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Active clinical trials for "Leukemia, Lymphoid"

Results 321-330 of 2205

GOLD: Brief Intervention to Reduce Anxiety and Promote Resilience in Families of Youth With Cancer...

Bone and JointsBrain and Nervous System4 more

The purpose of this study is to examine a psychotherapeutic and psycho-educational intervention offered in virtual settings to caregivers of youth with cancer. Human subjects must be used because they are the object of the intervention.

Recruiting6 enrollment criteria

Family-Based Behavioral Treatment for Childhood Survivors of Acute Lymphoblastic Leukemia

Acute Lymphoblastic Leukemia

A single-arm, non-randomized four-month trial of the adapted family-based behavioral weight loss treatment (FBT) intervention will be conducted to evaluate its acceptability, feasibility, and preliminary indications of efficacy including measures of relative weight change and associated secondary outcomes (e.g., weight related health behaviors, health related quality of life), among 40 childhood acute lymphoblastic leukemia (ALL) survivors and their families.

Recruiting13 enrollment criteria

In Vivo Metabolic Profiling of CLL (Chronic Lymphocytic Leukemia)

Chronic Lymphocytic Leukemia

Metabolic reprogramming has been identified as a hallmark of cancer. Almost a century after Otto Warburg initially discovered increased glycolytic activity in tumor tissue ("Warburg effect"), therapeutic targeting of cancer metabolism has become a field of intense research effort in cancer biology. A growing appreciation of metabolic heterogeneity and complexity is currently reshaping investigators "simplistic" understanding of metabolic reprogramming in cancer. Discovering metabolic vulnerabilities as new treatment targets for cancer requires systematic dissection of metabolic dependencies, fuel preferences, and underlying mechanisms in the specific physiological context. However, today's data on cancer cell metabolic signatures and heterogeneity in their physiological habitat of the human organism is sparse to non-existent representing a critical knowledge gap in designing effective metabolic therapies. Here, the investigators propose a "top-down" approach studying cancer cell metabolism in patients followed by mechanistic in-depth studies in cell culture and animal models to define metabolic vulnerabilities. Investigators will develop a metabolic tracing method to quantitatively characterize metabolic signatures and fuel preferences of leukemic lymphocytes in patients with chronic lymphocytic leukemia (CLL). Isotopic metabolic tracers are nutrients that are chemically identical to the native nutrient. Incorporated stable, non-radioactive isotopes allow investigators to follow their metabolic fate by monitoring conversion of tracer nutrients into downstream metabolites using cutting-edge metabolomics analysis. Using this method, investigators propose to test the hypothesis that leukemic lymphocytes show tissue-specific metabolic preferences that differ from non-leukemic lymphocytes and that ex vivo in-plasma labeling represents a useful model for assaying metabolic activity in leukemic cells in a patient-specific manner.

Recruiting27 enrollment criteria

Effect of Metformin on ABCB1 and AMPK Expression in Adolescents With Newly Diagnosed Acute Lymphoblastic...

Acute Lymphoblastic Leukemia

Acute lymphoblastic leukemia, is the most frequent cancer in children and adolescents. Some genes have been described to produce drug resistance, as ABCB1 probably by lack of activation of AMPK. Some manuscripts have shown that metformin has antitumoral activity, mainly by activation of AMPK. This is an experimental one center trial, that pretend analyze the effect of metformin at a dose of 1000mgm2 per day, on the expression of the ABCB1 and AMPK genes, when is added to conventional induction remission chemotherapy in newly diagnosed adolescents with acute lymphoblastic leukemia.

Recruiting5 enrollment criteria

Use of Levocarnitine to Reduce Asparaginase Hepatotoxicity in Patients With Acute Lymphoblastic...

Acute Lymphoblastic LeukemiaHepatotoxicity

Acute lymphoblastic leukemia (ALL) is the most common cancer seen in pediatric oncology. The necessary chemotherapy for pediatric and adolescent and young adult (AYA) patients with ALL includes steroids, anthracyclines, asparaginase, and vincristine. One of the most hepatotoxic chemotherapy agents is asparaginase, with treatment-associated hepatotoxicity (TAH) observed in up to 60% of patients. The frequency of TAH is increased in overweight or obese patients of Latino heritage. Carnitine is a naturally-derived compound that is produced in the liver and kidneys; it is found in certain foods, such as meat, poultry, fish, and some dairy products. Endogenous carnitine transports long-chain fatty acids into the mitochondria, where they are oxidized to produce energy, and acts as scavengers of oxygen free radicals. Thus, carnitine can reduce oxidative stress and modulate inflammatory response. Levocarnitine is a supplement form of carnitine used typically in the care and management of patients with carnitine deficiency. Pediatric and AYAs with ALL will be given oral levocarnitine as a supplement during their initial phases of treatment, when the most hepatotoxic agents are administered, to determine if the incidence of liver toxicity can be reduced or eliminated.

Recruiting10 enrollment criteria

Base Edited CAR7 T Cells to Treat T Cell Malignancies (TvT CAR7)

Relapsed/Refractory T-cell Acute Lymphoid Leukaemia

T-cell leukaemia is an uncommon type of blood cell cancer that affects white blood cells (T cells). This phase I clinical trial will treat children aged 6 months up to 16 years with T cell leukaemia which has come back (relapsed) after chemotherapy or is not responding to chemotherapy (refractory). The cell therapy is made from white blood cells (T cells) collected from a healthy donor and changed so they can kill other T cells, including leukaemia cells. These 'ready-made' CAR T cells have been made using a new technique called CRISPR base editing to modify them DNA code and have been given the name BE CAR-7. This technique allows them to work after chemotherapy and also disarms them to prevent effects against normal cells. The main aim of this study is to assess the safety of the BE CAR-7 treatment and to see if ready-made CAR T cells can eradicate T cell leukaemia ahead of a planned bone marrow transplant.

Recruiting23 enrollment criteria

Caloric Restriction and Activity to Reduce Chemoresistance in B-ALL

B-cell Acute Lymphoblastic LeukemiaObesity

This study is for older children, adolescents, and young adults with B-cell Acute Lymphoblastic Leukemia (B-ALL). Higher amounts of body fat is associated with resistance to chemotherapy in patients with B-ALL. Chemotherapy during the first month causes large gains in body fat in most people, even those who start chemotherapy at a healthy weight. This study is being done to find out if caloric restriction achieved by a personalized nutritional menu and exercise plan during routine chemotherapy can make the patient's ALL more sensitive to chemotherapy and also reduce the amount of body fat gained during treatment. The goals of this study are to help make chemotherapy more effective in treating the patient's leukemia as demonstrated by fewer patients with leukemia minimal residual disease (MRD) while also trying to reduce the amount of body fat that chemotherapy causes the patient to gain in the first month.

Recruiting17 enrollment criteria

Studying the Effect of Levocarnitine in Protecting the Liver From Chemotherapy for Leukemia or Lymphoma...

B Acute Lymphoblastic LeukemiaB Acute Lymphoblastic Leukemia With t(9;22)(q34.1;q11.2); BCR-ABL15 more

This phase III trial compares the effect of adding levocarnitine to standard chemotherapy vs. standard chemotherapy alone in protecting the liver in patients with leukemia or lymphoma. Asparaginase is part of the standard of care chemotherapy for the treatment of acute lymphoblastic leukemia (ALL), lymphoblastic lymphoma (LL), and mixed phenotype acute leukemia (MPAL). However, in adolescent and young adults (AYA) ages 15-39 years, liver toxicity from asparaginase is common and often prevents delivery of planned chemotherapy, thereby potentially compromising outcomes. Some groups of people may also be at higher risk for liver damage due to the presence of fat in the liver even before starting chemotherapy. Patients who are of Japanese descent, Native Hawaiians, or are Hispanic or Latinx may be at greater risk for liver damage from chemotherapy for this reason. Carnitine is a naturally occurring nutrient that is part of a typical diet and is also made by the body. Carnitine is necessary for metabolism and whose deficiency or absence is associated with liver and other organ damage. Levocarnitine is a drug used to provide extra carnitine. Laboratory and real-world usage of the dietary supplement levocarnitine suggests its potential to prevent or reduce liver toxicity from asparaginase, The overall goal of this study is to determine whether adding levocarnitine to standard of care chemotherapy treatment will reduce the chances of developing severe liver damage from asparaginase chemotherapy in ALL, LL and/or MPAL patients.

Recruiting22 enrollment criteria

Levocarnitine and Vitamin B Complex in Treating PEG-Asparaginase or Inotuzumab Ozogamicin-Induced...

Acute Lymphoblastic LeukemiaHyperbilirubinemia

This phase II trial studies how well levocarnitine and vitamin B complex works in treating abnormal high liver enzyme levels (hyperbilirubinemia) caused by treatment with PEG-asparaginase or inotuzumab ozogamicin in patients with acute lymphoblastic leukemia. Amino acids, such as levocarnitine, may work in normalizing liver enzyme levels due to treatment. Vitamin B complex is a dietary supplement that may be used for patients with nutritional deficiencies. Giving levocarnitine and vitamin B complex may work better in treating hyperbilirubinemia in patients with acute lymphoblastic leukemia.

Recruiting6 enrollment criteria

Early Clonal Dynamics During Venetoclax Treatment for Relapsed or Refractory Chronic Lymphocytic...

Chronic Lymphocytic Leukemia

Background: The drug venetoclax treats chronic lymphocytic leukemia (CLL). Researchers want to find better treatments for CLL. To do that, they need to learn how the drug affects CLL cancer cells and the immune system. Objective: To learn about genetic changes that happen during treatment of CLL with venetoclax. Eligibility: Adults ages 18 and older with relapsed or refractory CLL after at least 1 prior therapy Design: Participants will be screened under a separate protocol. In Phase 1, participants will get venetoclax free of charge through the NIH. Venetoclax is started at a low dose. The dose will be increased every week until participants reach their maximum tolerable dose. This usually take about 5 weeks. Participants will visit the NIH at least once per week. Visits will be about 4 hours. They may have to stay in the hospital to be observed. In Phase 2, participants will continue to get the drug through their local cancer doctor and their health insurance. Patients will also visit the NIH every 6 months, or if their disease progresses. At the NIH participants will have regular health assessments. These will include physical exams and a review of the medicines they are taking. They will talk about how they are feeling. The study included the following tests: Blood draws CT scans: Participants will lie in a machine that takes pictures of the body (maximum 3 per year) Bone marrow biopsies: A small amount of marrow will be taken out of the participant s hip bone with a needle. Optional lymph node biopsies: A small piece of the participant s tissue will be taken out with a needle. The study will last at least 2 years.

Recruiting35 enrollment criteria
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