View clinical trials related to Blood And Marrow Transplantation.
Filter by:The goal of this clinical research study is to learn about the safety of giving mesenchymal stem cells (MSCs) to patients who have ARDS. Researchers also want to learn if these cells can help control ARDS when given with drugs that are routinely used to treat ARDS. In this study, participants will receive 1 infusion of MSCs. This is an investigational study. MSC infusions for the treatment of ARDS is investigational. Up to 20 patients will take part in this study. All will be enrolled at MD Anderson.
Objectives: Primary Objective To provide compassionate access to the Miltenyi device for CD34+ cell infusions to patients who experience poor graft function after stem cell transplantation (SCT).
The goal of this clinical research study is to learn if researchers can successfully and safely give patients who have had a stem cell transplant an infusion of white blood cells (called T-cells) that have been collected from an unrelated person, and that have been genetically changed. The process of changing the DNA (genetic material) of these T-cells is called "gene transfer." The gene transfer involves drawing blood from an unrelated donor, separating out T cells using a machine, changing the cells' DNA in the laboratory, and returning the genetically changed cells back to the body. T-cells are a type of white blood cell that fight infection. The type of gene transfer being used in this study is designed to help your T-cells to better fight cancer by targeting a chemical marker that is found on certain cancer cells. Researchers want to learn if these genetically-changed T-cells can help to control B-cell leukemia or lymphoma after a stem cell transplant. Researchers want to find out the highest tolerable dose of these T-cells that can be given to patients with relapsed leukemia or lymphoma.
The goal of this clinical research study is to learn if it is safe and feasible to transplant patients with one of two units of cord blood that has been changed in the laboratory before it is given. Only patients with leukemia, lymphoma or myelodysplastic syndrome will be allowed on this study. The secondary goal is to obtain the preliminary efficacy outcome. Researchers also want to learn if using cord blood that has been changed can help to control the disease. One cord blood unit will not be changed before it is administered to you. The cord blood unit that will be altered will be changed to use sugar that is found in small amounts in blood cells. It plays a role in telling transplanted cells where they should go in the body. Adding more sugars to the cord blood cells in the laboratory helps the cord blood cells find their way to the bone marrow faster. This process is called fucosylation. "Conditioning" is the chemo and other medicines and will be given to patients to prepare to receive cord blood transplant cells. This prevents immune system from rejecting the cells. Conditioning will be started before the transplant. ATG is a protein that removes immune cells that cause damage to the body. Clofarabine is designed to interfere with the growth and development of cancer cells. Fludarabine is designed to interfere with the DNA of cancer cells, which may cause the cancer cells to die. This chemotherapy is also designed to block your body's ability to reject the donor's bone marrow cells. Melphalan and busulfan are designed to bind to the DNA of cells, which may cause cancer cells to die. MMF and tacrolimus are designed to block the donor cells from growing and spreading in a way that could cause graft versus host disease (GVHD -- a condition in which transplanted tissue attacks the recipient's body). This may help to prevent GVHD. Rituximab is designed to attach to cancer cells, which may cause them to die. A Phase I study for treatment of patients (N=25) with hematologic malignancies and MDS who are candidates for dual-cord UCBT is ongoing at M.D. Anderson Cancer Center under an Investigator-initiated IND Application, E.J. Shpall, MD, PI. Since August, 2012, Preliminary results indicate that ASC-101 UCBT is well-tolerated and no ASC-101 related untoward adverse events have been observed. To date, the median time to neutrophil engraftment (N=9) is 15 days, and the median time to platelet engraftment (N=9) is 33 days. The trial remains ongoing.
The goal of this clinical research study is to learn if treating stem cell donors with filgrastim (G-CSF) and plerixafor (Mozobil®) can cause them to produce a higher number of blood stem cells than filgrastim by itself. Researchers also want to learn if giving both of these drugs helps donors produce enough stem cells so that only 1 apheresis procedure needs to be performed. Researchers will study if using both drugs lowers the risk of the stem cell transplant recipients developing severe forms graft-versus-host disease (GVHD). GVHD is a condition in which transplanted tissue (such as blood stem cells) attacks the tissue of the recipient's body. The safety and effectiveness of this drug combination will also be studied. Filgrastim and plerixafor are both designed to help move or "mobilize" the stem cells from the bone marrow to the blood.
The goal of this clinical research study is to learn how the drug cidofovir given as 1 dose directly into the bladder is absorbed by the body. Researchers also want to measure the amount of study drug in the body at different time points. The safety and tolerability of this drug will also be studied. Cidofovir is designed to fight certain viruses by blocking the virus cells from dividing.
The goal of this clinical research study is to learn if it is safe and feasible to transplant changed cord blood for patients with leukemia or lymphoma. Researchers also want to learn if this can help to control the disease. The cord blood will be changed to make use of sugar that is found in small amounts in blood cells. It plays a role in signaling where in the body the transplanted cells should go to. Adding more sugars to the cord blood cells in the laboratory is designed to help the cord blood cells find their way faster to the bone marrow. This may help your blood counts to recover faster. This process is called fucosylation. Anti-thymocyte globulin (ATG) is a protein that removes immune cells that cause damage to the body. Clofarabine is designed to interfere with the growth and development of cancer cells. Fludarabine is designed to interfere with the DNA (genetic material) of cancer cells, which may cause the cancer cells to die. This chemotherapy is also designed to block your body's ability to reject the donor's bone marrow cells. Melphalan and busulfan are designed to bind to the DNA of cells, which may cause cancer cells to die. Mycophenolate mofetil (MMF) and tacrolimus are designed to block the donor cells from growing and spreading in a way that could cause graft versus host disease (GVHD -- a condition in which transplanted tissue attacks the recipient's body). This may help to prevent GVHD. Rituximab is designed to attach to cancer cells, which may cause them to die.