View clinical trials related to Acute Lymphoblastic Leukemia.
Filter by:Blood disorders such as leukemia or lymphoma or hemoglobinopathies can benefit from receiving an allogeneic (meaning that the cells are from a donor) stem cell transplant. Stem cells are created in the bone marrow. They grow into different types of blood cells that the body needs, including red blood cells, white blood cells, and platelets. In a transplant, the body's stem cells would be killed and then replaced by stem cells from the donor. Usually, patients are given very high doses of chemotherapy (drugs which kill cancer cells) prior to receiving a stem cell transplant. However, patients that are older, have received several prior treatments, or have other organ diseases are at a high risk of getting life-threatening treatment-related side effects from high doses of chemotherapy. Over the past several years, some doctors have begun to use lower doses of chemotherapy for preparing patients for a stem cell transplant. A condition that can occur after a stem cell transplant from a donor is Graft Versus Host Disease (GVHD). It is a rare but serious disorder that can strike persons whose immune system is suppressed and have received either a blood transfusion or a bone marrow transplant. Symptoms may include skin rash, intestinal problems similar to inflammation of the bowel and liver dysfunction. This research study uses a combination of lower-dose chemotherapy agents that is slightly different from those that have been used before. The medicines that will be used in this study are Fludarabine, Busulfan, both chemotherapy medicines, and Campath. Campath is a monoclonal antibody (a type of substance produced in the laboratory that binds to cancer cells). It helps the immune system see the cancer cell as something that needs to be destroyed. This research study will help us learn if using Fludarabine, Busulfan and Campath prior to an allogeneic stem cell transplant can provide treatment for blood disorders while decreasing the incidence of side effects.
Children surviving some types of cancer have a higher risk of developing learning problems after cancer treatment than do children who have not had cancer or its treatment. Cancer treatment may cause problems with learning, attention, and memory. The purpose of this study is to identify brain changes that may underlie learning problems in cancer survivors and investigate whether methylphenidate (a stimulant medication) may reduce these problems. Subjects who have had treatment for acute lymphoblastic leukemia (ALL) or a brain tumor will be asked to take part in this research study. Siblings of some subjects will also be asked to take part, so that their results can be compared with those of children who have had cancer treatment. We hypothesize that children receiving more aggressive therapy will have lower white matter brain volumes and these volumes will be significantly lower than age-matched siblings. We also hypothesize that children who take methylphenidate will show improvements on teacher and parent report measures of attention and social skills.
The purpose of this study is to determine whether the bispecific T-cell engager (BiTE®) Blinatumomab (MT103) is effective in the treatment of ALL patients with minimal residual disease.
This phase III trial studies combination chemotherapy with or without lestaurtinib with to see how well they work in treating younger patients with newly diagnosed acute lymphoblastic leukemia. Drugs used in chemotherapy work in different ways to stop the growth of stop cancer cells, either by killing the cells, by stopping them from dividing, or by stopping them from spreading. Lestaurtinib may stop the growth of cancer cells by blocking some of the enzymes needed for cell growth. It is not yet known whether combination chemotherapy is more effective with or without lestaurtinib in treating acute lymphoblastic leukemia.
The aim of this study was to investigate the occurrences of respiratory symptoms risk factors and abnormalities in lung function in young children (3-6 years old) with hemato-oncologic diseases at presentation (before treatment) and up to 3 years follow-up (study period).
The primary objective of this study (TOTXVI) is to compare the clinical benefit, the pharmacokinetics, and the pharmacodynamics of polyethylene glycol-conjugated (PEG) asparaginase given in higher dose (HD PEG) versus those of PEG-asparaginase given in conventional dose (CD PEG) during the continuation phase. This study has several secondary objectives: Therapeutic Objectives: To estimate the event-free survival and overall survival of children with ALL who are treated with risk-directed therapy. To study whether intensifying induction, including fractionated cyclophosphamide and thioguanine, in patients with day 15 MRD > 5%, will result in improved leukemia cytoreduction in this subgroup compared to TOTXV. To assess whether intensification of central nervous system (CNS)-directed intrathecal and systemic chemotherapy will improve outcome in patients at high risk of CNS relapse. Exploratory Pharmacologic Objectives: To identify pharmacogenetic, pharmacokinetic and pharmacodynamic predictors for treatment-related outcomes in the context of the systemic therapy used in the protocol. To compare the pharmacokinetics and pharmacodynamics of PEG-asparaginase given in higher dose (3,500 or 3,000 units/m2) versus those of PEG-asparaginase given in conventional dose (2,500 units/m2) in the continuation phase. Exploratory Biologic Objectives: To determine the prognostic value of levels of minimal residual disease in peripheral blood at day 8 of remission induction. To validate new markers and methods for MRD detection. To genotype natural killer (NK) cell receptors and measure their expressions at diagnosis and before reinduction, and to associate these features with treatment outcome. To identify new prognostic factors by applying new technologies to study patient material (e.g., stored plasma, serum, cerebrospinal fluid, and normal and leukemic cells). Exploratory Neuroimaging Objectives: To use quantitative MR measures (Diffusion Tensor Imaging and high resolution volumetric imaging) to assess differences in myelin and cortical thickness development in patients treated for ALL relative to healthy controls matched for age and gender. To assess the impact of folate pathway genetic polymorphisms on myelin and cortical thickness development and neurocognitive performance. To assess the impact of frontal-parietal lobe myelin and cortical thickness development on neurocognitive performance in attention, working memory, fluency, visual-spatial reasoning and processing speed.
Patients are being asked to participate in this study because treatment for their disease requires a stem cell transplant (SCT). Stem cells are the source of normal blood cells found in the bone marrow and lead to recovery of blood counts after bone marrow transplantation. With stem cell transplants, regardless of whether the donor is a full match to the patient or not, there is a risk of developing graft-versus-host disease (GVHD). GVHD is a serious and sometimes fatal side effect of SCT. GVHD occurs when the new donor stem cells (graft) recognizes that the body tissues of the patient (host) are different from those of the donor. When this happens, cells in the graft may attack the host organs. How much this happens and how severe the GVHD is depends on many things, including how different the donors cells are, the strength of the drugs given in preparation for the transplant, the quality of transplanted cells and the age of the person receiving the transplant. Typically, acute GVHD occurs in the first 100 days following transplant, while chronic GVHD occurs after day 100. Acute GVHD most often involves the skin, where it can cause anywhere from a mild rash to complete removal of skin; liver, where it can anywhere from a rise in liver function tests to liver failure; and the gut, where it can cause anywhere from mild diarrhea to profuse, life-threatening diarrhea. Most patients who develop GVHD experience a mild to moderate form, but some patients develop the severe, life-threatening form. Previous studies have shown that patients who receive SCT's can have a lower number of special T cells in their blood, called regulatory T cells, than people who have not received stem cell transplants. When regulatory T cells are low, there appears to be an increased rate of severe, acute GVHD. A drug known as IL-2 (Proleukin) has been shown to increase the number of regulatory T cells in patients following stem cell transplant, and in this study investigators plan to give low dose IL-2 after transplant. This study is called a phase II study because its major purpose is to find out whether using a low-dose of IL-2 will be effective in preventing acute GVHD. Other important purposes are to find out if this treatment helps the patient's immune system recover regulatory T cells faster after the transplant. This study will assess the safety and toxicity of low-dose IL-2 given to patients after transplantation and determine whether this drug is helpful in preventing GVHD.
Hypothesis: Myeloablative conditioning using a dose escalation of clofarabine in combination with cytarabine (ARA-C) and total body irradiation (TBI) will lead to improved survival for previously untransplanted children and adolescents with acute lymphoblastic leukemia (ALL) and acute non-lymphoblastic leukemia (ANLL)followed by allogeneic stem cell transplantation (AlloSCT).
The study objective is to improve the global results obtained with LAL-AR-93 study, reaching an event free survival between 60-70%. Identify patients with bad prognosis, with minimal residual disease,who can benefit of allogenic bone marrow transplantation
Due to ALL Ph+ patients should receive a different treatment, is proposed a therapeutical protocol with: intensification treatment of induction to increment the CR rate, allogenic transplantation in first CR, autologous transplantation follow by alfa interferon in patients cannot done allogenic transplantation.