View clinical trials related to Anemia, Sickle Cell.
Filter by:The objective of the study is to monitor the safety (adverse event data) of longer-term use of ACTIQ (Oral Transmucosal Fentanyl Citrate [OTFC]) treatment in children with pain associated with cancer, sickle cell disease, or severe burns and breakthrough pain (BTP) who are receiving around the clock (ATC) opioid therapy.
This is an open-label, non-randomized, multi-center trial designed to provide expanded access of deferasirox to patients with congenital disorders of red blood cells and chronic iron overload from blood transfusions who cannot adequately be treated with locally approved iron chelators.
In this study, patient blood samples from NMA transplants will be provided by Pittsburgh, and samples from myeloablative transplants will be provided by Atlanta (comparative controls). Samples would be obtained pre- and post-BMT from the recipient at a total of 7 timepoints, and from the donor at one timepoint.
We are studying if sickle cell disease blood platelets are larger than normal and how they may cause obstruction of blood vessels. We are also trying to study the reasons why large platelets are found in patients with sickle cell disease.
This protocol studied the effect of administration of a myeloablative pretransplant preparative regimen followed by an infusion of donor stem cells in children with severe sickle cell disease. The donor graft consisted of bone marrow or cord blood derived from a genetically matched sibling. The primary aim of the study was to evaluate how well the donated cells migrated to the bone marrow and begin producing healthy red blood cells, white blood cells and platelets (engrafted), how well the recipients immune system recovered, and assess any regimen related toxicities including a potentially life-threatening transplant related complication called graft-versus-host-disease or GVHD.
Neurologic complications secondary to cerebrovascular damage are prevalent in children with sickle cell disease. These patients experience both clinically overt cerebrovascular accidents and "silent infarctions" demonstrated by magnetic resonance imaging (MRI). They are also at risk for neurocognitive abnormalities.We hypothesize that daily, low-dose aspirin therapy will safely diminish the incidence and progression of cognitive deficits as well as the predisposition to overt and silent stroke in children with homozygous sickle cell disease (Hgb SS) or hemoglobin S Beta Zero Thalassemia (Hgb SB-0 Thal). In order to optimize the design of a future trial to test this hypothesis, we propose a pilot study to test the safety and tolerability of aspirin in young children with sickle cell disease.
This study tests the clinical outcomes of one of two preparative regimens (determined by available donor source) in patients with non-malignant hemoglobinopathies. The researchers hypothesize that these regimens will have a positive effect on post transplant engraftment and the incidence of graft-versus-host-disease. Regimen A2 has replaced Regimen A in this study. Two patients were treated on Regimen A but did not have evidence of initial engraftment thus triggering the stopping rule for that arm of this study.
The objective of this study is to determine if a subject's genetic make-up would affect the treatment response to codeine in subjects with sickle cell disease.
The purpose of this study is to determine if treatment with reduced-dose busulfex, fludarabine and alemtuzumab (CAMPATH) followed by sten cell infusion will allow for donor stem cells to grow in patients with hemoglobinopathies bone marrow and restore circulating blood counts. In addition the incidence and severity of side effects and of graft vs. host disease (GVHD) will be monitored.
Sickle cell disease is a life-long blood condition that can cause damage to the brain and other organs of the body. Children may develop severe, debilitating clinical states, with stroke or abnormal blood flow to the brain. Treatment generally includes chronic blood transfusions which may cause iron overload, potentially leading to severe and sometimes fatal complications. Hematopoietic stem cell transplant using cells obtained from a sibling or an unrelated volunteer donor who is a perfect HLA "match" (same tissue type) for the recipient has shown to help, and possibly cure, sickle cell disease. Unfortunately, only about 10-20% of sickle cell patients have a HLA matched sibling donor, and the likelihood of locating an appropriate HLA matched unrelated donor through the various donor registries is limited. Stem cells from partially HLA matched family members (also called haploidentical transplant) is an option currently being explored for this patient population. This type of transplant has been used and found to be successful in some patients, mostly those with cancers of the blood. However, there can be significant complications with haploidentical transplant, primarily infection, failure of the graft to grow (graft failure), and a disorder called graft-versus-host disease. In addition, few patients with sickle cell disease have undergone this procedure. Therefore, the risks and benefits of haploidentical transplants for patients with sickle cell disorder are not as well established as those using an HLA identical sibling or unrelated donor. The primary objective of this study is to assess the safety of haploidentical stem cell transplantation for children and adolescents with severe sickle cell disease and stroke or abnormal transcranial Doppler ultrasound requiring chronic transfusion therapy. The treatment plan will be considered safe if there is not excessive toxicity. Toxicity for this protocol is defined as graft failure/graft rejection, severe acute GVHD, or regimen related death within 100 days after the last cellular product administered. Of note, the protocol was closed to accrual in September 2007 as we had met the stopping rules related to graft integrity (graft failure and graft rejection). Participants currently enrolled continue to be followed per protocol.