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Query: UMLS:C0026986 (myelodysplastic syndrome)
 14,926 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The main objective of the study was to analyze the incidence of iron overload (IO) and its management in transfusion-dependent patients with low-risk myelodysplastic syndrome (MDS) before the license of deferasirox. This observational, cross-sectional, and multicenter study was conducted from January to May 2007 in 81 Spanish hospitals. Eligible patients had a low or intermediate-1 risk score and had to have received at least ten units of packed red blood cell (PRBC). Of the 549 patients analyzed, 75% had received more than 20 PRBC units since diagnosis; 14% had IO at diagnosis and 58% at last follow-up. Thirty-eight percent of patients received chelation therapy; of those, 92% were treated with desferrioxamine. Ferritin levels at the start of chelation therapy were higher than 1,000 microg/L in 76% and over 2,500 microg/L in 24% of patients. Of the 202 patients who received some form of chelation therapy, ferritin levels increased from a mean +/- SD of 1,986 +/- 1,398 to 2,480 +/- 1,648 microg/L at last follow-up in 86% (p < 0.001). In the remaining 29 patients treated with a minimally effective therapy, ferritin levels did not increase. Of these, only 11 patients received such therapy lasting more than 12 months. In conclusion, most low-risk transfusion-dependent MDS patients develop IO, but only a minority receives a minimally effective and timely iron chelation therapy.
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PMID:Iron overload and chelation therapy in patients with low-risk myelodysplastic syndromes with transfusion requirements. 1969 Aug 57

The highest approved dose of deferasirox is currently 30 mg/kg per d in many countries; however, some patients require escalation above 30 mg/kg per d to achieve their therapeutic goals. This retrospective analysis investigated the efficacy (based on change in serum ferritin levels) and safety of deferasirox >30 mg/kg per d in adult and paediatric patients with transfusion-dependent anaemias, including beta-thalassaemia, sickle cell disease and the myelodysplastic syndromes. In total, 264 patients pooled from four clinical trials received doses of >30 mg/kg per d; median exposure to deferasirox >30 mg/kg per d was 36 weeks. In the overall population there was a statistically significant median decrease in serum ferritin of 440 microg/l (P < 0.0001) from pre-dose-escalation to the time-of-analysis; significant decreases were also observed in adult and paediatric patients, as well as beta-thalassaemia patients. The adverse event profile in patients who received deferasirox doses of >30 mg/kg per d was consistent with previously published data. There was no worsening of renal or liver function following dose escalation. Deferasirox >30 mg/kg per d effectively reduced iron burden to levels lower than those achieved prior to dose escalation in patients with transfusion-dependent anaemias. This has important implications for patients who are heavily transfused and may require higher doses to reduce body iron burden.
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PMID:Efficacy and safety of deferasirox doses of >30 mg/kg per d in patients with transfusion-dependent anaemia and iron overload. 1976 88

Iron overload (IO) is a known adverse prognostic factor in patients who undergo allogeneic hematopoietic stem cell transplantation (HSCT) for thalassemia and appears to play a similar role in patients with other hematologic disorders. The estimation of IO is based primarily on serum ferritin level; however, many confounding factors can result in ferritin overestimation, especially in HSCT recipients. The aim of the present study was to quantify IO after HSCT using a superconducting quantum interference device (SQUID), and to evaluate the impact of IO on hepatic function and infections. In addition, the feasibility of iron depletion was investigated. A total of 102 consecutive allogeneic HSCT recipients admitted to our outpatient department between December 2005, and December 2007, were analyzed. Primary diagnosis included acute leukemia/myelodysplastic syndrome in 61% of cases. Assessment of IO after HSCT included serum ferritin; in those with hyperferritinemia (ferritin>1000 ng/mL), liver iron concentration (LIC) was evaluated by SQUID magnetic susceptometry. Iron removal therapy was offered to patients with moderate IO (LIC 1000-2000 microg Fe/g wet weight [ww]) or severe IO (LIC >2,000 microg Fe/g ww). Fifty-seven patients had a ferritin level <1000 ng/mL: the median time between HSCT and assessment of ferritin level was 1006 days (range, 93-5239 days), significantly different from the median time of 183 days (range, 78-2957 days) in the 45 patients with a ferritin level >1000 ng/mL. Out of 42 patients evaluated by SQUID, 29 had moderate to severe IO (median LIC value, 1493 microg Fe/g ww [range, 1030-3253]). In a multivariate analysis, a significant correlation was found between a ferritin level >1000 ng/mL and the presence of at least one abnormal liver function test (LFT) ORo=6.8; 95% CI=2.2-20.6). In addition, the rate of proven/probable invasive fungal disease was significantly higher in the patients with hyperferritinemia (13% vs 0%; P=.006). Nineteen of the 24 patients considered eligible for iron-depletion therapy underwent regular phlebotomy; 13 completed the program in a median of 287 days (range, 92-779 days), reaching the target of a ferritin level<500 ng/mL; LIC was significantly reduced (median, 1419 microg Fe/g ww to 625 microg Fe/g ww; P < .001) in 8 of the 9 patients who were revaluated by SQUID at the end of the iron-depletion program. In conclusion, the measurement of LIC obtained by SQUID documented the presence of moderate/severe IO in 69% of the patients with a high ferritin level. Our data showed that in HSCT recipients, high ferritin level is an independent risk factor for abnormal LFTs, and IO may be considered a potential risk factor for fungal infections. A phlebotomy program may be feasible in two-thirds of the patients who might benefit from iron depletion.
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PMID:Iron overload in patients receiving allogeneic hematopoietic stem cell transplantation: quantification of iron burden by a superconducting quantum interference device (SQUID) and therapeutic effectiveness of phlebotomy. 1976 30

Anemia is the most frequent peripheral cytopenia observed in myelodysplastic syndromes (MDS) and has been recognized among the most important factors affecting the outcome of patients with MDS. In patients who are not candidates for potentially curative approaches, therapeutic options for symptomatic anemia include red blood cell (RBC) transfusion and iron chelation, hematopoietic growth factors, immunosuppression, immune-modulatory drugs, and hypomethylating agents. In about 40% of patients, regular RBC transfusions are the only therapeutic option that can be offered. The onset of a regular transfusion requirement significantly worsens the survival of patients with MDS. Transfusion-dependent patients invariably develop secondary iron overload. Elevated serum ferritin was proven to be associated with worse survival in transfusion-dependent patients, and recent data obtained using magnetic resonance imaging show both hepatic and myocardial iron accumulation in heavily transfused patients. According to evidence-based guidelines, patients with sideroblastic anemia, 5q- syndrome, or other forms of refractory anemia, in whom long-term transfusion therapy is likely, are recognized as the best candidates to receive iron chelation therapy. In addition, patients who are candidates for allogeneic stem cell transplantation might also benefit from chelation therapy because iron overload is associated with increased transplantation-related mortality. RBC transfusions and iron chelation are the mainstay of therapy for many individuals with MDS. However, critical issues remain to be clarified in order to optimize treatment, including the identification of target hemoglobin levels to prevent anemia-related morbidity and more accurate information on the effect of iron-mediated organ damage on the outcome of patients with MDS.
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PMID:Red blood cell transfusion therapy and iron chelation in patients with myelodysplastic syndromes. 1977 58

Patients receiving recurring blood transfusions as supportive therapy to treat chronic anemias, such as myelodysplastic syndromes, thalassemia, and sickle-cell disease, are at risk of iron accumulation. The clinical consequences of iron overload are progressive liver damage, cardiac disease, and endocrine disorders, which can be fatal. Nurses have a vital role in the initial assessment and monitoring of patients undergoing transfusion therapy and their ongoing care. Iron levels may be managed effectively with iron chelation therapy, and treatment guidelines recommend initiation when serum ferritin levels reach more than 1,000 mcg/L. Deferoxamine has been used effectively in clinical practice for more than 40 years. Newer agents, such as deferasirox, have introduced the option of oral therapy to manage iron overload. Those agents and practical management of patients receiving multiple blood transfusions are discussed.
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PMID:Understanding iron overload: screening, monitoring, and caring for patients with transfusion-dependent anemias. 1979 8

Recent studies have suggested that the presence of iron overload prior to stem cell transplantation is associated with decreased survival. Within these studies, the criteria used to define iron overload have varied considerably. Given the lack of consensus regarding the definition of iron overload in the transplant setting, we sought to methodically examine iron status among transplant patients. We studied 78 consecutive patients at risk for transfusion-related iron overload (diagnoses included AML, ALL, MDS, and aplastic anemia) who received either autologous or allogeneic stem cell transplant. Multiple measures of iron status were collected prior to transplantation and examined for their association with survival. Using this data, three potentially prognostic iron measures were identified and incorporated into a rational and unified scoring system. The resulting Transplant Iron Score assigns a point for each of the following variables: (1) greater than 25 red cell units transfused prior to transplantation; (2) serum ferritin > 1000 ng/ml; and (3) a semi-quantitative bone marrow iron stain of 6+. In our cohort, the score (range 0 to 3) was more closely associated with survival than any available single iron parameter. In multivariate analysis, we observed an independent effect of iron overload on transplant survival (p = 0.01) primarily attributable to an increase in early treatment-related deaths (p = 0.02) and lethal infections. In subgroup analysis, the predictive power of the iron score was most pronounced among allogeneic transplant patients, where a high score (> or = 2) was associated with a 50% absolute decrease in survival at one year. In summary, our results lend further credence to the notion that iron overload prior to transplant is detrimental and suggest iron overload may predispose to a higher rate of lethal infections.
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PMID:The transplant iron score as a predictor of stem cell transplant survival. 1985 46

Many patients who undergo hematopoietic cell transplantation (HCT) present with anemia and have received red blood cell transfusions before HCT. As a result, iron overload is frequent and appears to be particularly prominent in patients with myelodysplastic syndromes. There is evidence that peritransplant events contribute to further iron accumulation, although the mechanism that disrupts normal iron homeostasis remains to be determined. Recent studies suggest that iron overload, as determined by ferritin levels, a surrogate marker for iron, is a risk factor for increased non-relapse mortality after HCT. Iron overload is associated with an increased rate of infections, in particular with fungal organisms. Furthermore anecdotal data suggest that increased hepatic iron may mimic the clinical picture of (chronic) graft-versus-host-disease (GVHD). Whether excess iron contributes to GVHD and whether iron depletion, be it by phlebotomy or chelation, reduces the post-transplantation complication rate and improves transplant outcome is yet to be determined.
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PMID:Iron overload, hematopoietic cell transplantation, and graft-versus-host disease. 1986 35

Deferasirox is a once-daily oral iron chelator with established dose-dependent efficacy in both adult and pediatric patients with transfusional iron overload. The clinical development program has demonstrated the efficacy of deferasirox for up to 4.5 years of treatment in patients with various underlying anemias, including beta-thalassemia, myelodysplastic syndromes, sickle cell disease, aplastic anemia, and other rare anemias. In addition to reducing key indicators of total body iron levels (serum ferritin, liver iron concentration, and toxic labile plasma iron), deferasirox has also demonstrated the ability to remove cardiac iron and prevent future cardiac iron accumulation. Emerging long-term data confirm the tolerability profile of deferasirox, and data on patient compliance render deferasirox a suitable therapeutic option for patients with chronic conditions requiring ongoing iron chelation therapy. Data continue to accumulate in a wide range of patient groups, including those with non-transfusion-dependent anemias such as hereditary hemochromatosis.
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PMID:Deferasirox (Exjade) for the treatment of iron overload. 1990 54

We report on a retrospective analysis examining the influence of pre-transplant serum ferritin on transplant outcomes of 99 MDS patients receiving reduced intensity conditioning (RIC) HSCT. The median pre-transplant ferritin value was 1992 ng/ml (range: 6-9580 ng/ml). No patients received iron chelation therapy preceding transplantation. On univariate analysis, there was a strong correlation between a higher pre-transplant serum ferritin (>1500 ng/ml) and a significantly inferior 3-year OS (64.6+/-7.5% vs 39.6+/-7.3%, p=0.01). However, pre-transplant serum ferritin did not influence 3-year TRM (20.2+/-7% vs 27.4+/-7%, p=0.24). There was no difference in infection-related mortality, and incidence of acute or chronic GvHD between cohorts. On multivariate analysis, a raised serum ferritin (HR: 2.00, 95% CI: 0.97-3.57, p=0.03), and the presence of >5% bone marrow blasts at time of transplantation (HR: 2.14, 95% CI: 0.84-4.58, p=0.06) were independent predictors of an inferior overall survival. However, pre-transplant serum ferritin was not a significant predictor of disease-free survival, relapse or TRM. When compared with myeloablative regimens, RIC regimens may attenuate the impact of iron overload related end-organ toxicity. Prospective studies incorporating alternative biomarkers of iron metabolism alongside serum ferritin levels are needed to improve our understanding of the significance of iron overload in MDS patients undergoing allogeneic transplantation.
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PMID:Impact of pre-transplant serum ferritin on outcomes of patients with myelodysplastic syndromes or secondary acute myeloid leukaemia receiving reduced intensity conditioning allogeneic haematopoietic stem cell transplantation. 1994 63

Deferasirox (DFX) is a newly developed oral iron chelator that enables effective chelation with once daily administration. We describe here a case of transfusional-iron overloaded patient who experienced hematopoietic recovery after DFX administration. A 75-year-old woman with iron overload, who had been diagnosed with MDS (RCMD) and had received a transfusion of red blood cells and platelets regularly for 3 years, enrolled in the phase I clinical trial of ICL670 (DFX) in Japan. DFX administration steadily decreased her serum ferritin levels and chelated overloaded iron effectively. Interestingly, a year after initiation of the trial, she needed fewer blood transfusions, and no more transfusions after the 17th month of the trial. Even after suspending transfusions, her hemoglobin level and platelet count increased continuously, and she now has stable disease without blood transfusions. She has not received any specific treatment for MDS during this period. Examination of the bone marrow aspirates in the 35th month revealed dysplastic cells, indicating no remarkable change in the state of MDS. This case suggests that excess iron hampers hematopoiesis and that adequate iron chelation may improve hematological data in some iron-overloaded patients.
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PMID:Hematopoietic recovery after administration of deferasirox for transfusional iron overload in a case of myelodysplastic syndrome. 2000 38


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