View clinical trials related to Leukemia, Lymphoid.
Filter by:To evaluate whether HSCT from matched family or unrelated donors (MD) is equivalent to the HSCT from matched sibling donors (MSD). To evaluate the efficacy of HSCT from mismatched family or unrelated donors (MMD) as compared to HSCT from MSD/MD. To determine whether therapy has been carried out according to the main HSCT protocol recommendations. The standardisation of the treatment options during HSCT from different donor types aims at the achievement of an optimal comparison of survival after HSCT with survival after chemotherapy only. To prospectively evaluate and compare the incidence of acute and chronic GvHD after HSCT from MSD, from MD and from MMD.
Background: - Mantle cell lymphoma (MCL), chronic lymphocytic leukemia (CLL), multiple myeloma (MM), and other lymphoid malignancies are all incurable lymphoid malignancies that mainly affect persons in their late 60s and early 70s. Conventional chemotherapy can achieve high rates of clinical response, but relapse following these responses is almost universal. Patients with lymphoid malignancies relapse because their tumor cells become resistant to chemotherapy; therefore, new types of drugs are needed for better treatment responses. - The investigational drug ON 01910.Na has been shown to be active against MCL and CLL cells, but further research is needed to determine the most safe and effective dose for this drug. Objectives: - To determine the maximum tolerated dose (the highest dose that does not cause unacceptable side effects) of ON 01910.Na in patients with cancers of the lymphoid cells. - To study the effects that ON 01910.Na has on cancers of the lymphoid cells. Eligibility: - Patients 18 years of age and older who have been diagnosed with cancer of the lymphoid cells, and who have not been able to take or have not benefitted from existing treatment options. Design: - Evaluations before the treatment period: - Full medical history and physical examination, and pregnancy test for women. - Blood and urine tests. - Disease evaluation with computerized tomography (CT) scan, magnetic resonance imaging (MRI), electrocardiogram; bone marrow and lymph node biopsies; and skeletal x-rays, if clinically indicated. - Treatment with ON 01910.Na: - Different research subjects will receive increasing doses of ON 01910.Na to determine which dose is considered safe. - To reduce the risk of one rare serious side effect of treatment for myeloid malignancies, patients will take allopurinol 12 hours before and 7 days after each drug infusion, one 300 mg pill each day. - Cycles 1 2: Patients will be admitted to the clinical center for 2 days at the beginning of each cycle. Each cycle involves intravenous infusion of ON 01910.Na continuously for a period of 48 hours, followed by 12 days of observation. Researchers will try to maintain the schedule of 2 days of infusion every 14 days, but the interval between doses may be extended if patients experience delayed recovery blood counts. - Cycles 3 4: Patients who are doing well and choose to continue may receive an additional two cycles (2 days of inpatient infusion followed by 12 days of outpatient observation). At the end of cycle 4, researchers will determine if the disease is responding to therapy. Patients who experience side effects may continue to take ON 01910.Na at a lower dose or may stop receiving the drug. - Patients who respond well to four cycles of ON 01910.Na may be eligible for additional cycles of ON 01910.Na. - Patients who need to start another medication to treat their disease will stop taking ON 01910.Na, and the researchers will perform a final study visit 2 weeks after the last dose of ON 01910.Na. After that, participation in the study will be complete.
This phase II trial is studying how well giving treosulfan together with fludarabine phosphate and total-body irradiation followed by donor stem cell transplant works in treating patients with high-risk acute myeloid leukemia, myelodysplastic syndrome, acute lymphoblastic leukemia. Giving chemotherapy, such as treosulfan and fludarabine phosphate, and total-body irradiation before a donor bone marrow or peripheral blood stem cell transplant helps stop the growth of cancer cells. It may also stop the patient's immune system from rejecting the donor's stem cells. The donated stem cells may replace the patient's immune cells and help destroy any remaining cancer cells (graft-versus-tumor effect). Sometimes the transplanted cells from a donor can also make an immune response against the body's normal cells. Giving tacrolimus and methotrexate before and after transplant may stop this from happening
This study is for patients with chronic lymphocytic leukemia (CLL) who have not yet received any treatment for their disease. Current therapy for this disease includes the use of combination chemotherapy regimens containing Fludarabine and Rituximab, which have been found to be very effective for CLL. In this study, subjects will receive Fludarabine and Rituximab. After 3 cycles or 6 cycles of Fludarabine and Rituximab treatment, they will receive Lenalidomide. We are doing this research because we are attempting to improve the response, or outcome, of Fludarabine and Rituximab in previously untreated CLL patients. Lenalidomide is a drug that alters the immune system and it may also interfere with the development of tiny blood vessels that help support tumor growth. Therefore, in theory, it may reduce or prevent the growth of cancer cells. Lenalidomide is approved by the Food and Drug Administration (FDA) for treatment of specific types of myelodysplastic syndrome (MDS) and in combination with dexamethasone for patients with multiple myeloma (MM). MDS and MM are blood disorders that involve different types of blood cells. It is not approved for chronic lymphocytic leukemia. It is currently being tested in a variety of cancer conditions. In this case it is considered experimental. This research is being done because we are attempting to find a better treatment for chronic lymphocytic leukemia. We do not know the effect of Lenalidomide following the regimen of Fludarabine and Rituximab. The hypothesis of the study is that adding Lenalidomide after the standard treatment regimen of Fludarabine and Rituximab will have better outcomes than treatment with Fludarabine and Rituximab alone.
This clinical trial is studying how well giving fludarabine phosphate and melphalan together with total-body irradiation followed by donor stem cell transplant works in treating patients with hematologic cancer or bone marrow failure disorders. Giving low doses of chemotherapy and total-body irradiation before a donor peripheral blood stem cell transplant helps stop the growth of cancer cells or abnormal cells. It may also stop the patient's immune system from rejecting the donor's stem cells. The donated stem cells may replace the patient's immune cells and help destroy any remaining cancer or abnormal cells (graft-versus-tumor effect)
This is an open-label, Phase I study to determine the highest amount of the study drug, ON 01910.Na, that can be safety given to patients with high risk myelodysplastic syndromes (MDS) or refractory leukemias. Patients will receive ON 01910.Na (at a starting dose of 650 mg/m2) intravenously by 3-day continuous infusion once every 2 weeks. Successive courses will use longer infusion times and/or higher doses of the drug until toxicity, effectiveness, or ineffectiveness is recognized. In addition, the amount of drug in the blood will be measured, any antitumor activity will be documented, and the biological effect of ON 01910.Na on cell-cycle pathways will be evaluated in peripheral blood mononuclear cells.
Current therapeutic protocols for adult ALL consider MRD together with the baseline risk factors (age, WBC count, immunophenotype, cytogenetics) and speed in response to therapy for treatment decisions. On the other hand, the systematic use of allogeneic SCT for all adult patients (pts) with Ph- HR-ALL is still a matter of debate. The aim of the prospective study ALL-AR-03 from the Spanish PETHEMA Group was to evaluate the response to a differentiated therapy (chemotherapy or allogeneic SCT) according to early bone marrow blast clearance and MRD levels (assessed by cytofluorometry at the end of induction and consolidation therapy) in HR Ph- adult ALL patients.
Primary Objectives - To determine the safety and maximum tolerated dose (MTD) of Adenovirus-CD154 (Ad-ISF35) when it is injected directly into the lymph nodes of patients with CLL or SLL. Secondary Objectives - To determine and monitor clinical and biological responses in patients treated with injections of Ad-ISF35. - To determine how ISF35 works in CLL/SLL patients' cells.
Bone marrow transplants are one treatment option for people with leukemia or lymphoma. Family members or unrelated donors with a similar type of bone marrow usually donate their bone marrow to the transplant patients. This study will evaluate the effectiveness of a new type of bone marrow transplant-one that uses lower doses of chemotherapy and bone marrow donated from family members with only partially matched bone marrow-in people with leukemia or lymphoma.
RATIONALE: Nilotinib may stop the growth of cancer cells by blocking some of the enzymes needed for cell growth. Drugs used in chemotherapy work in different ways to stop the growth of cancer cells, either by killing the cells or by stopping them from dividing. Giving nilotinib together with combination chemotherapy may kill more cancer cells. PURPOSE: This phase II trial is studying how well giving nilotinib together with combination chemotherapy works in treating patients with newly diagnosed acute lymphoblastic leukemia.