Active clinical trials for "Leukemia"

Diagnosis: Acute myeloid leukemia; Acute lymphoblastic leukemia Age ≥ 18 years, no upper age limit Study drug: Palbociclib Phase Ib/IIa, open-label Phase Ib: Based on previous experience with 125 mg palbociclib once daily for 21 days followed by 7 days of rest in patients with breast cancer, liposarcoma, non-small cell lung cancer, hepatocellular carcinoma, ovarian cancer, mantle-cell lymphoma, and glioblastoma, this regimen will be chosen for the first dose to be evaluated in the phase Ib. Based on a 3 + 3 modified Fibonacci design, the tolerable dose of palbociclib for the phase IIa is defined. Phase IIa: single-agent palbociclib using the tolerable dose defined in the phase Ib part of the study is administered once daily for 21 days followed by 7 days of rest. Based on the optimal two-stage design of Simon, 21 patients are treated in the first stage. If results are positive, 29 additional patients will be recruited into the second stage of the study. An efficacy of the investigational therapy will be rejected in the first stage of 21 treated patients if two or less patients achieve complete remission (CR), CR with incomplete blood count recovery (CRi), partial remission (PR), or anti-leukemic effect (ALE). If three or more patients achieve CR, CRi, PR, or ALE during this first stage, the trial is intended to be continued in the second stage with a total sample size of 50 patients. Start of recruitment: July 2015 End of recruitment: July 2017 End of study (last patient out): July 2018 The treatment duration of an individual patient is estimated to be 2-6 months, but may be unlimited in patients with sustained response ("case-by-case decision"). Observation time per patient after entry into the study (incl. treatment) is at least 12 months.

The present study aims at evaluating whether treatment with two different drugs, Ibrutinib and Rituximab is both efficient and safe for newly diagnosed patients with chronic lymphocytic leukemia.

The aim of our study is to improve the major molecular remission(MMR) rate and reduce the cost to treat ph(+) Acute Lymphoblastic Leukemia (ALL) by adjusting chemotherapy regimens and the dosage of Tyrosine Kinase Inhibitor (TKI). lower the classification of chemotherapy drugs, lower the side effect brought by which this would be a grateful news for the patients once this regimens gain a successful result, which is also the final aim of our efforts.

Evaluate the effect of the addition of inecalcitol to decitabine treatment on overall survival in previously untreated AML patients aged 65 years or more who are randomly assigned to receive decitabine with or without inecalcitol.

Relapsed acute myeloblastic leukemia (AML) requires remission prior to allogeneic Hematopoietic Stem Cell Transplant (HSCT) for optimal survival, but is a disease with poor response to chemotherapy. Human leukocyte antigen (HLA) haploidentical, Natural killer (NK) enriched peripheral blood cell infusions have shown safety in patients with poor prognosis AML. Though not powered for such an assessment, this trial showed a promising but not statistically significant trend in remission rate. NK cell therapy was limited by small numbers of NK cells attainable through leukapheresis. We have now demonstrated that large numbers of NK cells can be propagated ex vivo from a small volume blood draw, obviating the need for donor leukapheresis. The purpose of this trial is to determine the feasibility and maximum tolerated dose of expanded NK cells and estimate the toxicity of treating relapsed/refractory AML with fludarabine + high-dose cytarabine + G-CSF (FLAG) chemotherapy followed by haploidentical expanded natural killer (NK) cells. The first NK cell dosing cohort will be well below the currently-established safe dose of pheresis-derived NK cells, as expanded NK cells may have increased toxicity because of their activated phenotype. In order to avoid accruing patients at suboptimal doses, a dose escalation schema based on the principles of an accelerated titration design is used in this study to allow expeditious advancement up to the current safe dose of NK cells.

The purpose of this study is to evaluate the safety and efficacy of chimeric antigen receptor 19 (CD19-CAR-T2 Cells) infusions in patients with chemotherapy resistant or refractory CD19+ acute Leukemia.

CLAG-M is an active, well tolerated regimen in acute myelogenous leukemia. Each of the agents is active in Acute Lymphoblastic Leukemia (ALL) as well. The current trial will determine the efficacy of the regimen in patients with relapsed ALL.

This is a phase 1 study to test the safety of escalating doses of elesclomol sodium given to patients with advanced myeloid leukemia.

The treatment of adult B-cell acute lymphoblastic leukaemia (ALL) has progressed considerably in the past 3 decades, particularly due to intensification of chemotherapies, improved supportive care and the incorporation of stem cell transplantation. However, the maximum tolerability of standard chemotherapeutics has been reached in ALL. Using conventional chemotherapy, 80-85% of adults with ALL will achieve a complete remission (CR). Unfortunately treatment at relapse is generally unsuccessful and rarely results, in long-term survival (7% survival at 5 years). Therefore, the investigators are exploring novel treatment strategies through the use of monoclonal antibodies (MoAbs) directed at surface antigens on leukaemic blasts. Using MoAbs directed against surface proteins on B cells has had excellent results in other B-cell diseases such as low and high grade non-Hodgkin lymphomas, without additional toxicity. There has also been limited evidence from small studies and case reports of the efficacy of MoAbs in ALL. This is a Phase I/II study to determine the safety and tolerability of the combination of veltuzumab and epratuzumab with intensive chemotherapy in patients with relapsed B-cell ALL. A maximum of 51 patients will be treated with a combination of UKALL XII induction chemotherapy and the monoclonal antibodies veltuzumab and epratuzumab. Veltuzumab and epratuzumab are humanised monoclonal antibodies that target CD20 and CD22 surface proteins, respectively. Both of these proteins are expressed on ALL tumour B cells. One group of patients will receive modified UKALL XII chemotherapy + veltuzumab; a second, modified UKALL XII chemotherapy + epratuzumab and if limited toxicity is found in these first 2 groups, a third group will receive, modified UKALL XII chemotherapy + both veltuzumab and epratuzumab. Patients will be assessed for safety, tolerability and disease response. Safety and tolerability will be measured by the number of Dose Limiting Toxicities (DLTs) in each group. Disease response will be measured by the microscopic appearance of patient bone marrow samples at day 29, and by molecular tests for tumour cells in bone marrow.

To assess the role of Arsenic trioxide and/or ATRA during consolidation course in APL. It is hoped that the investigational arms will further increase the event-free survival at 2 years, with reduced toxicity and without increasing the relapse rate by comparison with a classical anthracycline-AraC consolidation regimen.