15 Clinical Trials for Various Conditions
A Study of Bafetinib as Treatment for Patients with Relapsed or Refractory B-Cell Chronic Lymphocytic Leukemia (B-CLL).
This is an open-label, dose escalation study designed to characterize the safety, tolerability, efficacy, and pharmacokinetics of GNKG168 in patients with B-CLL that has relapsed or is refractory to all prior standard therapy, or for which no standard therapy exists.
The purpose of this study is to determine the maximum tolerated dose (MTD), safety and toxicity when cyclophosphamide, rituximab and lenalidomide (Revlimid) are combined for the treatment of relapsed/refractory of chronic lymphocytic leukemia (CLL) and small lymphocytic lymphoma (SLL).
This is a multi-center, Phase II, open label trial evaluating the efficacy and safety of alemtuzumab and fludarabine in the treatment of B-cell chronic lymphocytic leukemia (B-CLL) patients who have received at least one prior therapy. Treatments will be administered on a 28-day cycle for 4-6 cycles, with an evaluation during Cycle 4 to permit re-staging. Alemtuzumab and fludarabine will be administered on Days 1-5 of each cycle. Patients will be assessed for response at the time of re-staging at Cycle 4 and at the end of Cycle 6. At the time of the re-staging, patients achieving a Partial Remission (PR) or Stable Disease (SD) will be given an additional 2 cycles of treatment and patients demonstrating presumptive signs of a Complete Remission (CR) will receive no further treatment but will be followed for response.
This is a Phase 3, prospective, multicenter, open-label, randomized, controlled study to evaluate and compare the efficacy and safety of fludarabine plus alemtuzumab versus fludarabine alone as second-line therapy for patients with relapsed or refractory B-cell chronic lymphocytic leukemia (B-CLL). Patients who meet all eligibility criteria and sign the informed consent document may be entered on the study.
B type chronic lymphocytic leukemia (B-CLL) is the most prevalent leukemia in the western world. It is a disease that occurs primarily in aging individuals and occurs more frequently in males than females. Although B-CLL was considered a homogeneous condition, recent studies by our laboratory and others suggest that B-CLL cases can be divided into two subgroups. These sub-groups can be identified by either the presence or the absence of mutations in antibody genes and/or by the percentage of B-CLL cells expressing a particular protein called CD38. These two sub-groups (unmutated antibody genes high percent CD38 and mutated antibody genes low percentage CD38) follow strikingly clinically different courses. For example, the unmutated/CD38+ group experiences a much more aggressive disease and these patients almost invariably die much sooner than the cases in the other group. In addition, the patients in the mutated CD38+ group require much more chemotherapy than mutatedlCD38-. Finally, surprisingly there is a much higher representation of males in the poor outcome unmutated CD38 group than in the better outcome group. The reasons for these differences in clinical outcome and gender bias are unknown.
This is a Phase II, open-label, prospective, multicenter study to evaluate the efficacy and safety of subcutaneously administered alemtuzumab (CAMPATH, MabCampath) as therapy for patients with relapsed or refractory B-CLL who have been previously treated.
We would like patients to be in a research study to determine the safety and effectiveness of special cells that may make their own immune system fight their cancer. To do this, we will put a special gene into cancer cells that have been taken from the patients body. This will be done in the laboratory. This gene will make the cells produce interleukin 2 (IL-2), which is a natural substance that may help their immune system kill cancer cells. Additionally, we will stimulate the cancer cells with normal embryonic fibroblasts (cells that develop into normal connective tissues in the body) so that they will make another natural protein called CD40 ligand (CD40L). Studies of cancers in animals suggest IL-2 performs better when mixed with CD40L. Some of these cells will then be put back into the patients body with the goal that they will act like a vaccine and stimulate their immune system to attack the CLL cells. Studies of cancers in animals and in cancer cells that are grown in laboratories suggest that combining substances like IL-2 and CD40L with cancer cells help the body recognize and kill cancer cells. We have already conducted a study similar to this in patients with CLL. In that study, the subjects received about three months of injections (shots). In those subjects we saw some changes in the subject's immune system that might indicate that the modified cells were helping their immune system fight the cancer. However, in most of the subjects this change in the immune system went away after the injections were stopped. In this study we want to see if we can make the change in the immune system last longer by giving more injections over a longer period of time. We hope that this might produce a better response directed at the CLL cells. We will also be looking at the effect on cells called cancer stem cells which grow into the CLL cells we see in the blood. Specifically, this study will allow subjects to receive the injections for up to one year.
The goal of this clinical research study is to find the highest tolerable dose of T cells that can be given in combination with standard chemotherapy to patients with CLL. The safety of this combination will also be studied. The T cells being used in this study are a type of white blood cell that will be taken from your blood and then genetically changed in a laboratory. The process of changing the DNA (the genetic material of cells) of the T cells is called a gene transfer. After the gene transfer is complete, the genetically changed T-cells will be put back into your body. These T cells may help prevent cancer cells from coming back.
This is a research study to determine the safety and effectiveness of using special cells that may make the subject's immune system fight their chronic lymphocytic leukemia (CLL) in combination with a drug called Lenalidomide. To do this, the investigators will put a special gene into cancer cells that have been taken from the subject. This will be done in the laboratory. This gene will make the cells produce interleukin 2 (IL-2), which is a natural substance that may help the subject's immune system kill cancer cells. Additionally, the investigators will stimulate the cancer cells with normal embryonic fibroblasts (cells that develop into normal connective tissues in the body) so that they will make another natural protein called CD40 ligand (CD40L). Some of these cells will then be put back into the subject's body with the goal that they will act like a vaccine and stimulate the immune system to attack the CLL cells. The investigators have already conducted a study similar to this in other subjects with CLL. In those subjects the investigators saw some changes in the subject's immune system that might indicate that the modified cells were helping their immune system fight the cancer. However, in most of the subjects this change in the immune system went away after the injections were stopped. The investigators think that this may be due to a high level of cells called T regulatory cells. T regulatory cells are part of the immune system and prevent excessive reactions from other cells in the body. Studies have shown that reducing T regulatory cells allows the body to fight the cancer for a longer period of time. Recent studies have shown that using Lenalidomide helps the body reduce T regulatory cells. Using Lenalidomide along with the injections (shots) might help the body fight the cancer for a longer period of time. Lenalidomide is also called Revlimid. In this study the investigators want to see if they can make the change in the immune system last longer by giving Lenalidomide before and at the same time as the vaccine. The investigators hope that this might produce a better response directed at the CLL cells. Subjects will receive injections for about a year
Eligible CLL patients who sign an informed consent will be started on hydroxychloroquine 400mg po daily for up to one year. They will be monitored for disease status as well as adverse reactions after two weeks and then every 4 weeks. Ophthalmologic exams is required at baseline and every 6 months or sooner if the patient develops any visual disturbances.
This is a Phase 2, open-label, multicenter, efficacy, safety, and pharmacodynamic study of CX-3543 in patients with relapsed or refractory B-cell chronic lymphocytic leukemia (CLL).
To investigate the safety and efficacy of two dose regimes of ofatumumab in combination with chemotherapy in previously untreated patients with B-CLL
This study is for patients that have chronic lymphocytic leukemia (CLL). This research study aims to determine the safety and dosage of special cells that may make the patients own immune system fight the cancer. To do this, we will put a special gene into cancer cells that have been taken from the patients body. This will be done in the laboratory. This gene will make the cells produce interleukin 2 (IL-2), which is a natural substance that may help the immune system kill cancer cells. Additionally, we will stimulate the cancer cells with another natural protein called CD40 ligand (CD40L), which experiments in animal and human cells in vitro demonstrated can help IL-2 perform better. Some of these cells will then be put back into the patient's body. Studies of cancers in animals and in cancer cells that are grown in laboratories suggest that combining substances like IL-2 and CD40L helps the body kill cancer cells. An experimental treatment similar to this has already been used in children and similar experimental treatments are being used in adults with other cancers.
Lenalidomide belongs to a group of drugs called immunomodulatory drugs (IMiD) that can modify or regulate the functioning of the immune system. It is an FDA approved drug for people with multiple myeloma. It is not currently approved for use in Chronic Lymphocytic Leukemia (CLL), but it does appear effective in CLL when used alone, and is being studied for use in combination with chemotherapy in this and other lymphomas and leukemias. In this research study we are hoping to learn more about the effects of lenalidomide on CLL when given in combination with bendamustine and rituximab, which is a highly effective regimen for initial therapy of CLL/SLL. The investigators will be looking for the highest dose of lenalidomide that can be given safely, without causing any serious or unmanageable side effects.