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Active clinical trials for "Leukemia, Lymphoid"

Results 511-520 of 2205

Blinatumomab and Combination Chemotherapy or Dasatinib, Prednisone, and Blinatumomab in Treating...

Acute Lymphoblastic LeukemiaB Acute Lymphoblastic Leukemia3 more

This phase II trial studies the side effects and how well blinatumomab and combination chemotherapy or dasatinib, prednisone, and blinatumomab work in treating older patients with acute lymphoblastic leukemia. Immunotherapy with monoclonal antibodies, such as blinatumomab, may help the body's immune system attack the cancer, and may interfere with the ability of tumor cells to grow and spread. Chemotherapy drugs, such as prednisone, vincristine sulfate, methotrexate, and mercaptopurine, work in different ways to stop the growth of cancer cells, either by killing the cells, by stopping them from dividing, or by stopping them from spreading. Dasatinib may stop the growth of cancer cells by blocking some of the enzymes needed for cell growth. Giving blinatumomab with combination chemotherapy or dasatinib and prednisone may kill more cancer cells.

Active72 enrollment criteria

Ponatinib With Chemotherapy for Young Adults Ph Positive Acute Lymphoblastic Leukemia

ALL

Evaluate the response (complete hematologic response [CHR], complete cytogenetic response [CCyR], major molecular response [MMR] and complete molecular response [CMR] of the combination of ponatinib with standard chemotherapy (according to PETHEMA ALL Ph08 trial) in young patients with Ph+ (BCR-ABL) ALL. All patients are treated with: Pre-phase (maximum 7 days, -7 to -1): Prednisone 60 mg/m2/day IV over 7 days (-7 a -1) and triple intrathecal therapy (TIT) (Methotrexate [MTX]: 12 mg, ARA-C: 30 mg, hydrocortisone: 20 mg). 2. Induction (day 1 to day 28 or up to hematological recovery) Vincristine (VCR): 1.5 mg/m2 (maximum 2 mg) IV days 1, 8, 15 and 22. Daunorubicin (DNR): 45 mg/m2 IV days 1, 8, 15 and 22. Prednisone (PDN): 60 mg/m2/day, IV or PO, days 1 to 27. Ponatinib 30 mg, PO from day 1 to consolidation. TIT, days 1 and 22. 3. Consolidation (day 1 to day 63) Mercaptopurine (MP): 50 mg/m2, PO days 1 to 7, 28 to 35 and 56 to 63. MTX: 1,5 g/m2, IV (24 h continuous infusion) days 1, 28 and 56. VP-16: 100 mg/m2/12 h, IV, days 14 and 42. ARA-C: 1000 mg/m2/12 h, IV, days 14-15 and 42-43. TIT (MTX: 12 mg, ARA-C: 30 mg, hydrocortisone: 20 mg), , days 1, 28 and 56. Ponatinib 30 mg/d PO, from day 1 to 15 days before HSCT. 4. HSCT (performed ideally within 1 month from the end of consolidation). AlloHSCT preferred over autoHSCT (autoHSCT only indicated if alloHSCT not feasible). Myeloablative conditioning with cyclophosphamide and total body irradiation (TBI) whenever possible. 5. Post HSCT therapy After alloHSCT. Frequent monitoring of MRD (every month). I After autoHSCT: Frequent monitoring of MRD (every month).

Active29 enrollment criteria

A Novel "Pediatric-Inspired" Regimen With Reduced Myelosuppressive Drugs for Adults (Aged 18-60)...

Leukemia

The purpose of the study is to find out whether the combination of chemotherapy drugs that are routinely used in children with ALL, will be safe and effective in treating adult patients with ALL. The standard treatment for adults with ALL consists of many chemotherapy drugs that are given in different combinations and in several steps. In adult ALL there is no standard which drugs to give and how to combine them. Some leukemias have a chromosome abnormality called Philadelphia chromosome (also called Ph Positive) and some leukemias do not (called Ph Negative). In this study we want to see whether this combination of chemotherapy drugs will be safe and effective in treating adult patients with Ph Negative ALL.

Active20 enrollment criteria

CPI-613 and Bendamustine Hydrochloride in Treating Patients With Relapsed or Refractory T-Cell Non-Hodgkin...

Adult Lymphocyte Depletion Hodgkin LymphomaAdult Lymphocyte Predominant Hodgkin Lymphoma15 more

This phase I trial studies the side effects and best dose of CPI-613 when given together with bendamustine hydrochloride in treating patients with relapsed or refractory T-cell non-Hodgkin lymphoma or Hodgkin lymphoma. CPI-613 may kill cancer cells by turning off their mitochondria, which are used by cancer cells to produce energy and are the building blocks needed to make more cancer cells. By shutting off mitochondria, CPI-613 may deprive the cancer cells of energy and other supplies needed to survive and grow. Drugs used in chemotherapy, such as bendamustine hydrochloride, work in different ways to stop the growth of cancer cells, either by killing the cells, by stopping them from dividing, or by stopping them from spreading. Giving CPI-613 with bendamustine hydrochloride may kill more cancer cells.

Active30 enrollment criteria

A Phase I/Ib Safety and Efficacy Study of the PI3K-delta Inhibitor TGR-1202 and Ibrutinib in Patients...

Chronic Lymphocytic Leukemia/Small Lymphocytic LymphomaMantle Cell Lymphoma

This research study will be evaluating the safety and efficacy of a study drug called TGR-1202 in combination with a known drug ibrutinib, also known as Imbruvica, as a possible treatment for Chronic Lymphocytic Leukemia/Small Lymphocytic Lymphoma (CLL/SLL) or Mantle Cell Lymphoma (MCL) that has come back or that has not responded to standard treatment.

Active20 enrollment criteria

Administration of Donor T Cells With the Caspase-9 Suicide Gene

Acute Lymphoblastic LeukemiaMyelodysplastic Syndrome8 more

Patients will be receiving a stem cell transplant as treatment for their disease. As part of the stem cell transplant, patients will be given very strong doses of chemotherapy, which will kill all their existing stem cells. A close relative of the patient will be identified, whose stem cells are not a perfect match for the patient's, but can be used. This type of transplant is called "allogeneic", meaning that the cells are from a donor. With this type of donor who is not a perfect match, there is typically an increased risk of developing GvHD, and a longer delay in the recovery of the immune system. GvHD is a serious and sometimes fatal side-effect of stem cell transplant. GvHD occurs when the new donor cells (graft) recognize that the body tissues of the patient (host) are different from those of the donor. In this study, investigators are trying to see whether they can make special T cells in the laboratory that can be given to the patient to help their immune system recover faster. As a safety measure, we want to "program" the T cells so that if, after they have been given to the patient, they start to cause GvHD, we can destroy them ("suicide gene"). Investigators will obtain T cells from a donor, culture them in the laboratory, and then introduce the "suicide gene" which makes the cells sensitive to a specific drug called AP1903. If the specially modified T cells begin to cause GvHD, the investigators can kill the cells by administering AP1903 to the patient. We have had encouraging results in a previous study regarding the effective elimination of T cells causing GvHD, while sparing a sufficient number of T cells to fight infection and potentially cancer. More specifically, T cells made to carry a gene called iCasp9 can be killed when they encounter the drug AP1903. To get the iCasp9 gene into T cells, we insert it using a virus called a retrovirus that has been made for this study. The AP1903 that will be used to "activate" the iCasp9 is an experimental drug that has been tested in a study in normal donors with no bad side-effects. We hope we can use this drug to kill the T cells. The major purpose of this study is to find a safe and effective dose of "iCasp9" T cells that can be given to patients who receive an allogeneic stem cell transplant. Another important purpose of this study is to find out whether these special T cells can help the patient's immune system recover faster after the transplant than they would have otherwise.

Active25 enrollment criteria

PCI-32765 for Special Cases of Chronic Lymphocytic Leukemia or Small Lymphocytic Lymphoma

LeukemiaLeukemia3 more

Background: - Chronic lymphocytic leukemia and small lymphocytic lymphoma (CLL/SLL) are types of blood or lymph node cancers that mostly affect the elderly. CLL/SLL both create abnormal white blood cells that hurt the immune system and make it more difficult to fight infections. These cancers are usually diagnosed after age 50; more than half of the people with CLL/SLL are over age 70. Elderly people often do not respond well to standard chemotherapy for CLL/SLL. They may have other health problems that make chemotherapy difficult. In addition, individuals who have a genetic abnormality called 17p deletion also do not respond well to standard treatments for CLL/SLL. Researchers want to test a new cancer treatment drug, PCI-32765, to see if it can treat CLL/SLL in these hard-to-treat groups. Objectives: - To see if PCI-32765 is a safe and effective treatment for CLL/SLL in older people and people with 17p deletion. Eligibility: Individuals over 65 years of age who have CLL/SLL. Individuals at least 18 years of age who have CLL/SLL and 17p deletion. Design: Participants will be screened with a medical history, physical exam, and imaging studies. Blood and urine samples will be taken. Optional bone marrow and lymph node biopsies may also be taken. Participants will take PCI-32765 capsules every day for 28 days (one cycle of treatment). Treatment will be monitored with frequent blood tests and clinic visits. PCI-32765 will be given for six cycles of treatment. Those who benefit from the drug will continue to take it as long as there are no side effects and the disease does not progress. Those who do not benefit will stop treatment and have regular followup exams.

Active38 enrollment criteria

T-cells or EBV Specific CTLs, Advanced B-Cell NHL and CLL

Non-Hodgkin LymphomaChronic Lymphocytic Leukemia

Patients on this study have a type of lymph gland cancer called non-Hodgkin Lymphoma or chronic Lymphocytic Leukemia. Their lymphoma or CLL has come back or has not gone away after treatment. Because there is no standard treatment for the cancer at this time or because the currently used treatments do not work fully in all cases, patients are being asked to volunteer to take part in a gene transfer research study using special immune cells. The body has different ways of fighting infection and disease. No single way seems perfect for fighting cancers. This research study combines two different ways of fighting disease: antibodies and T cells. Antibodies are types of proteins that protect the body from infectious diseases and possibly cancer. T cells, also called T lymphocytes, are special infection-fighting blood cells that can kill other cells, including cells infected with viruses and tumor cells. Both antibodies and T cells have been used to treat patients with cancers. They have shown promise, but have not been strong enough to cure most patients. The antibody used in this study is called anti-CD19. This antibody sticks to lymphoma cells because of a substance on the outside of these cells called CD19. CD19 antibodies have been used to treat people with lymphoma and CLL. For this study, the anti-CD19 antibody has been changed so that instead of floating free in the blood it is now attached to T cells. When an antibody is joined to a T cell in this way it is called a chimeric receptor. These chimeric receptor-T cells seem to be able to kill tumors, but they don't last very long and so their chances of fighting the cancer are limited. Investigators found that T cells work better if they also attach a protein called CD28 to the T cells. This protein makes the T cells more active and survive longer. Also they found that T cells that are also trained to recognize the virus that causes infectious mononucleosis (called Epstein Barr Virus or EBV) can stay in the blood stream for many years. These CD19-CD28 chimeric receptor T cells and CD19 chimeric-EBV specific T cells are investigational products not approved by the FDA. The purpose of this study is to find the biggest dose of chimeric T cells that is safe to administer, to see how long each of the T cell populations (CD19-CD28 and CD19-EBV-specific) last, to assess what the side effects are, and to evaluate whether this therapy might help people with lymphoma or CLL.

Active21 enrollment criteria

Treatment of Relapsed or Chemotherapy Refractory Chronic Lymphocytic Leukemia or Indolent B Cell...

Leukemia

RATIONALE: Using T cells from the patient that have been treated in the laboratory may help the body build an effective immune response to kill cancer cells. Drugs used in chemotherapy, such as cyclophosphamide, work in different ways to stop the growth of cancer cells, either by killing the cells or by stopping them from dividing. Giving laboratory-treated T cells together with cyclophosphamide may kill more cancer cells. PURPOSE: This is a two-stage protocol, consisting of a single-institution phase I safety study and multi-institution phase IIa extension study.

Active19 enrollment criteria

Quantitative MRI of Bone Marrow in Patients With Acute Lymphoblastic Leukemia

Acute Leukemia

The study is aimed at assessing changes in the bone marrow of patients from 6 to 18 years old with a diagnosis of acute lymphoblastic leukemia during chemotherapy. Patients of the same age without hematological diseases will be recruited as a control group.

Recruiting5 enrollment criteria
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