View clinical trials related to Melanoma.
Filter by:The objective of this study is to evaluate the safety and immunologic effects of autologous tumor vaccination administered with human granulocyte-macrophage colony-simulating factor (hGM-CSF), and subsequent boosting vaccinations in patients made lymphopenic by treatment with chemotherapy and infused with autologous PBMC (Cohort A) or CD25 depleted PBMC (Cohort B). Clinical observations and laboratory measurements will be monitored to evaluate safety, toxicity, immune responses, and anti-tumor effects. Additionally, the effects of treatment on tumor response will be evaluated.
RATIONALE: White blood cells that have been treated in a laboratory may be able to kill tumor cells in patients with melanoma. Aldesleukin and denileukin diftitox may stimulate the white blood cells to kill melanoma cells. Giving therapeutic autologous lymphocyte therapy together with aldesleukin and denileukin diftitox may kill more tumor cells. PURPOSE: This phase I/II trial is studying the side effects of giving therapeutic autologous lymphocytes together with aldesleukin and denileukin diftitox and to see how well it works in treating patients with stage III-IV melanoma
1. Rationale Immunotherapy applying ex vivo generated and tumor antigen-loaded dendritic cells (DC) has now successfully been introduced in the clinic. A limited, but consistent, number of objective immunological and clinical responses have been observed. Most of the successful results have been observed in patients with minimal residual disease, rather than patients with advanced metastatic disease. Moreover, the investigators' preliminary results show that presence of tumor epitope specific T cells in biopsies taken from delayed type hypersensitivity (DTH) reaction sites highly correlates with prolonged progression free survival (PFS). Within uveal melanoma patients, a group with high risk of metastatic disease can be identified on basis of tumor specific genetic changes in loss of chromosome 3. At present no standard adjuvant or systemic treatment is available. Applying DC-based immunotherapy in this group of high risk patients might reduce the risk of recurrence without interference in the current treatment guidelines. 2. Objectives In this joint clinical study of Radboud University Nijmegen Medical Centre (RUNMC) and Rotterdam Eye Hospital, the investigators aim to determine the in vivo immunological response induced in high risk uveal melanoma patients vaccinated with mRNA-transfected DC. 3. Study design This study is an open label non-randomized phase II intervention study. 4. Study population The investigators' study population consists of HLA-A2 positive patients with a high risk uveal melanoma with proven expression of melanoma associated antigens tyrosinase and/or gp100. 5. Main study endpoints This is an exploratory study aiming to demonstrate proof of principle. The first study endpoints are in vivo immunological response induced in high risk uveal melanoma patients vaccinated with mRNA-transfected DC, administered i.v./i.d. and toxicity. Secondary study endpoints are progression free survival, overall survival, and toxicity.
Background: - This study will use cells called DMF5 to treat patients with metastatic melanoma (melanoma that has spread beyond the primary tumor site). - The DMF5 cells were first obtained from a tumor of a patient with melanoma with HLA-A201 tissue type. The tumor cells were grown in the laboratory, and when the laboratory-grown cells were given back to the patient, the patient's tumors shrank dramatically. In laboratory tests, DMF5 cells were also shown to shrink mouse melanoma tumors. Objectives: -To determine whether preparatory chemotherapy followed by infusion of DMF5 cells is a safe and effective for shrinking melanoma tumors. Eligibility: -Patients with metastatic melanoma and tissue type HLA-A201 who are 18 years of age or older. Design: - Patients have a preparatory regimen of chemotherapy with cyclophosphamide and fludarabine followed by infusion of DMF5 cells and then high-dose interleukin. The chemotherapy, interleukin and cells are given intravenously (through a vein). - Patients have frequent blood tests to look for the side effects and response to treatment. - Patients may be asked to have a tumor biopsy (surgical removal of a small piece of tumor tissue) to examine the effects of treatment on the immune cells in the tumor. - Patients have a physical examination, computed tomography (CT) of the chest, abdomen and pelvis and laboratory tests 4 to 6 weeks after treatment and then monthly to evaluate the tumor. - The first group of patients participates in the Phase I portion of the study, called the dose escalation phase. This phase will determine the highest safe dose of DMF5 cells. There will be three dose levels of DMF5 cells, with the first patients enrolled getting the smallest dose and then increasing the dose when the preceding level has been shown to be safe. - Patients in the Phase II portion of the study receive DMF5 cells at the highest dose found to be safe in Phase I, to test the effectiveness of the treatment.
The presence of malignant cells in lymph nodes is a critical parameter in the staging of melanoma cancer patients. Assessment of lymph nodes is currently done by histopathology alone. The long-term survival of melanoma cancer patients who have Stage IB disease (no known lymph node involvement with a tumor greater than 2 cm) is lower than patients who are Stage IA (no known lymph node involvement with a tumor less than 2 cm). Likewise, the survival rates of patients who are judged to be Stage II based on histologically positive level-one lymph nodes is often no better than that of higher stage patients who have level-two lymph node involvement. These observations suggest that micrometastases are often present in lymph nodes that are not detectable by histological assessment. The collection of Sentinel Lymph Nodes (SLN) and non SLN material outlined in this proposal will permit both targeted and exploratory studies, without compromising the patient's diagnosis, on specimens that represent central engines of the immune response and whose function in the context of tumor progression is largely unknown. With the advent of an array of new methodologies that utilize minimum material for both molecular and cellular assessments, acquiring up to 20% and in general the investigators anticipate the use of 5% on average of SLN and/or non SLN tissue for research purposes, may prove to be critical to understanding the impact of nodal tumor involvement on patient outcome and survival.
RATIONALE: Treating lymphocytes in the laboratory may help the lymphocytes kill more tumor cells when they are put back in the body. Aldesleukin may stimulate the lymphocytes to kill tumor cells. Drugs used in chemotherapy, such as cyclophosphamide and fludarabine, work in different ways to stop the growth of tumor cells, either by killing the cells or by stopping them from dividing. Giving laboratory-treated lymphocytes and aldesleukin together with cyclophosphamide and fludarabine may kill more tumor cells. PURPOSE: This phase II trial is studying how well laboratory-treated autologous lymphocytes and aldesleukin work when given after cyclophosphamide and fludarabine in treating patients with metastatic melanoma.
The purpose of this clinical trial is to find out how successfully, patients with progressive metastatic cutaneous melanoma, are able to develop an immune response to injections with the immunotherapeutic product GSK1572932A when given in combination with dacarbazine and evaluate the safety of this combination.
The purpose of this clinical trial is to evaluate the benefit of the immunotherapeutic product GSK 2132231A in preventing disease relapse when given to melanoma patients, after surgical removal of their tumor. This Protocol Posting has been updated following Amendments 1 of the Protocol, March 2010. The impacted sections are outcome measures and entry criteria.
The goal of the first phase of this clinical research study is to find the highest tolerable dose of decitabine and peginterferon alfa-2b that can be given in combination to patients with melanoma. The safety of this drug combination will also be studied. The goals of the second phase are to learn if decitabine and peginterferon alfa-2b combined can help to control melanoma, and to find out which doses are more effective and/or better tolerated.
Melanoma is a cutaneous malignancy that has the potential for local (skin) and regional (lymph node) recurrence. These recurrences may be difficult to detect in their earliest stages. We are attempting to use novel form of skin imaging that uses ultrasound combined with laser to identify these recurrences early, when they may be most amenable to treatment. This imaging will detect melanoma pigment below the surface of the skin and in the draining lymph nodes, as well as new blood vessel formation that occurs with these loco-regional metastases.