View clinical trials related to Follicular Lymphoma.
Filter by:The purpose of this study is to evaluate the safety and effectiveness of VELCADE when given in combination with rituximab in patients with Relapsed or Refractory Indolent B-Cell Lymphoma. This study will investigate if treatment with VELCADE and rituximab increases the time it takes your lymphoma to get worse.
This study will evaluate the safety and effectiveness of a combination of two antibodies, apolizumab and rituximab (Rituxan ), in treating B-cell lymphomas and chronic lymphocytic leukemia. Rituximab attaches to a molecule called CD20 on B-cell lymphomas and can cause significant shrinkage of these tumors in up to half of patients. However, it does not cure the lymphoma, which usually returns. Also, it is not as effective against leukemia. Apolizumab attaches to a protein called 1D10 on B-cell cancers and has also been able to shrink tumors in some patients. There is little experience apolizumab in patients with leukemia. This study will test whether the two antibodies together are more effective against these tumors than either one alone. Patients 18 years and older with B-cell lymphoma or chronic lymphocytic leukemia may be eligible for this study. Patients' leukemia or lymphoma cells must have both the CD20 and 1D10 antigen receptors and must have had at least one systemic treatment for their disease. Candidates are screened with a medical history and physical examination, blood and urine tests, electrocardiogram, x-rays and other imaging studies, and possibly a bone marrow aspirate (withdrawal of a small marrow sample through a needle inserted into the hip bone) and lumbar puncture (withdrawal of a small sample of cerebrospinal fluid-fluid that bathes the brain and spinal cord-through a needle placed between the bones in the lower back). Participants receive infusions of rituximab and apolizumab once a week for 4 weeks. The first patients in the study receive lower doses of apolizumab with standard doses of rituximab. If the apolizumab is well tolerated, subsequent patients are given higher doses. Patients are also given dexamethasone or another similar steroid, diphenhydramine (Benadryl ), and acetominophen (Tylenol ) to reduce reactions to the antibodies. After 4 weeks of treatment, patients are followed frequently to examine the response to treatment and evaluate drug side effects. Patients whose tumors do not grow during the 4 weeks of therapy may be offered another course of treatment at a later time. Participants are followed periodically after treatment ends until their disease worsens or the study ends. ...
Patients undergo chemotherapy until remission is obtained, or disease has been stable for two cycles of chemotherapy, or progressive disease develops. Three to six months after completion of chemotherapy, patients who have achieved complete clinical remission or minimal disease status receive a series of 5 injections (given 1-2 months apart) of a vaccine consisting of 0.5 mg autologous tumor-derived immunoglobulin (Id) conjugated to KLH. The vaccine is administered with subcutaneous QS-21 as an immunological adjuvant....
The idiotype of the immunoglobulin on a given B cell malignancy (Id) can serve as a clonal marker, and a previous pilot study in lymphoma patients has demonstrated that autologous Id protein can be formulated into an immunogenic, tumor specific antigen by conjugation to a carrier protein (KLH) and administration with an emulsion-based adjuvant. The goals of vaccine development in the current study are to develop vaccines: 1) with improved potency and 2) which are more effective at inducing cell-mediated immune responses. The selection of GM-CSF as the immunological "adjuvant" is a direct extension of our laboratory studies in small animal models demonstrating that GM-CSF can enhance the potency of the prototype Id-KLH vaccine by augmenting almost exclusively the cellular arm of the immune response. The objectives of this study are: 1) to evaluate cellular and humoral immune responses against the unique idiotype of the patient's lymphoma and 2) to evaluate the ability of the Id vaccine to clear the bone marrow of malignant cells detectable by pathologic examination or molecular examination (polymerase chain reaction amplification of the rearranged bcl-2 oncogene). The goal of this study is to treat previously untreated patients with follicular lymphomas to complete remission or minimal residual disease with ProMACE chemotherapy. Three to six months after completion of chemotherapy, in an effort to reduce the relapse rate (by eradicating microscopic disease resistant to chemotherapy), patients will receive an autologous Id vaccine administered in combination with GM-CSF. Id-KLH (0.5 mg) is administered subcutaneously. GM-CSF is administered subcutaneously locally with the vaccine on the day of vaccination and for the three consecutive days following vaccination as close to the initial vaccination site as possible at one of two doses (patients are randomized to either a high or low dose, 500 or 100 micrograms/m2). We plan to accrue 42 patients. Twenty-nine patients have been enrolled. Sixteen patients have entered and/or completed the vaccination phase. Patients have demonstrated significant lymphoproliferative responses specific for autologous idiotype of a magnitude which is significantly greater than previously observed.