View clinical trials related to Preleukemia.
Filter by:The reconstitution of a functioning immune system after allogeneic stem cell transplantation takes months to years. Particularly memory B-lymphocytes reconstitute poorly with the current conditioning regimes. During the period of intense immune suppression the patients are extremely susceptible to bacterial, fungal and, most importantly, viral infections.The adoptive transfer of B-lymphocytes from the stem-cell donor might significantly enhance humoral immunity for the patient. Aim of the study is to evaluate a new cellular therapy with B-lymphocytes regarding safety. A booster vaccination after B-lymphocyte transfer will evaluate the functionality of the transferred B-lymphocytes in the patient.
This is an extension study to investigate long term safety and efficacy of SyB C-1101 when orally administered every 3 weeks, twice daily for 14 consecutive days to the patients who have completed 6 cycles in the study 2012002 whose purpose is to investigate tolerability of SyB C-1101 when administered orally in patients with recurrent/relapsed or refractory myelodysplastic syndrome.
This is an extension study study to investigate long term safety of SyB L-1101 when administered intravenously every 4 weeks to the patients who have completed 8 cycles in the study 2011005 whose purpose is to investigate tolerability of SyB L-1101 when administered intravenously in patients with recurrent/relapsed or refractory myelodysplastic syndrome. Antitumor effects will also be investigated in this study.
Albeit the safety of the stem cell transplantation procedure has been greatly improved, further refining the intensity of the conditioning is an important issue to explore, especially in patients with poor prognosis, the goal being to maintain the very favorable safety profile and improve the disease control. This is the goal our prospective trial; we aim to prospectively evaluate in a prospective multicenter trial the efficacy of different conditioning regimens in patients with high-risk myeloid malignancies. The study is a phase II trial randomizing patients between a prospective active control arm (BX2) and two experimental arms (BX3 and BX4). A standard group was kept in this clinical trial in order to avoid the limitations induced by the comparison with historical controls in the context of continuously improving practice. Each experimental arm will be conducted in parallel according to a standard phase II trial design. In addition, this trial will associate four ancillary studies to the main clinical objective: 1/ a prospective assessment of the quality of life of the patients over a period of 2 years 2/ an analysis of the cost effectiveness of the procedure, assessed over a period of 2 years 3/ an observational busulfan pharmacokinetic study 4/ a busulfan pharmacogenomic study
This is a treatment guideline for an unrelated umbilical cord blood transplant (UCBT) using a myeloablative preparative regimen for the treatment of hematological diseases, including, but not limited to acute leukemias. The myeloablative preparative regimen will consist of cyclophosphamide (CY), fludarabine (FLU) and fractionated total body irradiation (TBI).
Background: - Cord blood is blood that is taken from the umbilical cord and placenta of healthy newborns after childbirth. The cord blood collected from a baby is called a cord blood unit. Cord blood units are stored frozen in public cord blood banks. About 10,000 cord blood transplants have been performed in children and adults for blood cancers and other diseases in the world. These transplants have helped save lives and improve treatments. However, not all available units of cord blood have been collected, stored, and licensed according to specific government requirements. These unlicensed units can still be used in transplant, but they can only be given as part of specific research studies. This study will evaluate the safety of giving these unlicensed units by recording any problems that may occur during and after giving the cord blood. Objectives: - To test the safety and effectiveness of unlicensed cord blood units in people who need stem cell transplants. Eligibility: - Individuals who are scheduled to have a stem cell transplant. Design: - Participants will be screened with a medical history and physical exam. - Participants will receive the cord blood unit as part of their stem cell transplant procedure. The transplant will be performed according to the current standard of care for the procedure. - After the transplant, participants will be monitored for up to 1 year. Any problems or side effects from the transplant will be treated as necessary. All outcomes will be reported to the National Cord Blood Program and to the Center for International Blood and Marrow Transplant.
The main purpose of this study is to examine the outcome of a combined bone marrow and kidney transplant from a partially matched related (haploidentical or "haplo") donor. This is a pilot study, you are being asked to participate because you have a blood disorder and kidney disease. The aim of the combined transplant is to treat both your underlying blood disorder and kidney disease. We expect to have about 10 people participate in this study. Additionally, because the same person who is donating the kidney will also be donating the bone marrow, there may be a smaller chance of kidney rejection and less need for long-term use of anti-rejection drugs. Traditionally, very strong cancer treatment drugs (chemotherapy) and radiation are used to prepare a subject's body for bone marrow transplant. This is associated with a high risk for serious complications, even in subjects without kidney disease. This therapy can be toxic to the liver, lungs, mucous membranes, and intestines. Additionally, it is believed that standard therapy may be associated with a higher risk of a complication called graft versus host disease (GVHD) where the new donor cells attack the recipient's normal body. Recently, less intense chemotherapy and radiation regimens have been employed (these are called reduced intensity regimens) which cause less injury and GVHD to patients, and thus, have allowed older and less healthy patients to undergo bone marrow transplant. In this study, a reduced intensity regimen of chemotherapy and radiation will be used with the intent of producing fewer toxicities than standard therapy. Typical therapy following a standard kidney transplant includes multiple lifelong medications that aim to prevent the recipient's body from attacking or rejecting the donated kidney. These are called immunosuppressant drugs and they work by "quieting" the recipient's immune system to allow the donated kidney to function properly. One goal in our study is to decrease the duration you will need to be on immunosuppressant drugs following your kidney transplant as the bone marrow transplant will provide you with the donor's immune system which should not attack the donor kidney.
The purpose of the Connect® Myeloid disease registry is to provide unique insights into treatment decisions and treatment patterns as they relate to clinical outcomes of patients with myeloid diseases in routine clinical practice. This disease registry will also evaluate molecular and cellular markers that may provide further prognostic classification which may or may not be predictive of therapy and clinical outcomes.
Approved dosing schedule of azacitidine for myelodysplastic syndrome (MDS) is 75 mg/m^2/day subcutaneous for 7 consecutive days every 28 days, which is based on the data from standard chemotherapy regimen and a Phase I safety clinical trial. Since the optimal dosage of this drug has not been found yet, it remains as a subject of clinical study that needs to be examined. If initial toxicity is minimized by developing dosage/regimen that replaces the standard therapy, it will be possible to provide continuous treatment with increased convenience by patients and treating physicians as well as improvement for safety in elderly patients or those with serious cytopenia. In addition, it is expected to lead to a better response by strictly keeping a treatment schedule. Recent US study showed that 5-day regimen showed similar treatment results, but retrospective data from Spain showed lower response rate in 5-day regimen. Considering the recent circumstances around dosage and schedule of azacitidine in lower risk MDS, a Phase II clinical trial is planned in lower risk MDS patients in order to explore the efficacy in 5-day treatment by comparing prospectively with 7-day standard regimen.
This phase II trial studies methylprednisolone, horse anti-thymocyte globulin, cyclosporine, filgrastim, and/or pegfilgrastim or pegfilgrastim biosimilar in treating patients with aplastic anemia or low or intermediate-risk myelodysplastic syndrome. Horse anti-thymocyte globulin is made from horse blood and targets immune cells known as T-lymphocytes. Since T-lymphocytes are believed to be involved in causing low blood counts in aplastic anemia and in some cases of myelodysplastic syndromes, killing these cells may help treat the disease. Methylprednisolone and cyclosporine work to suppress immune cells called lymphocytes. This may help to improve low blood counts in aplastic anemia and myelodysplastic syndromes. Filgrastim and pegfilgrastim are designed to cause white blood cells to grow. This may help to fight infections and help improve the white blood cell count. Giving methylprednisolone and horse anti-thymocyte globulin together with cyclosporine, filgrastim, and/or pegfilgrastim may be an effective treatment for patients with aplastic anemia or myelodysplastic syndrome.