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Discover 23,284 clinical trials near Maryland. Find research studies in your area.
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NCT02298933
Background: \- Platelets are tiny cells in the blood that help stop bleeding. Thrombocytopenia happens when people do not have enough normal platelets. Getting a transfusion of another person s platelets can help stop too much bleeding. But because these cells are from other people, the body may reject them,putting them at risk for serious bleeding complications. This conditions is called alloimmune platelet refractoriness . There are evidence that in many patients, platelet counts fail to increase after a platelet transfusion because the transfused platelets are destroyed by the body s defence soldier, called complement . Researchers want to see if a drug, that inhibits complement, can help increase platelet levels and reduce bleeding Objectives: \- To see if eculizumab increases platelet levels more after a transfusion. To see if it reduces the chance of bleeding too much. Eligibility: \- Adults 18-75 years old who have thrombocytopenia and alloimmune platelet refractoriness. Design: * Participants will be screened with medical history, physical exam, and blood tests. * Participants will have the procedures listed below. They can have them while they are in the hospital. Or they can go to the outpatient clinic for them. Each visit may take up to 3 hours. * Participants will get a meningitis vaccine if needed. Then they will get the study drug as an infusion. * Participants will have a platelet transfusion. Their blood will be drawn every 24 hours until the platelet count is less than 10,000 per 1 microliter of blood. * They will take antibiotics for 14 days. * Participants will have a checkup and blood drawn twice a week for 2 weeks. They will get more transfusions if needed.
NCT00074490
Background: Patients with cancers of the blood and immune system often benefit from transplants of stem cells from a genetically well-matched sibling. However, severe problems may follow these transplants because of the high-dose chemotherapy and radiation that accompany the procedure. Also, donated immune cells sometimes attack healthy tissues in a reaction called graft-versus-host disease (GVHD), damaging organs such as the liver, intestines and skin. To reduce toxicity of high-dose preparative chemotherapy, this study performs allogeneic transplant after low doses of chemotherapy. In an attempt to improve anti-tumor effects without increasing GVHD, this study uses donor immune cells (T helper 2 (Th2) cells) grown in the laboratory; some patients will receive standard donor immune cells (not grown in laboratory). All patients will receive immune modulating drugs sirolimus and cyclosporine to prevent GVHD. Objective: To determine the safety, treatment effects and rate of GVHD in patients receiving transplants that use low-intensity chemotherapy, sirolimus plus cyclosporine, and transplant booster with either Th2 cells or standard immune cells. Eligibility: Patients 16 to 75 years of age with acute or chronic leukemia, non-Hodgkin's lymphoma, Hodgkin's disease, multiple myeloma, or myelodysplastic syndrome. Patients must have a suitable genetically matched sibling donor and adequate kidney, heart and lung function. Design: The protocol has three treatment groups: cohort 1, Th2 booster at two weeks post-transplant; cohort 2, standard T cell booster at two weeks post-transplant; cohort 3, multiple infusion of Th2 cells. Condition: Hematologic Neoplasms, Myeloproliferative Disorders Intervention: Biological; therapeutic allogeneic lymphocytes Drug: Sirolimus Study Type: Interventional Study Design: Primary Purpose: Treatment Phase: Phase II