View clinical trials related to Lymphoma.
Filter by:The clinical study entitled "A Phase I Study of Infusional Chemotherapy with the P-glycoprotein Antagonist PSC 833" seeks to determine the maximum tolerated dose for a proposed P-glycoprotein antagonist, PSC 833. PSC 833 is a cyclosporine analogue which is purportedly non-nephrotoxic and non-immunosuppressive. It has been shown in in-vitro studies to enhance chemosensitivity as well as cyclosporine and to be far better at increasing intracellular drug accumulation than the concentrations of verapamil which are clinically achievable. The purpose of this study is to define the maximum tolerated dose in combination with vinblastine, and to determine how the drug affects the pharmacokinetics of vinblastine. PSC 833 will most likely reduce the clearance of vinblastine, as reported for the parent compound, cyclosporine. This effect will increase the area under the curve (AUC) of vinblastine, may increase toxicity, and requires that the escalation scheme for PSC 833 be a conservative one. Initially, a 120 hour infusion of vinblastine will be given alone. Then 8 days of PSC 833 will follow to allow monitoring of adverse effects of PSC 833 alone. This first cycle of vinblastine will be given in the absence of PSC 833; in second and subsequent cycles both agents will be combined. Escalation of the PSC 833 will continue until a target concentration is reached, or until the maximum tolerated dose is reached. Clinical responses will be monitored in order to provide the best possible medical care to our patients.
Non-Hodgkin's lymphoma has been studied in the Pediatric Branch for at least 20 years, during which time a number of different treatment protocols have been used. Approximately 110 patients have apparently been cured of their lymphoma. The present protocol has no therapeutic component, but is designed to document the late effects that may have been encountered by our patients, either as a consequence of the disease or its treatment. In essence, patients who consent to participate will be asked a series of questions pertaining to the quality of their life and possible medical problems that they may be encountering. In addition, they will receive a complete physical examination and undergo non-invasive investigations designed to identify the presence of unsuspected late effects. Investigators in the Eye Clinic, Dental Clinic, Audiology, Cardiology and Endocrinology departments will participate in the protocol. As a part of the study, blood samples will be obtained to investigate the possibility that predisposing genetic factors may be identifiable in the patients normal cells (e.g., p53 mutations, evidence of DNA instability). If such abnormalities are detected, blood samples from family members will also be examined to determine whether the defect was inherited.
Patients with CD22(+) B-cell lymphomas will be treated with escalating doses as a 192 hr infusion of immunotoxin in a Phase I study to determine dose limiting toxicity evidence of response.
This is a phase I/II study of interleukin-1, G-CSF and high dose ICE chemotherapy with autologous bone marrow transplant in patients with relapsed breast, testicular and lymphoid cancers. The initial goal of this study was to define the toxicity of interleukin-1 administered for 7 days prior to ICE chemotherapy. A total of 22 patients have been treated with IL-1 and ICE and results showed a more rapid engraftment (4.5 days) with IL-1. A second cohort of 18 patients also received G-CSF and engraftment was further shortened in some subgroups. Overall, the median time to engraftment was 16 days with both IL-1 and G-CSF. Accrual will continue to further define the toxicity and efficacy of this regimen.
The purpose of this study is to determine efficacy of intrathecal mafosfamide, a preactivated derivative of cyclophosphamide against meningeal malignancies refractory to conventional therapy (radiation therapy and chemotherapy). The maximally tolerated dose for intrathecal mafosfamide will be established in a limited dosage escalation schedule. The CSF pharmacokinetics of intrathecal mafosfamide will also be studied. Mafosfamide will be administered intrathecally on a bi-weekly basis for four weeks, followed by twice monthly administration for four months and then monthly IT administration. A minimum of 9 patients will be studied in each disease category (leukemias, lymphomas, and other malignancies refractory to conventional therapy).
The study purpose is to evaluate the clinical response to multidose administration of anti-Tac monoclonal antibody conjugated with 10 mCi 90Y in patients with Tac-expressing adult T-cell leukemia (ATL).
Major improvements in the treatment of childhood non-lymphoblastic lymphomas have taken place in the last ten years. Though the survival rate in low risk patients (i.e., those with stage I & II disease and serum LDH of less than 350 IU/dL) was as high as 90% with the previous Pediatric Branch protocol, only 32% of patients in the high risk group achieved long term remission. The present protocol is designed to improve survival in the high risk group by using alternating non-cross resistant drug regimens. We plan to determine whether using granulocyte-macrophage colony stimulating factor (GM-CSF) in this group would increase dose-intensity and ameliorate myelotoxicity. We also plan to study the effect on survival of decreasing the duration of treatment to three months from the present year-long therapy in low-risk patients.
The purpose of this study is to find out why cancers develop in HIV-positive patients. Cancer is a leading cause of death in AIDS patients. Common cancers in HIV-infected patients include Kaposi's sarcoma (KS) and non-Hodgkin's lymphoma (NHL), a cancer of the immune system. Risk factors include certain chemicals, viruses, and perhaps even anti-HIV drugs. Doctors would like to find out which risk factors are most important and how they relate to cancer in AIDS patients.
To estimate the response rate, overall and disease-free survival, toxicities, factors associated with outcome, and effect on quality of life in patients with AIDS-related primary CNS lymphoma treated with CHOD (cyclophosphamide, doxorubicin, vincristine, and dexamethasone) plus filgrastim (granulocyte-colony stimulating factor; G-CSF) and external beam irradiation. To determine other clinical markers present in this patient population. Combined modality therapy may prove of benefit for patients with AIDS-related primary CNS lymphoma.
To determine the safety and toxicity of high-dose systemic methotrexate (MTX) and dexamethasone (DEX) combined with zidovudine (AZT) and brain irradiation in patients with AIDS-related primary central nervous system (CNS) lymphoma and to determine response rates and survival of treated patients. Also to determine if the treatment inhibits HIV replication in patients who are HIV culture and/or antigen positive and to assess the incidence of opportunistic infection in these patients Results of radiation given to patients with AIDS-related high-grade CNS lymphoma have been disappointing, with short survival times due to infection complications. However, complete response has been documented after radiation in some patients. High-dose MTX will be used to improve the possibility of a greater antineoplastic response than that obtained by radiation alone. Since the underlying immunodeficiency state is not affected by therapy directed against the lymphoma, patients are still prone to life-threatening opportunistic infections or relapse of lymphomatous disease within the CNS. Accordingly, AZT will also be used in an attempt to alter the overall natural history of the disease.