Active clinical trials for "Iron Overload"

This study enrolls patients with myelodysplastic syndrome (MDS) and myelofibrosis (MFS), with transfusional iron overload and treats them with the investigational iron chelator, SP-420. SP-420 may be better tolerated and safer than commercially available iron chelators. Iron chelation therapy (ICT) has been shown to improve outcomes in iron overload, but adherence is poor due to problems related to ease of administration, tolerability, and safety.

Hypothesis: Taurine, in combination with standard iron chelation therapy, is more effective than chelation therapy alone in reducing cardiac iron overload, oxidative stress and cardiac damage in β-Thalassemia. Protocol: Sixty subjects with transfusion dependent β-Thalassemia receiving deferasirox iron chelation therapy will be recruited and randomized in a 1:1 ratio to either (1) placebo and continuation of their iron chelation or (2) a combination of iron chelation plus taurine. Transfusion and safety visits will be scheduled monthly with clinical/biochemical assessment visits every three months. The efficacy of taurine combined with standard chelation therapy will be assessed at baseline and 12 months posttreatment by both cardiac T2*MRI, and cardiac function. The recruitment period is projected to be 12 months from initiation.

The safety and efficacy of CN128 is studied in thalassaemia with sever liver iron overloaded patients.

This is a randomized, open-label, multicenter, two arm, phase II study to evaluate treatment compliance and change in serum ferritin of a deferasirox granule formulation and a deferasirox DT formulation in children and adolescents aged ≥ 2 and < 18 years at enrollment with any transfusion-dependent anemia requiring chelation therapy due to iron overload, to demonstrate the effect of improved compliance on iron burden. Randomization will be stratified by age groups (2 to <10 years, 10 to <18 years) and prior iron chelation therapy (Yes/ No). There will be two study phases which include a 1 year core phase where patients will be randomized to a 48 week treatment period to either Deferasirox DT or granules, and an optional extension phase where all patients will receive the granules up to 5 years. Patients who demonstrated benefit to granules or DT in the core phase, and/or express the wish to continue in the optional extension phase on granules, will be offered this possibility until there is local access to the new formulation (granules or FCT) or up to 5 years, whichever occurs first.

This trial is a multicenter, unblinded, single-arm pilot study, lasting one year (plus one year extension Amendment n.3 25 August 2009, plus two years follow-up Amendment n.7) , to evaluate the efficacy and safety of the chelator therapy with deferiprone on cerebral iron accumulations. The drug will be administered in the dosage of 15 mg/kg twice daily. The safety and tolerability of the drug will be evaluated by measuring hemochrome every seven days with leukocyte formula count. At 3, 6 and 12 months from the start of treatment, a neurological evaluation will be performed using several specific evaluation scales (International Cooperative Ataxia Rating Scale (ICARS); Unified Parkinson's Disease Rating Scale (UPDRS); Burke-Fahn-Marsden (BFM)). Every 6 months of treatment, a brain magnetic resonance image (MRI) aimed at measuring iron overload quantitatively, if possible.

Hematopoietic Stem Cell Transplantation (HSCT) is currently a standard procedure for a wide range of blood-oncological diseases and genetic disorders. Recent improvements in transplant technologies, infection prevention and graft-versus-host-disease (GVHD) management procedures have significantly reduced the transplant-related mortality (TRM). However, approximately 50% of pediatric patients may develop liver dysfunction before HSCT and 74% to 85.5% after HSCT, with a TRM related to liver dysfunction reaching 46%. The liver and pancreas complications still remain too high for the difficulties and diagnostic inefficiencies and, consequently, for the lack of targeted and safer therapies. The diagnostic problems can be summarized in 3 major points: a) the histological examination of liver and pancreas parenchyma cannot be routinely performed because of the organ anatomy and the relative risk of the bioptic procedures; b) the lack of specific biomarkers or advanced imaging techniques appropriate for the diagnosis of HSCT complications; c) the multifactorial causes of organ complications, as well as drug toxicities, GVHD, siderosis, ductopenia (considered as an index of hepatic GVHD), the accumulation of potentially toxic substances favored by siderosis and ductopenia. In more than 50% of HSCT patients, siderosis and/or ductopenia may represent common pathological conditions. Furthermore, international guidelines issued by onco-hematology and transplantation scientific societies recommend a chelating treatment with deferasirox in all hematological and oncological patients undergoing an intense transfusion regimen. However, in the presence of siderosis and marked ductopenia, patients receiving deferasirox may experience both severe renal and hematological toxicities and lack of effectiveness of the chelating treatment. Therefore, the principal aim of the present retrospective study will be the evaluation of the transplant-related mortality (TRM) in patients requiring a chelation treatment according to the Italian guidelines in pediatric patients

The purpose of this multi-site research is to validate a rapid magnetic resonance based confounder-corrected R-2 mapping method as a quantitative imaging biomarker of liver iron concentrations.

The overall goal of this project is to develop and validate a novel technique for Magnetic Resonance Imaging (MRI)-based Quantitative Susceptibility Mapping (QSM) of the abdomen, for non-invasive assessment of liver iron deposition. In this work, study team will develop and optimize advanced data acquisition and image reconstruction methods to enable QSM of the abdomen. Further, investigators will determine the accuracy, repeatability, and reproducibility of abdominal QSM for iron quantification in patients with liver iron overload. Excessive accumulation of iron in various organs, including the liver, which affects both adult and pediatric populations, is toxic and requires treatment aimed at reducing body iron stores. Accurate assessment of liver iron concentration is critical for the detection and staging of iron overload as well as for longitudinal monitoring during treatment. In summary, this project will develop a novel MRI-based QSM technique designed for the abdomen and will validate it in pediatric and adult patients with liver iron overload. Upon successful validation, QSM will provide accurate, repeatable, and reproducible quantification of LIC based on a fundamental property of tissue.

This study aims to; 1) investigate population differences in iron absorption between East Asians and Northern Europeans; 2) assess population differences in hormonal and biochemical determinants of Fe absorption between East Asians and Northern Europeans; and 3) to investigate genetic contributions to Fe absorption, Fe status and Fe regulatory hormones between East Asians and Northern Europeans.

The effect of N_acetylcystein as an antioxidant on iron overload and frequency of blood transfusion in β-thalassemia major patients at Assiut Childern Hospital University And its cosubmitted for partial fulfillment of master degree in Pediatrics