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Find 891 clinical trials for leukemia near Washington. Connect with research centers in your area.
Showing 701-720 of 891 trials
NCT00828139
This randomized phase II trial is studying topotecan to see how well it works when given with or without aflibercept in treating patients with extensive-stage small cell lung cancer. Drugs used in chemotherapy, such as topotecan, work in different ways to stop the growth of tumor cells, either by killing the cells or by stopping them from dividing. Combinations of biological substances in aflibercept may be able to carry tumor-killing substances directly to small cell lung cancer cells. Aflibercept may also stop the growth of small cell lung cancer by blocking blood flow to the tumor. It is not yet known whether topotecan is more effective with or without aflibercept in treating patients with small cell lung cancer.
NCT00622193
The purpose of this study is to evaluate doses of anamorelin for safety and efficacy in patients with non-small cell lung cancer.
NCT00073918
This phase II trial is studying how well giving iodine I 131 tositumomab together with etoposide and cyclophosphamide followed by autologous stem cell transplant works in treating patients with relapsed or refractory non-Hodgkin's lymphoma. Radiolabeled monoclonal antibodies, such as iodine I 131 tositumomab, can find cancer cells and deliver radioactive cancer-killing substances to them without harming normal cells. Drugs used in chemotherapy, such as etoposide and cyclophosphamide, work in different ways to stop the growth of cancer cells, either by killing the cells or by stopping them from dividing. Combining a radiolabeled monoclonal antibody with combination chemotherapy before autologous stem cell transplant may kill more cancer cells
NCT00437060
This clinical trial is looking at brain function in young patients receiving methotrexate for acute lymphoblastic leukemia. Learning about the long-term effects of methotrexate on brain function may help doctors plan cancer treatment.
NCT01317901
This was a Phase 1 multicenter study of bendamustine, rituximab and TRU-016 (BRT) in subjects with relapsed indolent B-cell lymphoma. This was a multiple-dose escalation study to determine the maximum-tolerated dose (MTD) of TRU-016 given in combination with rituximab and bendamustine and to determine a safe dosing regimen for the combination in up to 12 subjects with relapsed indolent lymphoma. The originally planned Phase 2 portion, an open-label, randomized study to evaluate the efficacy of BRT compared with BR, was not conducted.
NCT00662311
This phase I/II trial studies the side effects and best dose of vorinostat when given together with paclitaxel and radiation therapy and to see how well it works in treating patients unable to tolerate cisplatin with stage III non-small cell lung cancer (NSCLC) that cannot be removed by surgery. Vorinostat may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth. Drugs used in chemotherapy, such as paclitaxel, work in different ways to stop the growth of tumor cells, either by killing the cells or by stopping them from dividing. Radiation therapy uses high-energy x-rays to kill tumor cells. Giving vorinostat together with paclitaxel and radiation therapy may kill more tumor cells
NCT00003875
This phase II trial studies the side effects and how well giving busulfan and etoposide followed by peripheral blood stem cell transplant (PBSCT) and low-dose aldesleukin works in treating patients with acute myeloid leukemia (AML). Drugs used in chemotherapy, such as busulfan and etoposide, work in different ways to stop the growth of cancer cells, either by killing the cells or by stopping them from dividing. A PBSCT may be able to replace blood-forming cells that were destroyed by chemotherapy. This may allow more chemotherapy to be given so that more cancer cells are killed. Aldesleukin may stimulate the white blood cells to kill cancer cells. Giving busulfan and etoposide together followed by PBSCT and aldesleukin may be an effective treatment for AML.
NCT01457885
Although transplant results for AML in complete remission (CR) at the time of transplant have improved, transplant results for non-remission AML have been quite poor. Most multi-center studies have focused on standard risk AML patients and not many studies have been done in this population of patients with non-remission AML. There are a large number of older patients with non-remission AML because the complete remission rate with induction chemotherapy decreases with age. Such older patients do not tolerate conventional full intensity conditioning regimens. Thus, an effective and tolerable conditioning regimen for non-remission AML is a great unmet need for current transplant practice. From the investigators earlier study, it is suggested that replacing Fludarabine of standard FluBu4 regimen by Clofarabine (a related drug with much more potent anti-leukemia effect) in the transplant conditioning regimen may potentiate the anti-tumor activity of the conditioning regimen without adding significant toxicity, a goal of new conditioning regimen development. The investigators expect to enroll a total of 75 patients from about fifteen sites. The investigators main objective is to confirm both the safety and efficacy as measured by one-year overall survival, of the CloBu4 combination as full intensity conditioning for non-remission acute myelogenous leukemia.
NCT00673153
RATIONALE: Vorinostat may stop the growth of cancer cells by interfering with various proteins needed for cell growth. Monoclonal antibodies, such as gemtuzumab ozogamicin (GO), can block cancer growth in different ways. GO finds cancer cells and helps kill them by carrying a cancer-killing substance to them. Giving vorinostat together with gemtuzumab ozogamicin may kill more cancer cells. PURPOSE: This phase II trial is studying how well giving vorinostat together with gemtuzumab ozogamicin works in treating older patients with previously untreated acute myeloid leukemia.
NCT00112593
This clinical trial studies the side effects and best dose of giving fludarabine and total-body irradiation (TBI) together followed by a donor stem cell transplant and cyclosporine and mycophenolate mofetil in treating human immunodeficiency virus (HIV)-positive patients with or without cancer. Giving low doses of chemotherapy, such as fludarabine, and TBI before a donor bone marrow or peripheral blood stem cell transplant helps stop the growth of cancer or abnormal cells and helps 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 cyclosporine (CSP) and mycophenolate mofetil (MMF) after the transplant may stop this from happening.
NCT01083706
This phase II trial studies how well azacitidine works in treating patients with relapsed myelodysplastic syndrome (MDS), chronic myelomonocytic leukemia (CMML), or acute myeloid leukemia (AML) who have undergone stem cell transplant. Drugs used in chemotherapy, such as azacitidine, work in different ways to stop the growth of cancer cells, either by killing the cells or by stopping them from dividing.
NCT00555048
RATIONALE: Monoclonal antibodies, such as alemtuzumab, can find cancer cells and either kill them or deliver cancer-killing substances to them without harming normal cells. Giving chemotherapy drugs, such as busulfan and cyclophosphamide, before a donor stem cell transplant helps stop the growth of cancer cells. When the healthy stem cells from a donor are infused into the patient they may help the patient's bone marrow make stem cells, red blood cells, white blood cells, and platelets. Sometimes the transplanted cells from a donor can make an immune response against the body's normal cells. Giving tacrolimus and methotrexate after the transplant may stop this from happening. PURPOSE: This phase I/II trial is studying the best dose of alemtuzumab when given together with busulfan and cyclophosphamide followed by a donor stem cell transplant and to see how well it works in treating patients with hematologic cancer.
NCT02276560
The purpose of this research study is to determine whether giving cisplatin and nab-paclitaxel before surgery will reduce the presence of disease in certain areas of the lung at the time of surgery.
NCT01363297
The Phase 1 portion of this study will assess the safety, tolerability and efficacy at increasing dose levels of inotuzumab ozogamicin in subjects with CD22-positive relapsed or refractory adult acute lymphocytic leukemia (ALL) in order to select the recommended phase 2 dose (RP2D) and schedule. The Phase 2 portion of the study will evaluate the efficacy of inotuzumab ozogamicin as measured by hematologic remission rate (CR + CRi) in patients in second or later salvage status.
NCT02227108
The primary objective of this study is to evaluate the efficacy of moxetumomab pasudotox in pediatric participants with relapsed or refractory B-cell acute lymphoblastic leukemia (ALL) or B-cell lymphoblastic lymphoma.
NCT01007942
This phase III, double-blind, placebo-controlled multinational study will assess the combination everolimus, vinorelbine, and trastuzumab compared to the combination vinorelbine and trastuzumab with respect to progressive-free survival and over survival in HER2/neu positive women with locally advanced or metastatic breast cancer who are resistant to trastuzumab and have been pre-treated with a taxane.
NCT01868893
This is a multicenter, open-label, single-arm, expanded access treatment study designed to provide obinutuzumab to patients with previously untreated Chronic Lymphocytic Leukemia (CLL) in combination with chlorambucil and to evaluate the safety and efficacy of obinutuzumab administered in combination with chlorambucil. This study will enroll patients with previously untreated CD20-positive CLL requiring treatment according to the IWCLL guidelines (Hallek et al 2008), as assessed by the investigator.
NCT01500083
The purpose of the current study is to evaluate additional safety data of bendamustine in up to 100 patients with Indolent Non-Hodgkin's Lymphoma (iNHL) relapsing from a rituximab regimen or Chronic Lymphocytic Leukemia (CLL). Patients will receive up to 6 or 8 cycles of bendamustine treatment using the dosing regimens of TREANDA® (bendamustine) approved in several countries, which have been shown to be reasonably well tolerated. The study protocol includes safety monitoring (i.e., adverse events, concomitant medications, supportive care, clinical safety laboratory tests, and clinical disease status monitoring). It is an interventional, multicentre, prospective, open-label expanded access study, which in addition allows investigators in Canada, and their patients, access to bendamustine while it is pending Canadian marketing approval. Although the treatment options available for patients with iNHL or CLL do induce substantial responses, there is no curative treatment. One potential drug candidate for the treatment of CLL and iNHL is bendamustine. Bendamustine has been widely used in Germany for more than 30 years and is marketed in the United States for treatment of CLL and for treatment of iNHL that has progressed during or within 6 months of treatment with rituximab or a rituximab-containing regimen. In October 2010, the European Medicines Agency formally approved bendamustine in a number of Member States of the European Union for the treatment of patients with iNHL, CLL, and multiple myeloma. The drug's safety profile in these patient populations has been extensively characterized and no unexpected safety concerns are anticipated.
NCT01260831
The purpose of this study is to evaluate the impact of Bedside Paediatric Early Warning System (Bedside-PEWS) on early identification of children at risk for near and actual cardiopulmonary arrest, hospital mortality, processes of care and PICU resource utilization.
NCT01237886
Knowing when to liberate patients from mechanical ventilation (i.e. removal of breathing or endotracheal tube or extubation) is critically important, as both prolonged ventilation and failed extubation are both associated with harm and risk of death. Our objective is to improve the safety of extubation by harnessing hidden information contained in the patterns of variation of heart and respiratory rate measured over intervals-in-time. Currently, to assess a patient's ability to be extubated, a spontaneous breathing trial (SBT) is routinely performed, where the level of ventilator support is reduced, and their response is observed in order to help predict if they will tolerate extubation (i.e. complete removal of ventilator support). Given that health is associated with a high degree of variation of physiologic parameters (e.g. heart and respiratory rate), and illness \& stress are associated with a loss of variability, the investigators aim to uncover the loss of variation as a measure of stress during SBT's. The investigators hypothesize that maintaining stable heart rate and respiratory rate variability (HRV and RRV) throughout the SBT will predict subsequent successful extubation, and conversely, a reduction in either HRV or RRV manifest during a SBT predicts extubation failure. A pilot study has demonstrated feasibility, and compelling preliminary results. A website, centralized data storage and analysis, and a trans-disciplinary team of scientists are in place to definitively test this novel technology. Determination of when to extubate critically ill patients remains a high-stakes clinical challenge; and improved prediction of extubation failure has potential to save lives and reduce costs in critically ill patients.