View clinical trials related to Iron Overload.
Filter by:Insulin resistance-associated hepatic iron overload (IR-HIO), also defined as dysmetabolic iron overload syndrome or dysmetabolic liversiderosis, is a common cause or iron overload in France, mainly in middle-age patients with increased serum ferritin levels associated with normal serum transferrin saturation, and normal serum iron concentration in the absence of other known cause of increased serum ferritin levels. Treatment includes a combination of dietary measures and physical activity to correct metabolic disorders. Phlebotomies seem to be beneficial when serum ferritin level is high. This study aims at comparing the effect of iron depletion (by phlebotomy) plus lifestyle and diet advices versus lifestyle and diet advices alone on blood glucose level and insulin sensitivity in subjects with IR-HIO in order to assess the benefits of phlebotomies on the reduction of risk of diabetes and cardiovascular associated complications.
The purpose of this open-label, non-comparative, multi-center protocol was to further evaluate safety and to provide treatment with ICL670 to patients who had or were at risk of life threatening complications due to transfusional iron overload with a documented inability to tolerate any of the commercially available iron chelators due to severe toxicity rendering continued therapy either impossible or hazardous. Patients who were also ineligible for all on-going registration trials with ICL670 were included in the study. In exceptional cases, patients with a degree of iron overload which was not immediately life-threatening and who were ineligible for the registration trials were also enrolled provided they had a well-documented, sound justification for alternative chelation therapy.
The purpose of this research study is to study the safety of increasing doses of FBS0701, and to see how quickly the study medication is absorbed and how quickly it disappears from the bloodstream. FBS0701 is a new, oral iron chelator - a medication taken by mouth that increases the body's elimination of iron. Iron chelators are used in patients who develop iron overload from their transfusions. Four increasing doses of FBS0701 will be tested during this study. The study will start with the lowest dose given to 4 patients (3 mg/kg/day. The next group of 4 patients will receive the next high dose (8mg/kg/day only after the results of the first 4 patients are examined and it is determined safe to continue. Participating patients will take the study medication for 7 days and be followed for 28 days after their last dose to determine if they have any reactions to the study medication - therefore a total of 35 days on study. Patients will need to give up to 17 blood samples over the screening period and first 15 days of the study (a total of about 9 tablespoons). Patients will not need to stay overnight in the clinic but will need to visit the clinic 10 times for screening and on-study visits over the 35 days. Patients currently taking an iron chelator will need to stop that treatment for up to 22 days (up to 5 days before they start the study and for 15 days during the study). The results of this study will be helpful in determining the safety of the drug and the best doses of FBS0701 to be used in the next study which will assess the effectiveness of this new iron chelator.
The purpose of this study is to evaluate for iron overload in pediatric oncology and transplant patients who have completed their treatment between one to ten years ago.
The purpose of this study is to assess the safety and the effects on liver iron of Deferasirox when given for a long treatment period in patients with transfusion dependent iron overload.
Silymarin, a flavonolignan complex isolated from Silybum marianum, has a strong antioxidant, hepatoprotective and iron chelating activities. The present study has been designed to investigate the therapeutic activity of orally administered silymarin in patients with thalassemia major under conventional iron chelation therapy. A 6-month randomized, double-blind, clinical trial was conducted in 140 beta-thalassemia major patients in two well-matched groups. Patients are randomized to receive a silymarin tablet (140 mg) three times a day plus conventional desferrioxamine therapy or the same therapy but a placebo tablet instead of silymarin. Clinical laboratory tests of iron status and liver function are assessed at the beginning and the end of the trial.
Hypothesis: The investigators suspect that significant degrees of iron overload in subjects with SCD result in decreased red cell survival, abnormal endothelial function and markedly dysregulated autonomic function. Furthermore, the investigators anticipate that the magnitude of these effects is proportional not only to the magnitude of total body iron stores but also to the duration of exposure to the high iron levels in tissues. Primary objective To determine if red cell survival as assessed by 51Cr red cell survival analysis, hemoglobin level, reticulocyte count, lactic acid dehydrogenase, and plasma hemoglobin in sickle cell patients is related to the degree of iron overload. Secondary objective(s) 1. Determine if the magnitude of endothelial-dependant vasodilation is related to The degree of iron overload. 2. Determine if the degree of change in cardiac beat to beat variability in response to hypoxic exposure or to cold exposure ("cold-face-test") is related the magnitude of iron overload. The primary measure of iron overload will be MRI determination of liver iron concentration.
The purpose of study is to evaluate and compare the effect of iron supplementation when given as iron tablet or fortified biscuit or combined with zinc in the form of tablet on morbidity and iron toxicity markers among children aged 24-36 months.
Iron overload impaired growth in Thalassemia patients due to iron deposition in the endocrine glands, including the hypophysis and gonads. The issue of iron overload in Sickle Cell Anemia is recently studied more extensively and preliminary studies shows that endocrine damage is rarer in those patients. Growth velocity was not systematically studied in patients with Iron Overload, even in thalassemia patients in spite several studies that assess the endocrine function in those patients. In Sickle Cell Patients this issue was not studied. The purpose of this study is to assess the growth velocity in a cohort of Thalassemia Major and Intermedia patients and compare the results to another group of Sickle Cell patients, including Sickle cell thalassemia.
Recent retrospective studies have suggested that iron overload is a clinically important problem in patients undergoing ablative stem cell transplantation. However, these studies relied on serum ferritin as a surrogate of iron overload, which limits the conclusions that can be drawn from such analyses. Therefore, the investigators are conducting a prospective study to more rigorously examine the prevalence, mechanisms, and consequences of iron overload in this patient population.