View clinical trials related to All.
Filter by:Each year approximately 2,900 children and adolescents less than 20 years old are diagnosed with acute lymphoblastic leukemia or acute lymphoblastic lymphoma in the United States. (For the purposes of this protocol, ALL will be used to refer to patients with either acute lymphoblastic leukemia or acute lymphoblastic lymphoma as patients are treated in the same manner.) High-dose methotrexate (HDMTX; 5 g/m2) remains an important component of standard treatment for most ALL patients. However, high plasma and intracellular MTX concentrations (defined as a MTX level of >1 µmol/L at 42 hours and > 0.40 µmol/L at 48 hours) can quickly lead to acute kidney, bone marrow, liver, skin, central nervous system, and gastrointestinal toxicities requiring extended hospitalization and delays in subsequent chemotherapy treatments. This study seeks to identify more sensitive markers of kidney injury that could serve as better predictors of delayed excretion and/or toxicity of HDMTX. This study is a pilot repeated-measures feasibility study. Hypothesis 1: Directly measured GFR (mGFR, a type of test to measure the filtering rate of kidneys) by iohexol clearance obtained prior to HDMTX will demonstrate greater sensitivity and specificity for prediction of delayed MTX excretion and/or toxicity in children and adolescents with ALL than serum creatinine (sCr) alone or sCr used for eGFR calculation. If this study proves that mGFR is a better predictor of delayed MTX excretion and/or toxicity, then another study will be developed in the future to determine if modifying the HDMTX dose or adjusting supportive care based on mGFR will prevent delayed clearance and toxicity without impacting patient survival. Hypothesis 2: Those participants prospectively demonstrating delayed MTX excretion or toxicity will exhibit elevation of kidney injury biomarkers less than 24 hours following initiation of HDMTX infusion compared to pre-chemotherapy measurements. These biomarkers will increase prior to a measurable sCr elevation.
Background: - Although progress has been made in treating children with B-cell cancers such as leukemia or lymphoma, many children do not respond to the standard treatments. One possible treatment involves collecting white blood cells called T cells from the person with cancer and modifying the cells to attack the B-cell cancer. The cells can then be given back to the participant. This study will use T cells that have been modified to attack the cluster of differentiation 19 (CD19) protein, which is found on the surface of some B-cell cancers. Objectives: - To see if anti-CD19 modified white blood cells are a safe and effective treatment for children and young adults with advanced B-cell cancer. Eligibility: - Children and young adults between 1 and 30 years of age who have B-cell cancer (leukemia or lymphoma) that has not responded to standard treatments. - The leukemia or the lymphoma must have the CD19 protein. - There must be adequate organ function. Design: - Participants will be screened with a physical exam and medical history. Blood and urine samples will be collected. Imaging studies or bone marrow biopsies may be performed depending on the type of cancer. - Participants will undergo a process where white blood cells are collected, called apheresis. These cells will be modified to contain the anti-CD19 gene. - Participants will have 3 days of chemotherapy to prepare their immune system to accept the modified cells. - Participants will receive an infusion of their own modified white blood cells. They will remain in the hospital until they have recovered from the treatment. - Participants will have frequent follow-up visits to monitor the outcome of the treatment. - If the participant benefits from the treatment, then he/she may have the option for another round of treatment.
This phase II clinical trial studies how well two donors stem cell transplant work in treating patients with high-risk hematologic malignancies. After receiving radiation to help further treat the disease, patients receive a dose of donors' T cells. T cells can fight infection and react against cancer cells. Two days after donors' T cells are given, patients receive cyclophosphamide (CY) to help destroy the most active T cells that may cause tissue damage (called graft versus host disease or GVHD). Some of the less reactive T cells are not destroyed by CY and they remain in the patient to help fight infection. A few days after the CY is given, patients receive donors' stem cells to help their blood counts recover. Using two donors' stem cell transplant instead of one donor may be more effective in treating patients with high-risk disease and may prevent the disease from coming back.
In this Phase I study, we will test the safety of the drug plerixafor (MOBOZIL) at different dose levels, used together with other anti-cancer drugs—cytarabine and etoposide. We want to find out what effects, good and /or bad, this combination of drugs has on leukemia. Plerixafor is a drug that blocks a receptor on the leukemia cell, which prevents it from staying in the bone marrow where it can be resistant to chemotherapy. Plerixafor is FDA approved for mobilizing stem cells from the bone marrow in preparation for an autologous stem cell transplant. Cytarabine and etoposide have been used as part of standard chemotherapy for ALL and AML. However, the use of plerixafor with cytarabine and etoposide in pediatric patients with relapsed or refractory ALL, AML and MDS is considered experimental.
This is a pilot study of a drug called rituximab used together with other drugs—prednisone, etoposide, and ifosfamide. Prednisone, etoposide, and ifosfamide have been used as part of standard chemotherapy for relapsed Acute Lymphoblastic Leukemia (ALL). Rituximab was approved by the Food and Drug Administration in 1997. However, the use of rituximab with prednisone, etoposide, and ifosfamide in pediatric patients with relapsed or refractory ALL is considered experimental. This study is for patients who have ALL in second or greater relapse, or in first relapse and not responding to treatment. The goals of this study are: - To see if using rituximab with prednisone, etoposide, and ifosfamide is beneficial to leukemia treatment - To find out what side effects this combination of drugs can cause A total of 15 participants (30 years old or younger) will be enrolled, over a period of 2 years.
This is a multicenter, open-label, dose escalation Phase 1 study.
The primary objective of the study is to determine the safety and tolerability when adding abatacept to acute Graft versus Host Disease in transplants for malignant diseases using unrelated donor bone marrow or peripheral blood stem cell grafts.
An open-label phase 1 study to assess safety and efficacy of once-weekly STA-9090 (ganetespib) in subjects with AML, ALL and blast-phase CML.
This protocol will enroll subjects with advanced hematologic malignancies who do not have a suitable related or unrelated donor to undergo a Stem Cell Transplant. In this study, subjects will undergo a Stem Cell Transplant using Cord Blood. Part of the cord blood will be used for the Stem Cell Transplant and part of the cord blood will be sent to a laboratory in order to grow the T cells (from the cord blood) and increase the activity of the cord blood T cells. The purpose of this part of the study is to see if it is safe to give study subjects activated T cells made from a small portion of their donor UCB unit immediately after the UCB transplant. Activated T cells have been used safely in stem cell transplantation studies in the past, but they have never been studied UCB transplantation.
Clofarabine is known to have a stronger anti-tumor effect than Fludarabine and has shown its efficacy in treating aggressive acute leukemias. In addition, evidence is that it is well-tolerated with manageable side effects especially in elderly patients. Thus, replacing Fludarabine with Clofarabine in a reduced intensity transplant regimen may provide a regimen with increased anti-tumor activity without adding significant risks of toxicity.The purpose of this study is to evaluate the efficacy and the safety of clofarabine in combination with IV busulfan and ATG as the backbone of a reduced intensity conditioning regimen for allogeneic stem cell transplantation for the treatment of patients with high-risk MDS/AML or ALL not eligible to conventional or standard myeloablative allo-SCT.