine (Cr) in the two dose groups were not statistically different from each other or from baseline values (Figure 1). Only three (5%) patients, each with GFR CONCLUSIONS: FBS0701 for 24 weeks was equally well tolerated at both doses: AEs related to drug were each Disclosures: Neufeld: Ferrokin BioSciences: Research Funding; Novartis: Research Funding. Galanello:Apopharma: Research Funding, Speakers Bureau; Novartis: Research Funding, Speakers Bureau; Ferrokin Biosciences: Research Funding. Viprakasit:Ferrokin BioSciences: Research Funding; Novartis: Research Funding, Speakers Bureau; GPO-L-ONE: Research Funding; National Research University, Thailand: Research Funding. Aydinok:Ferrokin Biosciences: Research Funding; Novartis: Honoraria, Research Funding, Speakers Bureau. Piga:Ferrokin BioSciences: Research Funding. Harmatz:Novartis: Research Funding. Forni:Ferrokin BioSciences: Research Funding; Fondazione Carige, Genoa, IT: Research Funding; Novartis: Research Funding, Speakers Bureau. Shah:Swedish Orphan Biovitrum: Speakers Bureau; Novartis: Speakers Bureau; Ferrokin Biosciences: Research Funding. Grace:Ferrokin BioSciences: Research Funding. Porter:Ferrokin BioSciences: Research Funding. Vichinsky:Apopharma: Research Funding; Ferrokin Biosciences: Research Funding; Novartis: Research Funding. Wood:ApoPharma: Consultancy; Novar: Research Funding; Ferrok: Consultancy. Peppe:Ferrokin BioSciences: Employment. Jones:Ferrokin BioSciences: Employment. Rienhoff:Ferrokin BioSciences: Employment, Equity Ownership.

Published

2011

8. Combined Chelation Therapy with Deferasirox and Deferoxamine In Transfusion-Dependent Thalassemia

Author

Ashutosh Lal, Nancy Sweeters, Vivian Ng, Drucilla Foote, Patricia Evans, Lynne Neumayr, Gregory Kurio, Paul Harmatz, John B. Porter, and Elliott Vichinsky

Subjects

Immunology, Cell Biology, Hematology, Biochemistry

Abstract

Abstract 4269 Therapeutic regimens that combine two iron chelators may enhance chelation efficiency by improving access to different tissue iron stores and control of the toxic labile iron pool. The combination of two chelators can reduce toxicity through averting the need for high doses of a single drug, but it is essential to establish the safety such regimens. We therefore explored the combined use of deferasirox (DSX) and deferoxamine (DFO) in patients with transfusion-dependent thalassemia who had failed standard chelation therapy with single drug. Patients were eligible if the liver iron concentration (LIC) >15 mg/g dry liver-weight or if iron-induced end organ injury was present. Subjects were monitored for hepatic and renal toxicity, visual or auditory changes, and the development of new complications from iron overload. The ability of the combined therapy to control systemic iron burden (serum ferritin and LIC) and myocardial iron overload (MRI T2*) was evaluated. We also measured changes in plasma levels of non-transferrin bound iron (NTBI) and labile plasma iron (LPI). Fifteen subjects were enrolled in 3 groups: adults with LIC 15 mg/g (group B), and children 8–18 years with LIC >5 mg/g (group C). The duration of therapy was 52 weeks. DSX (20-30 mg/Kg) was administered daily and DFO (35-50 mg/Kg/infusion) was infused on 3–7 days/week (as 8–12 hour infusion) based upon the degree of iron overload present at baseline. At the initiation of the study, the mean daily dose of DFO was 16, 33, and 17 mg/Kg/day and mean DSX dose was 21, 25 and 22 mg/Kg/day for groups A, B and C, respectively. At the conclusion of the trial, the median LIC declined by 48% from 10.8 mg/g (3.9-34.8 mg/g) to 5.7 mg/g (1.0-24.0 mg/g, p=0.003). The median ferritin fell by 43% from 2030 ng/mL (1000-5230 ng/mL) to 1150 ng/mL (421-5260 ng/mL, p=0.008). Myocardial iron in the 3 subjects who had T2* No significant toxicity or unusual adverse events were observed with combined chelation therapy in this group of high-risk patients with thalassemia. Elevation of serum creatinine or ALT was not observed in any subject. One subject from group B died at 9 weeks from start of trial from sepsis. One subject interrupted DSX therapy because of abdominal pain. In all other cases the treatment was well tolerated and no dose adjustment or suspension of therapy was required on account of toxicity. Protocol-mandated modification of treatment (temporary cessation of DSX or DFO) occurred in three subjects owing to a marked fall in serum ferritin and LIC. These results suggest that simultaneous administration DSX and DFO is well tolerated and has low potential for toxicity. Combined chelation therapy appears to be effective in rapidly reducing systemic iron burden, lowering myocardial iron, and controlling plasma NTBI and LPI in patients at risk of developing end-organ damage. Disclosures: Harmatz: Ferrokin: Membership on an entity's Board of Directors or advisory committees, Research Funding; Novartis: Research Funding. Porter:Novartis: Membership on an entity's Board of Directors or advisory committees, Research Funding, Speakers Bureau. Vichinsky:Novartis: Membership on an entity's Board of Directors or advisory committees, Research Funding, Speakers Bureau.

Published

2010

9. A Phase 1B Dose-Escalation Study to Assess the Safety, Tolerability, Pharmacokinetics and Pharmacodynamics of FBS0701, a Novel Oral Iron Chelator for the Treatment of Chronic Iron Overload

Author

Paul Harmatz, Amy E. Tapper, Elliott Vichinsky, ip Viprakasit, John B. Porter, Hugh Y. Rienhoff, Ellis J. Neufeld, Lay H. Tay, Deborah Chirnomas, and Janet L. Kwiatkowski

Subjects

Volume of distribution, medicine.medical_specialty, business.industry, Immunology, Deferasirox, Cmax, Cell Biology, Hematology, Biochemistry, Tolerability, Pharmacokinetics, Elimination rate constant, Oral administration, Internal medicine, medicine, business, Adverse effect, medicine.drug

Abstract

Abstract 2057 Background: Iron chelators in current use (parenteral deferoxamine, oral deferasirox and deferiprone) are individually efficacious in many patients with transfusion dependent anemias, but each has liabilities relating to safety, ease of administration, patient acceptance, or narrow therapeutic index. The oral chelator FBS0701 is a polyether derivative of the siderophore-related compound, desazadesferrithiocin, a tri-dentate chelator with high affinity binding and selectivity for Fe(III). Animal studies of FBS0701 demonstrated a 4-fold higher no-observable-adverse-effect level in pre-clinical studies compared to deferasirox suggesting a favorable clinical safety profile with respect to nephrotoxicity. Single dose safety and pharmacokinetic studies in both healthy volunteers and iron overloaded patients have established preliminary data to guide further clinical trials. Objectives: To assess multiple-dose pharmacokinetics, safety, and tolerability of FBS0701 in patients with congenital transfusion-dependent anemias. Methods: This was a multicenter, open-label, dose-escalating, multiple dose study of four dose levels (3, 8, 16 and 32 mg/kg/d) of FBS0701. Sixteen patients with documented transfusional iron overload over the age of seventeen were studied. Each dose cohort consisted of 4 patients. After a washout period, patients were dosed daily for seven days. Patients were clinically evaluated on Days 3, 6, 7, 8, 9, 10 and 15 and then weekly thereafter for three weeks. Assessments included physical exam, clinical pathology and ECG. A standard pharmacokinetic protocol of plasma sampling was performed throughout Day 7 and continuing to Day 10. Urine was collected in three intervals over the 24 hour period following the last dose. Each dose level was separated by a minimum of three weeks to assess safety before escalating to the next dose level. Results: FBS0701 was well tolerated in all dose cohorts. There were no serious adverse events related to the drug. With the exception of a change in urine color that was regarded as without clinical significance, adverse events did not show dose-dependency in frequency or severity. Pharmacokinetic parameters derived from plasma and urine drug levels are shown in the table below. There was no evidence of accumulation after 7 days of dosing. Dose- dependent pharmacokinetics were observed as predicted. AUC0–24: area under the plasma concentration versus time, zero time point to 24 hours; Cmax: time to maximum observed plasma concentration; tmax: time to maximum plasma concentration; kel: terminal elimination rate constant; t½: half-life calculated by the equation t½ = 0.693/kel; CL/F: the apparent total plasma clearance of drug after oral administration; Vz/F: the apparent volume of distribution during terminal phase after oral administration; Ue: amount of drug excreted into urine; Fe: the fraction of orally administered drug excreted unchanged in urine; CLr: renal clearance Conclusions: FBS0701, a novel tridentate iron chelator, was well tolerated for 7 days at doses up to 32 mg/kg, the high end of the predicted therapeutic dose range. The compound is of interest because in preclinical animal studies there was no evidence of gastrointestinal toxicity and FBS0701 was less able to cause renal toxicity than deferasirox. The pharmacokinetic parameters suggest good dose proportionality and support once-daily dosing that might provide 24 hour protection from non-transferrin bound iron based on the gradual terminal-phase elimination. FBS0701 warrants Phase 2 safety and efficacy studies in transfusional iron overloaded patients. Disclosures: Rienhoff: Ferrokin, Inc.: Employment, Equity Ownership. Viprakasit:Novartis: Membership on an entity's Board of Directors or advisory committees, Speakers Bureau; Ferrokin, Inc.: Research Funding. Tay:Ferrokin, Inc.: Research Funding. Harmatz:Ferrokin, Inc.: Membership on an entity's Board of Directors or advisory committees, Research Funding; Novartis: Research Funding. Vichinsky:Novartis: Research Funding. Chirnomas:Novartis: Research Funding. Kwiatkowski:Ferrokin, Inc.: Research Funding. Tapper:Ferrokin, Inc.: Employment. Porter:Novartis: Consultancy, Membership on an entity's Board of Directors or advisory committees, Research Funding, Speakers Bureau. Neufeld:Novartis, Inc: Research Funding; Ferrokin, Inc: Research Funding.

Published

2010

10. Pulmonary Hypertension Is Uncommon In Well-Transfused Thalassemia Major Patients

Author

Jon A Detterich, John C. Wood, Paul Harmatz, Leila Noetzli, Thomas D. Coates, and Susan Carson

Subjects

medicine.medical_specialty, Lung, Ejection fraction, business.industry, Thalassemia, Immunology, Cardiomyopathy, Cardiac index, Cell Biology, Hematology, medicine.disease, Biochemistry, Pulmonary hypertension, Surgery, medicine.anatomical_structure, Internal medicine, medicine.artery, Pulmonary artery, medicine, Cardiology, Pulmonary Valve Insufficiency, business

Abstract

Abstract 4273 Introduction: Pulmonary hypertension is a common and serious cardiovascular complication in patients with thalassemia intermedia and sickle cell disease. Circulating platelet and erythrocyte fragments, as well as cell-free hemoglobin from intravascular hemolysis, may contribute to nitric oxide depletion, intimal proliferation, and pulmonary vascular remodeling. Splenectomy has been also been associated with pulmonary hypertension in some studies. Ineffective erythropoiesis, via release of PLGF and elevation of other proinflammitory cytokines, has also been associated with pulmonary hypertension. However, the risk for pulmonary hypertension in thalassemia major patients remains controversial, with prevalence estimates ranging from 10%-60%. We report echocardiography results from 80 thalassemia major patients enrolled in the Early Detection of Iron Cardiomyopathy Trial (EDICT) at Children's Hospital Los Angeles. Methods: Patients were enrolled from August 2004 until May 2009 in a combined cross-sectional and observational trial probing for early predictors of cardiac dysfunction. Patient visits were scheduled within one week of transfusion. All patients underwent echocardiography and cardiac MRI analysis within 4 months of each other; most were performed during the same clinical visit (median time between scans one day). Comprehensive assessments of pulmonary artery pressure (tricuspid and pulmonary regurgitation velocities), systolic function, and diastolic function were performed using two dimensional imaging, M-mode, and routine and tissue Doppler. All images were collected by experienced echocardiography technicians and analyzed by the principal investigator. Three to five beat averages were used to improve measurement stability. Tricuspid regurgitation (TR) jet was only reported if a full envelope was recognized; at our institution, the upper limit of normal for TR jet is 2.7 m/s. Results: Patient demographics are summarized in Table 1. Patients were gender-balanced and well distributed between 11 and 47 years of age. Patients who had been splenectomized (N=34) tended to be older. Iron overload was severe, with a mean liver iron concentration of 12.4 ± 14.2 mg/g dry weight. Roughly half of the patients had detectable cardiac iron and 9% had overt left ventricular dysfunction (LVEF < 56%). TR jet was detectable in 62/80 patients. Only one patient exhibited pulmonary artery hypertension (TR jet 2.9 m/s), however this patient also had severe cardiac iron overload and overt left ventricular systolic and diastolic dysfunction (LVEF 42.7%, E/E' 10). Two patients had TR jets of 2.6 ms and three had TR jets of 2.5 m/s. Pulmonary insufficiency jets were normal in all patients. TR velocity did not correlate with age, cardiac index, cardiac iron or liver iron, but demonstrated a weak (r=0.29, p=0.02) association with left ventricular diastolic dysfunction (E/E′). Discussion: The EDICT patient cohort suggests a low risk for pulmonary hypertension in well-transfused thalassemia major patients. The single elevated TR jet was explained by iron cardiomyopathy and normalized (2.2 m/s) after two years of aggressive chelation therapy. TR velocities at the upper limits of normal (2.5-2.7 m/s) were observed in five patients; these have been associated with poor outcomes in some sickle cell disease cohorts, but not in thalassemia major. Long-term surveillance remains critical as pulmonary hypertension risk may increase with age. Disclosures: Harmatz: Novartis: Research Funding. Coates:Novartis: Research Funding, Speakers Bureau. Wood:Novartis: Research Funding; Ferrokin Biosciences: Consultancy.

Published

2010

11. Initial Liver Iron Predicts Cardiac Chelation Efficacy of Deferasirox (Exjade®) Monotherapy in Chronically Transfused β-Thalassemia (β-Thal) Patients: 18- and 24-Month Data

Author

Carole Paley, John C. Wood, Barinder Kang, Thomas D. Coates, Patricia J. Giardina, Alexis A. Thompson, Tara Glynos, and Paul Harmatz

Subjects

Pediatrics, medicine.medical_specialty, Ejection fraction, Blood transfusion, business.industry, medicine.medical_treatment, Thalassemia, Immunology, Deferasirox, Cardiomyopathy, Cell Biology, Hematology, medicine.disease, Biochemistry, Thalidomide, Heart failure, medicine, business, Adverse effect, medicine.drug

Abstract

Abstract 4069 Poster Board III-1004 Introduction Transfused patients with β-thal major are known to experience clinical consequences of cardiac iron overload despite the widespread use of iron chelation therapy. Approximately 71% of patients will suffer cardiomyopathy, congestive heart failure (CHF) and death. Previous trials have confirmed the efficacy of deferasirox (Exjade®) in removing cardiac iron in patients with β-thal major. This ongoing study evaluates the effects of deferasirox on cardiac iron and left ventricular ejection fraction (LVEF) in patients with β-thal major in a prospective, single-arm, multi-center trial using cardiac MRI T2*. All patients have completed 18 months of therapy and we also report preliminary results from 24 months. Methods 28 patients were enrolled at four US centers. Entry criteria included MRI evidence of cardiac iron (T2* Baseline: All 26 evaluable patients (7 M/19 F; aged 10–44 years) received ≥150 lifetime transfusions. SF was 4307 ± 613 ng/mL (312–12,655), cardiac T2* was 9.5 ± 0.8 ms (1.8–16.1), LIC was 20.6 ± 3.15 mg Fe/g dry weight (dw; 3.6–62.3) and LVEF was 61.8 ± 0.8%. Results At the time of analysis, 22 and 9 patients had 18- and 24-month evaluations, respectively. Six patients discontinued the core trial due to patient decision (n=2), adverse events (AEs; n=2) or abnormal lab tests (n=2). Two of these patients died after discontinuing; the first enrolled with markedly elevated baseline cardiac iron (T2* = 1.8 ms) and died secondary to CHF. The second patient withdrew due to an AE and died 2 months later due to sepsis and multi-organ failure. 18-month results: At 18 months, 10/22 patients were on 40 mg/kg/day. The mean improvement in cardiac T2* from baseline in all patients was 2.2 ms (22%; P=0.016), with 13 patients improving, four remaining stable (T2* change 18.5 mg Fe/g dw, mean T2* worsened 1.4% per month (P 24-month results: At 24 months, 7/9 patients were on 40 mg/kg/day. Relative to the 18-month time-point, 8/9 patients (89%) increased their cardiac T2*, with a mean improvement of 2.7% per month. Mean LIC, SF and LVEF were unchanged over the extension. Safety parameters from patients treated with 30–40 mg/kg/day deferasirox (n=25) were in line with previous studies at 20–30 mg/kg/day. Conclusions Deferasirox monotherapy resulted in statistically significant improvements in cardiac and hepatic iron after 18 months. Baseline LIC Disclosures: Wood: Novartis: Research Funding. Thompson:Novartis: Research Funding. Paley:Novartis Pharmaceuticals: Employment, Equity Ownership. Glynos:Novartis Pharmaceuticals: Employment. Kang:Novartis Pharmaceuticals: Employment, Equity Ownership. Giardina:Novartis: Research Funding, Speakers Bureau. Harmatz:Ferrokin: Membership on an entity's Board of Directors or advisory committees; Apotex: Membership on an entity's Board of Directors or advisory committees. Coates:Hope Pharma: Consultancy, Research Funding; Sangart Pharma: Consultancy, Honoraria; Novartis: Consultancy, Honoraria, Research Funding, Speakers Bureau.

Published

2009

12. Safety of Combined Chelation Therapy with Deferasirox and Deferoxamine in Transfusion-Dependent Thalassemia

Author

Nancy Sweeters, Drucilla Foote, Vivian Ng, Patricia Evans, Gregory Kurio, Elliott Vichinsky, John B. Porter, Paul Harmatz, Lynne Neumayr, and Ashutosh Lal

Subjects

chemistry.chemical_classification, medicine.medical_specialty, Liver Iron Concentration, biology, business.industry, Thalassemia, Immunology, Deferasirox, Cell Biology, Hematology, medicine.disease, Biochemistry, Gastroenterology, Surgery, Deferoxamine, Ferritin, chemistry, Transferrin, Internal medicine, Toxicity, biology.protein, Medicine, Chelation therapy, business, medicine.drug

Abstract

Abstract 2021 Poster Board I-1043 Therapeutic regimens that combine two chelators have the potential to improve iron excretion while avoiding toxicities associated with high doses of single agents. This pilot study was designed to explore the safety of the combined treatment with deferasirox (DFX) and deferoxamine (DFO) in individuals with transfusion-dependent thalassemia and iron overload who had failed standard therapy. Subjects underwent baseline evaluation of liver iron, cardiac iron, cardiac function and target organ damage, and were enrolled in 3 groups (n=5 in each group) - Group B: adults with liver iron concentration (LIC) >15 mg/g dry weight, group A: adults with LIC >5 and 5 mg/g dry weight plus iron related organ dysfunction. The duration of therapy was 52 weeks, with DFX (20-30 mg/Kg) given daily and (DFO 35-50 mg/Kg/infusion) given for 3-5 days/week (groups A and C), or 5-7 days/week (group B). Subjects were monitored for hepatic and renal toxicity, visual or auditory changes, and development of new symptoms. Changes in serum ferritin, LIC (ferritometer), cardiac function (MRI) and myocardial iron (MRI T2*) were monitored. We have enrolled 14 subjects (target 15 subjects) with a median follow up of 29 weeks (range 18-52). The mean daily dose of DFO was 16, 33, and 17 mg/Kg/day for groups A, B and C, respectively, at the start of the study. The corresponding mean DFX dose was 21, 25 and 22 mg/Kg/day. At the end of 26 weeks, the mean LIC (mg/g dry wt) in evaluable patients declined from 13.0 (3.9-21.7) to 10.6 (0.60-18.3, p=0.015), and the mean ferritin (ng/mL) fell from 2631 (1000-5230) to 2158 (319-5845, p=n.s.). Cardiac evaluation revealed that mean MRI T2* (msec) improved from 22.7 (6.7-32.6) to 25.5 (10.7-38.1) and the mean LVEF (%) from 63.4 (47.5-68.5) to 64.3 (53.4-72.2), but these changes were not statistically significant. No subject developed evidence of significant myocardial iron (T2* Disclosures: Lal: Novartis: Research Funding. Harmatz:Novartis: Research Funding. Vichinsky:Novartis: Consultancy, Research Funding.

Published

2009

13. Deferasirox (Exjade®) Monotherapy Significantly Reduces Cardiac Iron Burden in Chronically Transfused β-Thalassemia Patients: An MRI T2* Study

Author

Carole Paley, Alexis A. Thompson, John C. Wood, Jodi Virkus, Barinder Kang, Patricia J. Giardina, Paul Harmatz, and Thomas D. Coates

Subjects

Cardiac function curve, medicine.medical_specialty, education.field_of_study, Ejection fraction, business.industry, Thalassemia, Immunology, Population, Deferasirox, Cardiomyopathy, Cell Biology, Hematology, medicine.disease, Biochemistry, Gastroenterology, Surgery, Heart failure, Internal medicine, medicine, Adverse effect, business, education, medicine.drug

Abstract

Introduction: Despite the availability of iron chelation therapy, accumulation of excess iron in the heart results in cardiomyopathy, congestive heart failure (CHF) and death in approximately 71% of transfused patients with β-thalassemia (β-thal) major. In preclinical and single-institution clinical studies, Exjade®(deferasirox, DFX) has demonstrated efficacy in decreasing cardiac iron. This ongoing study evaluates the effects of DFX on cardiac iron and left ventricular ejection fraction (LVEF) in patients (pts) with β-thal major in a prospective, single-arm, multi-center trial using cardiac MRI T2*. Here, we report preliminary results from patients who have completed 12 or 18 months of treatment. Methods: Twenty-eight pts were enrolled at four US centers. DFX was administered at 30–40 mg/kg/day for 18 months. Entry criteria included MRI evidence of cardiac iron (T2* Results: At the time of analysis, 18 pts had 12-month evaluations and 12 pts had 18-month evaluations. Five pts discontinued (one non-compliance, two patient decisions, and two deaths). Both deaths were considered unrelated to DFX treatment; the first patient enrolled with markedly elevated baseline cardiac iron (T2*=1.8 ms) and died secondary to CHF. The second patient death was due to sepsis and multi-organ failure. Baseline: All 18 evaluable pts (three male, 15 female; aged 10–44 years) received ≥150 lifetime transfusions. SF was 4324±912 ng/mL (395–16,249). Cardiac T2* was 9.6±0.97 ms (4.6–16.1), LIC was 18.7±3.8 mg Fe/g dry weight (dw; 3.6–62.3) and LVEF was 61.7±1.0%. 12-Month results: At 12 months, 7/18 pts were on 40 mg/kg/day. 12/18 pts (67%) had an increase in cardiac T2* with a mean difference of 2.2 ms (18%; P=0.025). 13/18 pts (72%) had a decrease in LIC with a mean difference of 2.4 mg Fe/g dw (25%; P=0.032). LVEF remained stable. SF fell by 583 ng/mL (n=18; 22%; P=0.147). 18-Month results: At 18 months, 3/12 pts were on 40 mg/kg/day. 10/12 pts (83%) had an increase in cardiac T2* with a mean difference of 4.1 ms (35%; P=0.001). 11/12 pts (92%) had a decrease in LIC with a mean reduction of 4.7 mg Fe/g dw (50%; P=0.003). Mean LVEF trended upward from 61.5 to 63.3% (n=13; P=0.2). SF fell by 1373 ng/mL (n=11; 46%, P=0.006). Safety data from pts (n=25) treated with 30–40 mg DFX were in line with previous studies. The most common drug-related adverse events (AEs; eight pts; 32%) were gastrointestinal in nature. 1/25 patients experienced a suspected SAE (hospitalization due to abdominal pain and vomiting) but completed the study. One patient developed SCr >upper limit of normal (ULN). Two pts (8%) had abnormal transaminases (≥5×ULN) on ≥2 occasions but both had abnormal values at baseline. Conclusions: DFX monotherapy significantly improved cardiac and liver iron after 12 and 18 months. Overall, doses from 30–40 mg/kg/day were well tolerated. Cardiac T2* improvement rates were 1.5–1.9% per month, which is comparable to other monotherapy trials. A trend towards improved LVEF was seen in patients completing 18 months of therapy; however, a larger, long-term study will be required to confirm whether DFX can significantly improve cardiac function in this population. Figure Figure

Published

2008

14. Increased Nucleosomal DNA Fragmentation in Leukocytes of Thalassemia Patients

Author

Nancy F. Olivieri, Annie Lui, Janet L. Kwiatkowski, Patricia Evans, Daniele Alberti, Paul Harmatz, Elliott Vichinsky, Patricia J. Giardina, Patrick B. Walter, John B. Porter, Felicia Trachtenberg, Bruce N. Ames, Thomas D. Coates, Robert jW Grady, Ellen B. Fung, and Ellis J. Neufeld

Subjects

biology, business.industry, DNA damage, Thalassemia, Immunology, Deferasirox, C-reactive protein, Apoptotic DNA fragmentation, Cell Biology, Hematology, medicine.disease, Biochemistry, Andrology, Histone, Apoptosis, biology.protein, medicine, DNA fragmentation, business, medicine.drug

Abstract

Iron overload has been shown to induce DNA damage and may be implicated in leukocyte apoptosis. Previously we have shown that indirect markers of apoptosis such as caspase activity and Bax levels were higher in leukocytes of thalassemia patients. We have now assessed whether nucleosomal DNA fragmentation, a hallmark of apoptosis, is higher in leukocytes of iron-overloaded thalassemia patients compared with control subjects. Methods: Thalassemia Clinical Research Network patients participating in the Novartis CICL670A0107 trial (a randomized comparison of deferasirox, an oral iron chelator, vs. DFO) were eligible and 44 (25 male, mean age: 21.8 ± 11.1 yrs) were enrolled in the study. Fasting blood samples were obtained after a 5-day washout of DFO prior to commencing treatment with study drug, and 24 hours post-chelator at 1, 6, and 12 months on study. Thirty healthy controls matched for age, sex, race and antioxidant usage (15 male, mean age 24.5 ± 9 yrs) also supplied a blood sample. Plasma, serum and cells were separated by centrifugation. The classic marker for apoptosis, nucleosomal DNA fragmentation was determined by a high throughput ELISA assay that used monoclonal antibodies directed against single- and double-stranded DNA bound to histones (H1, H2A, H2B, H3, and H4) and thus specifically detected mono- and oligonucleosomes (measured in ng/μg leukocyte protein). Detection of free mono- or oligonucleosomes is a direct measurement of apoptotic DNA fragmentation. DNA fragmentation results were log-transformed prior to analysis and means are reported. Results: At baseline, thalassemia patients had elevated nucelosomes compared to the controls (351.5 vs. 74.9 ng/μg leukocyte protein, p = 0.001). This high level of leukocyte DNA fragmentation was unchanged throughout the study. Furthermore, nucleosomal DNA fragmentation was positively correlated with CRP (r = 0.3, p = 0.01), WBC (r = 0.2, p = 0.05) and ANC (r = 0.2, p = 0.04), suggesting apoptosis is present in increased inflammatory states. Conclusions: This finding demonstrates that nucleosomal DNA fragmentation is higher in thalassemia compared to control patients and thus provides further evidence that there is increased apoptosis in circulating leukocytes of thalassemia patients.

Published

2008

15. Leukocyte Apoptosis and Mitochondrial Dysfunction in β-Thalassemia Patients Treated with Deferasirox or Deferoxamine

Author

Robert W. Grady, Jaymes Holland, Patricia J. Giardina, Paul Harmatz, Janet L. Kwiatkowski, Annie Lui, Patricia Evans, Patrick B. Walter, John B. Porter, Daniele Alberti, Elliott Vichinsky, Felicia Trachtenberg, Thomas D. Coates, Bruce N. Ames, Ellen B. Fung, Ellis J. Neufeld, and Nancy F. Olivieri

Subjects

medicine.medical_specialty, Liver Iron Concentration, biology, business.industry, Thalassemia, Immunology, Deferasirox, Cell Biology, Hematology, Mitochondrion, medicine.disease, Biochemistry, Enzyme assay, Ferritin, Deferoxamine, Endocrinology, Apoptosis, Internal medicine, medicine, biology.protein, business, medicine.drug

Abstract

Iron overload has been shown to increase mitochondrial dysfunction and apoptosis and may be implicated in leukocyte apoptosis. We assessed whether markers of leukocyte apoptosis and mitochondrial dysfunction are higher in iron-overloaded thalassemia patients compared with control subjects and whether improvement in the control of iron overload with deferasirox or deferoxamine (DFO) is associated with a change in the level of apoptotic markers. Methods: Thalassemia Clinical Research Network patients participating in the Novartis CICL670A0107 trial (a randomized comparison of deferasirox, an oral iron chelator, vs. DFO) were eligible and 44 (25 male, 21.8 yrs) were enrolled in the study. Fasting blood samples were obtainedafter a 5-day washout of DFO prior to commencing treatment with study drug, and24 hours post-chelator at 1, 6, and 12 months on study. Thirty healthy controls matched for age, sex, race and antioxidant usage (15 male, 24.5 yrs) also supplied a blood sample at baseline. After blood collection, plasma, serum and cells were separated by centrifugation. The pro-apoptotic marker Bax (an inducer of mitochondrial dysfunction) and the anti-apoptotic marker Bcl-2 were determined by ELISA. A high ratio of Bax/Bcl-2 indicates decreased stability of the mitochondrial outer membrane and increased potential for mitochondrial dysfunction and apoptosis. Activity of caspase–3 and −9 (both pro-apoptotic) were determined by a luminescent enzyme activity assay and reported as the average relative light units (RLU)/μg protein. Apoptotic markers were log-transformed prior to analysis and means and % change are reported. Results: At baseline, thalassemia patients had elevated Bax compared to the controls (17.4 vs. 11.6 pg/μg protein, p = 0.006). Similarly the activity of caspase-3 and −9 was high relative to the controls (for caspase-3, 1823 vs. 1041 RLU/μg protein, p = 0.01; and for caspase-9, 2482 vs. 1322 RLU/μg protein, p = 0.001). In longitudinal analysis, liver iron concentration and ferritin declined in both treatment groups (p ≤ 0.02 for both). This paralleled a decline in the ratio of Bax/Bcl-2 (–27.3% /yr, average decline, p = 0.033) and ALT (–7.3% /yr, average decline, p = 0.040). There was no significant difference between chelators in the rate of change of these markers over time. Conclusions: These findings demonstrate that markers of leukocyte apoptosis and mitochondrial dysfunction are high in thalassemia compared to controls and that the Bax/Bcl-2 ratio (a marker of mitochondrial dysfunction in apoptosis) decreased with effective iron chelation. DFO and deferasirox showed equal effectiveness in decreasing iron burden, ALT and the ratio of Bax/Bcl-2. Thus, with effective chelation, it may be possible to improve leukocyte and mitochondrial function and the levels of apoptosis.

Published

2007

16. Exjade® Reduces Cardiac Iron Burden in Chronically Transfused β-Thalassemia Patients: An MRI T2* Study

Author

Thomas D. Coates, Barinder P. Kang, John C. Wood, Paul Harmatz, Alexis A. Thompson, Patricia-Jane Giardina, Jodi Virkus, and Carole Paley

Subjects

Cardiac function curve, medicine.medical_specialty, Immunology, Population, Cardiomyopathy, Biochemistry, Gastroenterology, chemistry.chemical_compound, Internal medicine, Medicine, education, Creatinine, education.field_of_study, Ejection fraction, biology, business.industry, Deferasirox, Cell Biology, Hematology, medicine.disease, Ferritin, chemistry, Heart failure, biology.protein, business, medicine.drug

Abstract

Introduction: Despite the routine use of iron chelation therapy, cardiac iron overload results in cardiomyopathy, congestive heart failure and death in approximately 71% of pts with β-thalassemia. Recent MRI studies suggest that the kinetics of cardiac iron uptake and elimination differ from that of liver. Furthermore, different chelators appear to exhibit unique profiles of relative heart and liver iron removal. Deferasirox (DFX; Exjade®) is a once-daily oral iron chelator with demonstrated efficacy in reducing liver iron. In addition, preclinical and single-institution clinical studies have demonstrated cardiac iron removal. This study is a prospective, single-arm multi-institutional trial designed to evaluate the effect of DFX on cardiac iron in pts with β-thalassemia major. Here, we report preliminary results from the first 15 pts who completed 6 months of treatment. Methods: This ongoing study will enroll 30 pts at 4 US centers. DFX is administered at 30–40 mg/kg/day for 18 months. Entry criteria include MRI evidence of cardiac iron (T2* Results: At the time of this analysis, 15 of 17 pts had 6 months of evaluation; all were dosed at 30 mg/kg/day. One of the excluded pts was found ineligible (LVEF Baseline: All 15 evaluable pts (3 male, 12 female; aged 10–43 years) received ≥150 lifetime transfusions. Ferritin was 4927±987 ng/mL (395–10751; n=12). Cardiac T2* was 9.8±1.13 ms (5.0–16.1), LIC was 16.6±4.27 mg/g dw (3.6–62.3) and ejection fraction was 61.2±1.83%. LPI was 0.72±0.28 μmol/L (n=11) and 33% of pts started with abnormal LPI (≥0.5 μmol/L). 6 Month results: At 6 months, the mean decrease in ferritin was 516 ng/mL; 14 of 15 (93%) pts had decreases in hepatic and cardiac iron. The mean reductions in cardiac and hepatic iron were 17.8% (P=0.0136) and 27.0% (P=0.0027), respectively (Figure). There was no change in LVEF by MRI. All patients had normal LPI at 6 months; for pts with abnormal LPI at baseline, the mean LPI dropped from 1.6±0.3 to 0.26±0.1 μmol/L (P=0.003). No pts developed creatinine >upper limit of normal. Four pts had abnormal transaminases on ≥2 occasions but all 4 were abnormal at baseline. Conclusions: The 30 mg/kg/day dose was well tolerated and led to negative cardiac and liver iron balance in 93% of pts. These results are encouraging given this heavily iron-overloaded and heavily transfused population of β-thalassemia pts. Ongoing assessments over 12 and 18 months will elucidate if DFX continues to improve cardiac iron burden and maintain/improve cardiac function in severely iron-overloaded pts. Figure Figure

Published

2007

17. Liver Iron Measurement by SQUID Compared to Liver Biopsy

Author

Ellen B. Fung, Bob Fagaly, Drucilla Foote, John Butz, Zahra Pakbaz, Ekua Hackney-Stephens, Paul Harmatz, Roland Fischer, and Elliott Vichinsky

Subjects

medicine.medical_specialty, Liver Iron Concentration, Pathology, Squid, medicine.diagnostic_test, biology, business.industry, Thalassemia, Immunology, Cell Biology, Hematology, Hemosiderosis, medicine.disease, Biochemistry, Gastroenterology, Sickle cell anemia, Dry weight, Internal medicine, Liver biopsy, biology.animal, Biopsy, medicine, business

Abstract

Liver biopsy, which is the gold standard for liver iron assessment in patients with hemosiderosis, is painful, associated with risk of infection or bleeding, and may be affected by uneven iron distribution and variation in analytical methods. Monitoring iron overload by serum ferritin is still a routine practice although its limitations are well known. Therefore, using non-invasive liver iron assessment by quantitative MRI or by liver susceptometry with a SQUID biomagnetometer (BLS) would be the better alternatives. This report explores the accuracy of liver iron concentration (LIC) measured by BLS at CHRCO compared to liver biopsy, in patients with thalassemia and sickle cell disease. A total of 33 patients with chronically transfused thalassemia (n=16) or sickle cell disease (n= 17) were prospectively assessed for LIC measured by BLS and liver biopsy within 2 month of each other. LIC was measured by a low temperature SQUID biosusceptometer system (Ferritometer®) under the standardized Hamburg-Torino-Oakland protocol. Iron in fresh tissue liver biopsy samples (with a dry weight larger than 1 mg) was measured at Mayo clinics by Inductively Coupled Plasma Mass Spectrometer (ICP-MS). Median value for the wet to dry weight of the tissue samples was 3.8 (3.1–6.2). Subjects ranged in age from 7 to 40 years (median: 18 y). Median LIC (wet weight) measured by SQUID was 1915 (415–4826) [mg/g wet weight ], median LIC by biopsy (dry weight) was 12681(1854–32864) [mg/g dry weight]. Serum ferritin ranged from 405 to 9843 (median: 1831). The Spearman rank correlation between wet weight LIC assessed by BLS and dry weight LIC from fresh tissue sample measured by ICP-MS was highly significant (RS=0.93, p Fig1. LInear regression LIC (BLS)=(0.165 ± 0.008) *LIC (biopsy) weighted by the uncertainties to the two methods (R2 = 0.92, reduced chi-square χ2= 0.5). Fig1. LInear regression LIC (BLS)=(0.165 ± 0.008) *LIC (biopsy) weighted by the uncertainties to the two methods (R2 = 0.92, reduced chi-square χ2= 0.5).

Published

2006

18. Left Ventricular Dysfunction in Chronically Transused Patients with Sickle Cell Anemia and Thalassemia

Author

Paul Harmatz, Shanda Robertson, John C. Wood, Elliott Vichinsky, Ellen Butensky, Meredith Milet, Ellen B. Fung, Lynne Neumayr, and Claudia R. Morris

Subjects

medicine.medical_specialty, Pediatrics, Blood transfusion, Ejection fraction, biology, business.industry, medicine.medical_treatment, Thalassemia, Immunology, Cardiomyopathy, Cell Biology, Hematology, medicine.disease, Biochemistry, Pulmonary hypertension, Sickle cell anemia, Ferritin, Internal medicine, biology.protein, medicine, Cardiology, Transfusion therapy, business

Abstract

BACKGROUND: Iron-induced cardiomyopathy has been extensively described in thalassemia (THAL) patients. Left ventricular (LV) dysfunction is the leading cause of death in THAL, with prevalence estimates ranging from 6% to 23%. Recent MRI techniques confirmed that T2* measurements consistent with elevated cardiac iron are associated with LV dysfunction and early mortality. Transfusion therapy is being increasingly used for the treatment and prevention of complications in sickle cell disease (SCD). By adulthood, the majority of SCD patients will have received multiple transfusions and nearly 1/3 will be iron-overloaded. However, cardiomyopathy, its prevalence, and the role of iron toxicity have not been studied in SCD. The Multicenter Study of Iron Overload, a 5-year prospective natural history study, enrolled 152 transfusion dependent THAL, 204 chronically transfused SCD (txSCD) and 64 control SCD in order to compare the effects of iron toxicity in these two diseases. We compared the prevalence of LV dysfunction and its relationship to iron-toxicity in THAL, txSCD and control SCD. METHODS AND RESULTS: Baseline or year 1 echocardiograms (ECHOs) were available in 45% of the patients (80 THAL, 94 txSCD and 16 SCD controls) and reviewed for evidence of LV dysfunction, defined as an ejection fraction ≤ 55% or shortening fraction ≤ 28%. Pulmonary hypertension (PHT) was defined as a tricuspid regurgitant jet velocity (TRV) ≥ 2.5 m/s or pulmonary artery pressure (PAP) ≥ 35 mmHg. ECHOs reported as normal, even without TRV or PAP recorded, were assumed to be negative for PHT. At study entry, THAL and txSCD patients were severely iron over-loaded and their average ferritin and liver iron concentrations were not significantly different: 3506 g/dl and 20 mg/g dry weight. (Serum ferritin in the control SCD was 120 g/dl.) The average age of the patients was 30.3 ± 12 yrs, and did not differ across the three groups. LV dysfunction was found in 22% THAL; THAL patients with LV dysfunction had been transfused longer than those with normal ECHOs (26.5 vs. 21.1 yrs, p=. 03). A subgroup of THAL was screened with cardiac MRI: 11/21 (52%) had evidence of cardiac iron deposition, 4 of these patients (36%) had LV dysfunction. In THAL screened with MRI, all patients with LV dysfunction had cardiac iron deposition. LV dysfunction was seen in 14% of txSCD but in 0% of the control SCD. txSCD patients with LV dysfunction were older (43.7 vs. 28.5, p CONCLUSIONS: LV dysfunction is common in transfusion dependent THAL and associated with duration of transfusion and iron deposition. In SCD, patients with cardiomyopathy were chronically transfused, older, and more likely to have PHT. SCD patients are developing iron overload similar to THAL; cardiac MRI studies are essential for the evaluation of iron deposition and its relationship to cardiomyopathy.

Published

2006

19. Leukocyte Apoptosis and Inflammation in Iron-Overloaded Patients with Sickle Cell Disease or β-Thalassemia: A Mechanism for Increased Stroke and Disease Severity in Sickle Cell Disease

Author

Annie Lui, Elliott Vichinsky, Patricia Evans, Patrick B. Walter, Ellen B. Fung, John B. Porter, Paul Harmatz, David W. Killilea, Jacqueline Madden, and Bruce N. Ames

Subjects

congenital, hereditary, and neonatal diseases and abnormalities, biology, business.industry, Thalassemia, medicine.medical_treatment, Immunology, C-reactive protein, Inflammation, Cell Biology, Hematology, medicine.disease, Biochemistry, Proinflammatory cytokine, Hemoglobinopathy, Cytokine, hemic and lymphatic diseases, biology.protein, Medicine, Leukocyte proliferation, Leukocytosis, medicine.symptom, business

Abstract

Sickle cell disease (SCD) is a hemoglobinopathy characterized by micro-vascular hypoxia-reperfusion, inflammation and leukocytosis. Studies in SCD have shown that leukocytosis is a strong predictor of stroke and disease severity. It is known that leukocytosis and inflammation contribute to increased leukocyte-endothelial adhesion and vasoocclusive events. Leukocytosis or increased leukocyte number is determined by the balance between cell death programs (apoptosis) and proliferation. In this study, we examine markers of apoptosis and proliferation in SCD as compared to thalassemia (a hemoglobinopathy that is vasculitis negative) and a control group. Methods: Markers of leukocyte turnover, inflammation and free iron (NTBI, non-transferrin bound iron) were compared in 11 patients with SCD (7M, 13 ± 4 yrs), 18 with thalassemia (7M, 24 ± 9 yrs) and 10 disease-free controls (5M, 27 ± 12 yrs). All SCD and thalassemia patients were healthy and event free in the previous 4 months. Blood was obtained fasting and prior to RBC transfusion; and plasma, serum and cells were separated by centrifugation. The pro-apoptotic markers nucleosome protein (DNA laddering) and Bax (initiator of mitochondrial permeability) and inflammatory marker, high-sensitivity C Reactive Protein (hsCRP) were determined by ELISA. NTBI (DNA damage inducing, pro-apoptotic) was measured by HPLC. Plasma levels of cytokines (anti-apoptotic, proliferation stimulating) were determined by using a multiplex bead-based immunoassay. Plasma lactate dehydrogenase (LDH), a marker of hemolysis, was also measured because hemolysis products have been shown to inhibit apoptosis. Results: Leukocyte number and absolute neutrophil count were 1.8 and 2.2 fold higher in SCD compared to thalassemia (P

Published

2006

20. MRI Assessment of Pituitary Iron and Volume in Thalassemia, and Relation to Hypothalamic-Pituitary-Gonadal Axis Function (HPG): A Feasibility Study

Author

Paul Harmatz, Sylvia T. Singer, Zili Chu, Lynne Neumayr, Roland Fischer, Elliott Vichinsky, Phillip Lee, Zhiyue J. Wang, Ellen Butensky, Jill V. Hunter, and John Firebaugh

Subjects

Liver Iron Concentration, Pituitary gland, medicine.diagnostic_test, business.industry, Thalassemia, Immunology, Magnetic resonance imaging, Hypothalamic–pituitary–gonadal axis, Cell Biology, Hematology, medicine.disease, Biochemistry, Sagittal plane, medicine.anatomical_structure, Anterior pituitary, Posterior pituitary, medicine, Nuclear medicine, business

Abstract

Improvements in transfusion and chelation treatment have led to increased survival of patients with thalassemia (THAL), however, HPG axis dysfunction continues as the most prevalent complication of iron-overload in THAL. The critical target organ for HPG axis dysfunction in thalassemia is the anterior pituitary gland. In a pilot study on iron-induced endocrinopathies in chronically transfused thalassemia and sickle cell disease (SCD) patients, we developed MRI methods to quantitatively assess pituitary iron by measuring the transversal relaxation rate (R2), the anterior and posterior volume, and anterior pituitary height. We examined the hypothesis that iron will be elevated in the pituitary of heavily transfused thalassemia patients, but gland volume and height will correlate more closely with function. We scanned 13 subjects (controls 8, HbE-thalassemia and thalassemia major 4, iron-overloaded SCD 1) with a total of 17 measurements in a 1.5 Tesla imager of Children’s Hospital Oakland (Philips Gyroscan®) using a quadrature head coil. Two of 4 thalassemia patients were on hormone replacement treatment. The relaxation rate R2 of the anterior pituitary gland was determined from 2 or 3 sagittal slices (3 mm slice thickness, 0.3 mm gap, manually traced ROI covering more than 60% of the gland within each slice) by a turbo-spin echo sequence acquiring 8 evenly spaced echoes (TE = 15, 30,..., 120 ms, TR = 2500 ms). Anterior and posterior pituitary volumes were analyzed from sagittal slices by manual tracing (3D FFE, 1 mm3 isotropic voxel, TE = 4.6 ms, TR = 9.8 ms, a = 15°). Anterior pituitary height was obtained from routine T1 weighted sagittal multi-slice spin echo images (slice thickness 3 mm, gap 0.3 mm). Liver iron concentration (LIC) by SQUID biosusceptometry was used for total body iron estimation. A reproducibility of 2.6 % (COV) was determined in a normal subject for a mean R2 = 11.8 s−1. The relaxation rates for the control group R2 = 10.8 ± 0.8 s−1 and the thalassemia group R2 = 14.3 ± 1.4 s−1 were significantly different (p (U-test) < 0.001) with no overlap. A weak Spearman rank correlation was found with LIC (RS = 0.71, p < 0.04), but not with plasma ferritin. Anterior pituitary height H and volume V were related by V [mm3] = 95 · H [mm] - 187 (R2 = 0.80). For the anterior pituitary, a significant correlation was found between R2 and volume (RS = −0.59, p < 0.04). Although volumes and heights did not significantly differentiate between the patients and controls, the two THAL patients with abnormal pituitary function had lower anterior pituitary volume and height compared with the two others with normal function. The one iron-overloaded SCD patient had normal R2 and pituitary function; volume and height were in the same range as controls. In summary, the higher transverse relaxation rates indicate elevated iron concentrations in the anterior pituitary gland in all of our thalassemia patients. Pituitary volumes or heights alone may reflect pituitary function, but abnormal volume/height was only seen in patients with high R2. Additional studies in patients with thalassemia and SCD are required to confirm these preliminary observations.

Published

2006

21. Safety and Efficacy of Peginterferon Alfa-2a and Ribavirin for Hepatitis C in Thalassemia

Author

Nancy F. Olivieri, Janet L. Kwiatkowski, Elliott Vichinsky, Farrukh Shah, Maureen M. Jonas, Paul Harmatz, Roland Fischer, Patricia J. Giardina, and Elizabeth C. Wright

Subjects

medicine.medical_specialty, Thalassemia, Immunology, Population, Cardiac echo, Biochemistry, Gastroenterology, chemistry.chemical_compound, Liver disease, Internal medicine, medicine, education, education.field_of_study, medicine.diagnostic_test, business.industry, Standard treatment, Ribavirin, Cell Biology, Hematology, Hepatitis C, medicine.disease, Surgery, chemistry, business, Peginterferon alfa-2a, medicine.drug

Abstract

Hepatitis C virus (HCV) is an important cause of liver disease in patients with thalassemia. Standard treatment for adult patients without thalassemia is pegylated interferon-alfa (PEG) and ribavirin, but has been contraindicated in patients with thalassemia due to ribavirin-induced hemolysis, with associated increase in transfusion requirement and iron loading. This study examines whether increased iron burden accelerates liver, heart, and endocrine disease, increases the risk of antiviral treatment in these patients, and influences response to therapy. An open-label, single arm trial of PEG (180 μg/week) and ribavirin (~16mg/kg/day) was performed through the NIH-sponsored Thalassemia Clinical Research Network. Patients were treated for 24 weeks (genotypes 2&3) or 48 weeks (genotype 1). Iron burden was measured as liver iron concentration (LIC) in dry weight biopsy samples and HCV-RNA levels by using the Roche COBAS HCV Tests (qualitative and quantitative). Safety for iron-related toxicities was assessed by liver pathology, cardiac echo and ECG, fasting blood sugar and thyroid function tests. Standard PEG/ribavirin toxicities were followed using biochemical parameters, vision and hearing tests, and adverse event monitoring. 21 patients (48% male, mean age 32y, 15 genotype 1, 6 genotype 2 or 3) were enrolled and started treatment. 4 participants discontinued between weeks 4 through 12 [death from presumed sepsis, persistent cough, extreme fatigue, and pregnant spouse], and 1 participant dropped out at 36 weeks. Transfusion requirement had increased by 40% after 24 weeks (range: −5 to 68 %) in all participants and by 31% after 48 weeks (range: −2 to 77%) in participants with genotype 1. Week 48 liver biopsies were obtained in 14 /16 patients. The mean baseline LIC was 11.2 mg/g (range: 1.1 to 44.1) and did not change significantly at 48 weeks (median increase: 1.7 mg/g). LIC increased in 29% (4/14) of participants by more than 5 mg/g. Ejection fraction remained stable over 48 weeks (range: −15 to +17 %) and no pathologic arrhythmias were reported. No participants developed diabetes mellitus or thyroid disease. A ≥ 2 log HCV-RNA reduction was achieved by week 4 in all participants with genotype 2 or 3, and in 47% by week 4 and 73% by week 12 in those with genotype 1. Although end of treatment viral response (ETR) in genotype 2 or 3 was 100 % (4/4), 75% did not obtain sustained viral response (SVR; HCV undetectable in blood six months after treatment). In contrast, genotype 1 participants had ETR of 75% (9/12) and SVR of 55% (6/11). No significant correlations were found in baseline LIC, baseline HCV-RNA level, or change in transfusion requirement with ETR or SVR. In summary, baseline LIC was not a predictor of early or SVR. Response rates for participants with genotype 1 were similar to the non-thalassemia population. Genotype 2 or 3 patients appear to have a lower SVR rate after 24 weeks of therapy; therefore, 48 weeks of therapy should be considered. Despite an increase in iron burden in some participants, combination therapy did not appear to pose significant iron-related safety issues. (Study medications provided by Hoffmann-La Roche).

Published

2006

22. Iron Overload in Acute Myelogenous Leukemia after Bone Marrow Transplantation

Author

Zahra Pakbaz, Sherrie Shiota, Roland Fischer, Elliott Vichinsky, Mark C. Walters, Paul Harmatz, and Nancy Noonan

Subjects

medicine.medical_specialty, Liver Iron Concentration, Bone marrow transplantation, business.industry, Thalassemia, Immunology, Cell Biology, Hematology, Phlebotomy, medicine.disease, Biochemistry, Gastroenterology, Sickle cell anemia, Transplantation, Myelogenous, Leukemia, hemic and lymphatic diseases, Internal medicine, medicine, business

Abstract

Children with acute leukemias typically receive RBC transfusions during the course of their treatment. However, the severity and significance of transfusional iron overload is not known in this patient population. Earlier, we reported elevated serum ferritin (SF) in 5 patients with AML who received HLA-identical sibling bone marrow transplantation (BMT). However, SF has a wide predictive interval for liver iron concentration (LIC) in thalassemia and sickle cell disease and the current recommendation is to measure LIC to estimate total body iron burden. Further exploration of the SF-to-LIC ratio (SF/LIC) to investigate the relationship between SF and LIC has shown ratio differences by specific disease (SCD, thalassemia, genetic hemochromatosis), transfusion status and use of chelation. The reasons for these differences are not presently known. In this study LIC was measured within 2 weeks of serum ferritin (SF), in 8 AML patients after transplantation, to explore the significance of the elevated SF and to determine the range and character of the SF/LIC ratio after BMT for AML. LIC was measured (1–4 year after BMT) by a low temperature SQUID biosusceptometer system (Ferritometer®) under the standardized Hamburg-Torino-Oakland protocol. The range for LIC in healthy individuals measured by SQUID is 90–340 mg/g wet weight. The median serum ferritin was 1227 (582–1723) μg/l and the median LIC was 1284 (751–1612) mg/g wet weight or approximately 4 times greater than the upper limit of normal. ALT was measured in 4 patients of which 2 were mildly elevated. Neither LIC nor SF changed over the interval of follow-up extending to 3 years in 2 patients (aged 11.5y and 14.5 y) who returned annually for LIC measurements. The ratio of SF/LIC ranged from 0.5 to 1.4 (median: 0.9) in the patients with AML. This compares to ratios of 1.2 (0.6–2.6) in regularly transfused sickle cell disease patients (n=45), 0.87 (0.23–2.7) in transfusion dependent thalassemia patients and 0.32 (0.05–0.57) in transfusion independent thalassemia patients. These preliminary observations suggest that children with acute leukemias who undergo bone marrow transplantation develop significant transfusion related iron accumulation. Additional investigation should be undertaken to determine if AML patients would benefit from iron reduction therapy by phlebotomy after BMT.

Published

2006

23. Does liver biopsy overestimate liver iron concentration?

Author

Paul Harmatz, Peter E. Nielsen, and Roland Fischer

Subjects

Liver Iron Concentration, medicine.medical_specialty, medicine.diagnostic_test, business.industry, Immunology, Deferasirox, Cell Biology, Hematology, Biochemistry, law.invention, SQUID, law, Liver biopsy, Biopsy, medicine, Radiology, business, medicine.drug

Abstract

Cappellini and colleagues[1][1] claim that the use of a superconducting quantum interference device (SQUID) biosusceptometer underestimates liver iron concentration (LIC) in their phase 3 study of deferasirox (DFX). LIC was measured either in deparaffinized liver samples excised by various biopsy

Published

2006

24. Hospitalization Rate and Regional Differences in Comprehensive Care in Transfused Patients with Sickle Cell Disease Compared to Thalassemia: A Report from the Multi-Center Study of Iron Overload

Author

William Owen, Lee Hilliard, Ellen B. Fung, Ward Hagar, Meredith Milet, Paul Harmatz, Samir K. Ballas, Kim Smith-Whitley, Laura DeCastro, and Elliott Vichinsky

Subjects

Pediatrics, medicine.medical_specialty, medicine.diagnostic_test, business.industry, Thalassemia, Immunology, Cell Biology, Hematology, Disease, medicine.disease, Biochemistry, Thyroid function tests, Hospitalization rate, Liver biopsy, Biopsy, medicine, business, Regional differences, Natural history study

Abstract

Red blood cell transfusions are often used to prevent the complications of thalassaemia (Thal) and sickle cell disease (SCD), though chronic therapy frequently results in iron overload-related organ injury. The Multi-Center Study of Iron Overload is a prospective, natural history study conducted to compare the comorbidities of iron overload in Thal with SCD. This report examines differences in morbidity and comprehensive care by disease and geographic region. 584 subjects aged 12 years and over, were screened for inclusion from 30 clinical hematological centers in the US, Canada and the UK. Socioeconomic and clinical data from subjects with iron overload (LIC of ≥ 10 mg/g dry wt by biopsy) and either Thal (N=142, 54% Male) or Tx-SCD (N=199, 43% Male) were collected. A group of non-iron overloaded SCD (NonTx-SCD N=64; 50% Male) were also enrolled. Tx-SCD were hospitalized more frequently (4.1± 3.8 times/year) compared to Thal (1.8± 1.7) or NonTx-SCD (2.1± 1.7; p

Published

2005

25. Comparison of LIC Obtained from Biopsy, BLS and R2-MRI in Iron Overloaded Patients with β-Thalassemia, Treated with Deferasirox (Exjade®, ICL670)

Author

Gerd K. Rosenkranz, Herbert Opitz, P. Cole, Giuseppe Masera, Maria-Eliana Lai, R. Engelhardt, G. Salles, Daniele Alberti, E. Vichinsky, Roland Fischer, A. Piga, Ellen B. Fung, Michael Jeng, Silverio Perrotta, Marcello Capra, G Janssen, T. G. St. Pierre, T. Coates, Filomena Longo, Paolo Cianciulli, Paul Harmatz, G. E. Janka-Schaub, and Renzo Galanello

Subjects

medicine.medical_specialty, Liver Iron Concentration, medicine.diagnostic_test, business.industry, Thalassemia, education, Immunology, Deferasirox, Magnetic resonance imaging, Cell Biology, Hematology, Hemosiderosis, medicine.disease, Biochemistry, Surgery, Liver biopsy, Biopsy, medicine, Chelation therapy, Nuclear medicine, business, medicine.drug

Abstract

Chelation therapy for patients with transfusional hemosiderosis is guided by the degree of iron overload and ongoing transfusion requirements; liver iron concentration (LIC) is one tool for measuring current iron burden. During the clinical development of the novel oral iron chelator deferasirox, LIC was measured in subcutaneous liver biopsy samples, but also non-invasively by biomagnetic liver susceptometry (SQUID-BLS) and magnetic resonance imaging (R2-MRI: FerriScan®). These methods were compared in a substudy of a large, open-label, randomized Phase III study in 586 β-thalassemia patients with transfusional hemosiderosis; the study evaluated the efficacy and safety of long-term deferasirox and deferoxamine treatment. 48 patients (aged 17–35 yrs) gave informed consent for adding BLS and MRI assessments (baseline, 6 and 12 months) to the biopsy assessments (baseline and 12 months) of the main study. At baseline, 47 patients were assessed by BLS and biopsy, 45 by R2-MRI; at 6 months, 42 by BLS and R2-MRI; at 12 months, 41 by BLS and R2-MRI, 39 by biopsy. BLS was performed and evaluated locally at 3 centers in Hamburg, Turin and Oakland. MR images were recorded at 4 centers in Hamburg, Turin, Stanford and Los Angeles and were analyzed centrally. Data from BLS and R2-MRI remained blinded until study completion. LIC from biopsies was determined by AAS from extracted paraffin blocks in a central laboratory and used as the standardized reference method. LIC was expressed as mg/g dry weight for all methods: for BLS, a wet-to-dry weight conversion factor of 3.3 was applied, while MRI was calibrated against fresh freeze-dried liver biopsies. The relationship between BLS or R2-MRI with biopsy measurements was modeled by linear regression after log-transformation of the data. To account for the correlation between baseline and post-baseline measurements of the same patient, mixed-effects models were fitted. On average, the LIC data obtained from BLS and biopsy were related by a factor of 0.46 (95% CI: 0.32, 0.67). With R2-MRI assessment of LIC vs biopsy, the factor was 0.72 (95% CI: 0.54, 0.97). BLS and R2-MRI measurements could not be related appropriately by a factor. Overall, LIC from biopsy was generally larger than that obtained from BLS; R2-MRI measurements fell in-between biopsy and BLS. Differences are caused in part by the variability in the wet-to-dry weight ratio relating in vivo with in vitro methods. In conclusion, LIC data from 3 independent methods were correlated but not equivalent. It is therefore important that for an individual patient, a single method is consistently used under standardized conditions.

Published

2005

26. Comparison of Liver Iron Concentration Measured by the SQUID Biosusceptometers at Hamburg, Torino and Oakland in Patients with Thalassemia and Sickle Cell Disease

Author

Herbert Optiz, Peter Nielsen, Antonio Piga, Hanspeter Nick, Rainer Engelhardt, Ellen B. Fung, Roland Fischer, Elliott Vichinsky, Paul Harmatz, R.L. Fagaly, Zahra Pakbaz, and Filomena Longo

Subjects

Iron Chelator, Liver Iron Concentration, business.industry, Thalassemia, Immunology, Cell Biology, Hematology, medicine.disease, Biochemistry, Medicine, In patient, business, Nuclear medicine, Analysis method

Abstract

Assessing iron chelator efficacy in clinical trials requires standardization of liver iron concentration measurements. In a blinded round-robin test, liver iron concentration (LIC) was measured within 1 month in 18 patients with thalassemia or sickle cell disease and in 10 normal subjects at the 3 SQUID biosusceptometer systems located in Hamburg (UKE), Torino (TOR), and Oakland (CHO). Mean LIC values (range: normal up to 8000 μg/g-liver) were determined from 5 separate vertical scans. The observed intrasite precision (SD of Altman-Bland differences from duplicate measurements with repositioning) was found in the expected range of ±130 (UKE), ±200 (TOR), and 220 μg/g-liver (with 3 operators involved at CHO). Prediction of LIC at TOR and CHO in comparison with UKE was very good, with coefficients of determination between sites of R2 = 0.97, resulting in intersite standard deviations (SD) of 247 and 326 μg/g-liver, respectively. Differences of 24, 20, and 5% were noted for the comparisons UKE-TOR, CHO-TOR, and UKE-CHO, respectively (see Fig. 1). This suggests the need for further standardization of analysis methods. In conclusion, we found that intra-site precision was within an acceptable range for repeat measurements in the majority of iron overloaded subjects. Prediction of liver iron concentration at the three centers was highly correlated. Figure 1. Agreement (Passing-Bablok regression) between liver iron measurements (mean LIC from 2 positions) by the SQUID biosusceptometer system in Hamburg (LIC-UKE) and the systems in Torino (LIC-TOR) and Oakland (LIC-CHO). Figure 1. Agreement (Passing-Bablok regression) between liver iron measurements (mean LIC from 2 positions) by the SQUID biosusceptometer system in Hamburg (LIC-UKE) and the systems in Torino (LIC-TOR) and Oakland (LIC-CHO).

Published

2005

27. Early Hepatitis C Viral Response (EVR) to Peginterferon Alfa 2a and Ribavirin in Patients with β Thalassemia

Author

Wright C. Elizabeth, Patricia J. Giardina, Elliott Vichinsky, Melody J. Cunningham, Janet L. Kwiatkowski, Farrukh Shah, Jonas Maureen, Nancy F. Olivieri, and Paul Harmatz

Subjects

medicine.medical_specialty, Hepatitis c viral, Pregnancy, business.industry, Ribavirin, Thalassemia, Hepatitis C virus, Immunology, Cell Biology, Hematology, medicine.disease, medicine.disease_cause, Biochemistry, Gastroenterology, chemistry.chemical_compound, Liver disease, chemistry, Internal medicine, medicine, In patient, business, Peginterferon alfa-2a, medicine.drug

Abstract

Hepatitis C virus (HCV) infection is an important cause of liver failure and death in patients with thalassemia who received frequent blood transfusions before HCV screening became routine. Severe transfusion-related iron overload may accelerate the progression of liver disease, influence response to therapy, and increase the risk of antiviral treatment in these patients. An open-label, single arm trial of peginterferon alfa 2a (180 ug weekly) and ribavirin (1200 mg/day for > 75 kg, 1000 mg/day 50 to 75 kg, 800 mg for < 50kg) was initiated in August, 2003 in the NIH-sponsored Thalassemia Clinical Trials Network to examine safety and efficacy in adult patients. Although the study is still enrolling patients, we are presenting viral response data for the first 16 patients (mean age: 33 yrs, range 22 to 44, 50% female, 75% genotype 1). Iron burden was assessed by chemical analysis of liver biopsy and HCV RNA levels were measured using the Roche COBAS HCV Tests (qualitative and quantitative). These analyses were performed by a central laboratory. HCV levels were measured at baseline, weeks 1, 2, 3, 4, 12 and 24. Early Virologic Responses Week 1 Week 2 Week 3 Week 4 Week 12 Week 24 *number with result available; **non-detectable; ***greater than 2 log decrease N* 16 16 16 16 11 6 Non-d** 1 2 2 3 7 5 >2-log 5 6 7 7 3 1 % >2 log 38% 50% 56% 63% 91% 100% Four patients discontinued between weeks 4 through 12 (1 death, 1 persistent cough, 1 extreme fatigue, and 1 pregnancy (spouse). These patients had all achieved > 2 log drop by week 4. The mean liver iron at baseline was 10.1 mg/gm dry wt (range: 1.1 to 21.2) and the mean log HCV RNA level was 5.8 (range 4.0 to 6.8). The median time to > 2 log decrease was 1 week for patients with genotype 2 and 4 weeks for patients with genotype 1 (p=0.004). There was no correlation either between baseline iron or baseline HCV level and time to > 2 log decrease. Transfusion requirement increased 52% as assessed at 12 weeks and did not predict earlier viral response. In summary, there is EVR (>2 log drop) in 63% at 4 weeks and 91 % at 12 weeks, comparable to those seen in patients without thalassemia. Quantitative hepatic iron concentration at baseline was not a predictor of EVR. Completion of the study is planned to determine whether the EVR predicts sustained viral response and whether the iron overload or increased transfusion requirements during therapy pose significant safety issues.

Published

2004

28. Toxic Unbound Iron and Membrane Injury in b-Thalassemia and Sickle Cell Disease: Elevated Non-Transferrin Bound Iron (NTBI) and Malondialdehyde (MDA)

Author

David W. Killilea, Qing Jiang, Patricia Evans, Bruce N. Ames, Elliott Vichinsky, John B. Porter, Patrick B. Walter, Jacqueline Madden, Ellen B. Fung, Ellen Butensky, and Paul Harmatz

Subjects

medicine.medical_specialty, medicine.medical_treatment, Immunology, medicine.disease_cause, Biochemistry, Lipid peroxidation, chemistry.chemical_compound, Internal medicine, medicine, Tocopherol, chemistry.chemical_classification, biology, business.industry, Vitamin E, C-reactive protein, Cell Biology, Hematology, Malondialdehyde, Surgery, Ferritin, Endocrinology, chemistry, Transferrin, biology.protein, business, Oxidative stress

Abstract

Objective: Chronic red blood cell transfusion therapy is life-saving for patients with β-thalassemia (THL) and sickle cell disease (SCD), but often results in severe iron overload. Clinical observations suggest that organ dysfunction (heart, liver, endocrine dysfunction, bone disease) resulting from iron overload is seen more often in patients with THL than SCD. This study examines the possible correlation between increased organ injury in these patients and oxidative stress, iron metabolism, inflammation and plasma vitamin E. Methods: Markers of oxidant stress were compared in 18 subjects with THL (7M, 24 ± 9 yrs) and 11 with SCD (7M, 13 ± 4 yrs) with 10 disease-free controls (5M, 27 ± 12 yrs). All THL and SCD patients admitted to the study were healthy and had not had a recent medical event including vascular crises for SCD within the last 4 months. Blood was drawn from fasted subjects, prior to blood transfusion, and plasma, serum and cells were separated by centrifugation. Plasma levels of malondialdehyde (MDA), a marker of lipid peroxidation, were determined by GC-MS. Non-transferrin bound iron (NTBI), protein carbonyls and tocopherol content were measured by HPLC. C Reactive Protein (CRP) was determined by ELISA. Liver iron content was analyzed by ICP-mass spectrometry from disease patients. Results: Table 1 Values are means ± SD (subject n). Within a row, underlined values are significantly different from control and starred values are significantly different between THL and SCD (P

Published

2004

29. Assessing Compliance to Iron Chelation Therapy in Patients with Thalassemia

Author

Zahra Pakbaz, Paul Harmatz, Keith Quirolo, Richrd Gamino, Ellen B. Fung, Roland Fischer, Elliott Vichinsky, Robert Yamashita, and Marsha Treadwell

Subjects

medicine.medical_specialty, Liver Iron Concentration, business.industry, Thalassemia, Immunology, Cell Biology, Hematology, Iron chelation therapy, medicine.disease, Biochemistry, Surgery, Compliance (physiology), Internal medicine, medicine, In patient, Dosing, Chelation therapy, business, Packed red blood cells

Abstract

Introduction: Compliance with Desferrioxamine is the most important factor determining morbidity and mortality in transfusion dependent thalassemia patients. Clinical and laboratory methods to assess compliance are essential in modifying patient treatment and determining efficacy of therapy. Simple screening tools for patient compliance assessment needs to be developed and must be correlated with reliable measurement of iron stores. Objective: The purpose of this study is to assess a simple compliance tool and compare it with quantitative iron stores. Methods and Patients: A Likert Numerical Scale assessed Adherence to a chelation program. This scale rated adherence to compliance from 1 (poor) to 5 (excellent). 90 transfusion dependent thalassemia patients underwent a brief interview, followed by the administration of the Likert Numerical scale to both the patient and their corresponding physician. This was followed by quantitation of their Serum Ferritin (SF) and liver iron concentration (LIC) utilizing the LTc- SQUID biosusceptometer (Ferritometer ®, Model 5700, Tristan Technologies, San Diego, USA). A subset of patients was followed serially to determine if compliance and liver iron changed as a result of the initial testing. Results: LIC was assessed in a total of 90 transfusion-dependent patients with a mean age of 17 years (4 – 48 y). The average duration of transfusion and chelation therapy was 14.6 y (range: 1 – 42) and 12.1 y (1 – 40 yrs), respectively. The median value for LIC was 2307 μg/g-liver (range: 364 – 7570). 78 % of patients rated themselves as very compliant (4 or 5) yet 40% of these patients had elevated LIC > 2500μg/g-liver. 92% of the patients received an identical rating from their physician (Spearman rank RS = 0.9). 19/28 patients with high compliance ratings had elevated LIC (> 2500 μg/g) secondary to recent onset of chelation therapy or inadequate Desferrioxamine dosing when compared to their PRBC cc/kg/y requirements. In 9 compliant patients, no apparent explanation for their elevated liver iron could be found. A subgroup of 16 patients with a mean age of 17 years (3 – 44y) underwent serial LIC and SF measurements. The median interval between first and last measurements was 10 month (range: 4–15). At the time of first SQUID measurement, the median values for LIC and SF were1202 μg/g-liv (893–6167) and 1502 μg/l (660–4496) respectively. Following counseling concerning the liver iron results, DFO dose changes occurred and compliance rose from 1 (poorest) to 5 (excellent) in 7/8 patients studied. The LIC decreased by 25% (7–60%) as the compliance rate improved. In contrast, the SF fluctuated, but at the time of study testing, 10 patients had a significant increase in serum ferritin despite a lower LIC. Conclusion: Patient compliance can be adequately assessed and result in improved iron balance. However, SF may underestimate compliance and result in inadequate management. We recommend all patients undergo serial assessment of compliance accompanied with LIC and necessary counseling containing their iron stores.

Published

2004

30. Serum Ferritin a Predictor of Iron Overload in Patients with Thalassemia and Sickle Cell Disease?

Author

Zahra Pakbaz, Paul Harmatz, Ellen B. Fung, Richard Gamino, Roland Fischer, and Elliott Vichinsky

Subjects

medicine.medical_specialty, Liver Iron Concentration, biology, business.industry, Thalassemia, Immunology, Cell, Beta thalassemia, Cell Biology, Hematology, Disease, Hemosiderosis, medicine.disease, Biochemistry, Gastroenterology, Ferritin, medicine.anatomical_structure, Internal medicine, Hemoglobin E, medicine, biology.protein, business

Abstract

Introduction: Monitoring iron overload by serum ferritin in patients with hemosiderosis is still a routine practice although its limitations are widely studied and well known. Using non-invasive liver iron assessment by quantitative MRI or by biomagnetic liver susceptometry (BLS) with SQUID biomagnetometers would be the better alternative, however, these methods are available at only a few centers worldwide. Objective: To determine the relationship between serum ferritin (SF) and liver iron concentration (LIC), measured by BLS at CHRCO, in patients with different types of hemosiderosis. Methods and Patients: A total of 97 patients with thalassemia (TM: 3 to 52 y, 54% females) and 39 patients with sickle cell disease (SCD: 5 to 49 y, 60% female) were prospectively assessed for LIC and SF. Both tests were performed within 2 weeks of each other. Most patients with TM and SCD were chronically transfused, while 10 b-thalassemia intermedia (TI), 5 HbE/β-thalassemia (HbE), and 5 SCD patients were not on transfusion programs. LIC was measured by LTc SQUID biosusceptometer system (Ferritometer®, Model 5700, Tristan Technologies, San Diego, USA) under the standardized Hamburg-Torino-Oakland protocol. A non-parametric test (U-test) was utilized to analyze differences between SF and LIC data. Results: In chronically transfused TM and SCD patients, the median SF and LIC were very similar (Table I). In TI&HbE patients, ferritin results were disproportionately low with respect to LIC. In order to improve prediction of iron stores by SF, the SF/LIC ratio was calculated. There was a significant difference between the median ratios of the two groups of transfused and non- transfused thalassemia patients, 0.82 vs. 0.32 [μg/l]/[μg/gliver], respectively (p < 0.01). In SCD patients the ratio is significantly (p < 0.01) higher. Conclusion: Present data confirm ferritin to be a poor predictor of liver iron stores both in sickle cell disease and thalassemia. Relying only on ferritin to monitor iron overload in patients with hemosiderosis can be misleading, especially, in sickle cell disease and non-transfused thalassemia patients. Taking into account disease specific ferritin-LIC relations, could improve the prediction of iron stores. However, assessment of liver iron stores is the ultimate method to initiate and adjust chelation treatment in order to avoid progressive organ injury. Table I. Median values and ranges ( − ) of serum ferritin (SF) and liver iron concentration (LIC) in transfused (Tx) and non-transfused (non-Tx) hemosiderosis patients. Patient group n SF μg/l] LIC [mg/gliver ] SF:LIC Thalassemia Tx 82 1721 (209–8867) 3424 (364–7570) 0.82 (0.3–1.8) TI &HbE non-Tx 15 766 (52–2681) 2174 (226–5498) 0.32 (0.1–1.4) SCD Tx 34 2757 (400–9138) 1941 (518–6670) 1.2 (0.6–3.3)

Published

2004