View clinical trials related to Aplastic Anemia.
Filter by:Research has suggested that children with sufficient vitamin D levels undergoing hematopoietic stem cell transplant (HSCT) have improved outcomes, including lower incidences of infection and graft-versus-host disease (GVHD), as well as overall improved survival. However, supplementation in children undergoing HSCT has shown to be a challenge using standard or aggressive supplementation strategies. The primary objective of this study is to determine the safety and efficacy of a single, high dose oral vitamin D (Stoss Therapy) at the start of transplant followed by maintenance supplementation in children undergoing HSCT.
This pilot phase I trial studies the side effects of engineered donor stem cell transplant in treating patients with hematologic malignancies. Sometimes the transplanted cells from a donor can make an immune response against the body's normal cells (called graft-versus-host disease). Using T cells specially selected from donor blood in the laboratory for transplant may stop this from happening.
Invasive fungal disease (IFD) is an important cause of mortality and morbidity in patients undergoing intensive chemotherapy or transplantation. This current study aims to assess the impact of prophylactically using the broad-spectrum anti-fungal agent posaconazole on the incidence of IFD in high risk patients with aplastic anaemia and those undergoing intensive chemotherapy, for example for acute myeloid leukaemia, and allogeneic stem cell transplantation.
Our primary objective is to determine if it is feasible for previously untreated severe aplastic anemia (SAA) patients to be transplanted using non-myeloablative conditioning and post transplantation cyclophosphamide.
The objective of this study is to evaluate the efficacy of romiplostim administered once weekly to Aplastic Anemia (AA) patients with thrombocytopenia refractory to or ineligible for immunosuppressive therapy in Japan and Korea. Safety and pharmacokinetics of romiplostim after repeated administration will also be assessed.
An open label single arm study to assess efficacy and safety of BL-8040 on top of standard immunotherapy regimen of hATG, cyclosporine and steroids in patients with Hypoplastic MDS and AA over the course of a six month (180 day) treatment period.
This was an open label, non-randomized, phase II study of eltrombopag in combination with rabbit ATG/CsA in subjects with moderate or more severe AA who did not received prior ATG/ALG-based immunosuppressive therapy. The objective was to assess additive effects of eltorombopag on overall response rate (ORR) at 6 months (Week 26) of treatment with ATG/CsA. Subjects were assessed at least weekly for safety during the period from the start of ATG/CsA to 4 weeks after the start of administration of eltrombopag. After that, subjects had visits every 2 weeks until Week 26. Subjects in whom the treatment was assessed as effective at Week 26 could continued treatment with eltrombopag after 6 months when clinically indicated at the discretion of the investigator. There were five follow-up visits: at discontinuation of the treatment of eltrombopag, and Weeks 1, 2, 3, 4 and 26 after treatment discontinuation. As this study was the first Japanese phase II study in which this product was administered in combination with ATG/CsA to subjects with naive moderate or more severe AA, the subject number of this study was determined to be 10 based on the feasibility survey.
Background: - Some treatments for cancer or other diseases can lead to infertility in women. These treatments include chemotherapy, some stem cell transplants, and pelvic radiotherapy. They are called gonadotoxic therapies. Women can now have their eggs frozen before they have these treatments. This may allow them to get pregnant later. Researchers want to learn more about this technology and processes. Objectives: - To provide egg freezing for women having gonadotoxic therapies at NIH. To learn more about the effects of these therapies. Eligibility: - Women at least 18 years old who are past puberty and before menopause. They must be scheduled to have gonadotoxic therapies. Design: - Participants will be screened with medical history and blood and hormone tests. They will also have a physical exam and transvaginal ultrasound. - Ovary stimulation: participants will have medications injected under the skin. These increase the chance of fertility. This phase will take about 8 20 days. Participants will have blood drawn and transvaginal ultrasound daily or every other day. Some participants will also have blood thinner injected daily. - Egg retrieval: participants will check in to the hospital. Eggs will be removed with a needle during a short surgery. Participants will be awake but sedated. - Participants may stay overnight in the hospital. - They will return every 1 3 days for 1 3 weeks for blood tests. - Mature eggs will be frozen after egg retrieval and immature eggs (which cannot be fertilized for clinical use) will be used for research. Participants can use their eggs in the future at outside, private fertility clinics to try to become pregnant. If the eggs are stored for more than 5 years, participants must pay for storage.
The present study will be conducted to evaluate the efficacy and safety of AMG531 and to determine the recommended initial dose of AMG531 on the basis of its efficacy and safety when it is administered subcutaneously (SC) to the Aplastic Anemia (AA) patients with immunosuppressive-therapy refractory thrombocytopenia and also to assess the pharmacokinetics of this product. Its efficacy and safety during the extension period beyond one year will also be evaluated.
Decrease in blood cell counts due to deficient bone marrow function, called bone marrow failure, as well as some lung diseases, called idiopathic pulmonary fibrosis, can be caused by genetic defects in telomere biology genes, eventually causing telomere erosion. These disorders are collectively termed "telomeropathies". There is evidence that male hormones may improve blood cell counts in marrow failure, and these hormones are able to stimulate telomerase function in hematopoietic cells in vitro. We propose this study to the use of male hormone in patients with aplastic anemia and pulmonary fibrosis associated with defects in telomeres.