View clinical trials related to Malignant Melanoma.
Filter by:We propose to conduct a phase 2 study to assess whether the addition of acitretin to vemurafenib therapy is able to decrease the rate of cutaneous squamous cell carcinoma (cSCC) development, a known side effect of vemurafenib therapy, in patients with advanced melanoma. Further, we seek a preliminary assessment as to whether the addition of acitretin to vemurafenib enhances the clinical efficacy of this anti-melanoma agent.
The purpose of the study is to comply with the Pediatric Investigation Plan requirements of Ipilimumab
This is a study to evaluate the safety and tolerability of peginterferon alfa-2b (PegIFN alfa-2b) as adjuvant treatment in Japanese participants with malignant melanoma after definitive surgical resection including complete lymphadenectomy. Participants on this study will initially receive PegIFN alfa-2b for 8 weeks (Induction Phase) and then may continue to receive PegIFN alfa-2b (Maintenance Phase) as long as they are experiencing clinical benefit (Up to 252 weeks). The primary hypothesis is that peginterferon alfa-2b administered on a weekly basis is safe and tolerated.
This is an open-label, multicenter, single-agent, phase II study of continuous oral Zelboraf (vemurafenib) in patients with locally-advanced, unresectable, stage IIIc or metastatic melanoma and activating exon 15 BRAF mutations other than V600E.
Patients who were previously enrolled in Study IMM-101-001 and who provided informed consent were eligible to participate in this study. Once eligibility was confirmed, a full medical history covering the period from completion of Study IMM-101-001 to date was taken. The treatment regimen with IMM-101 was one dose given every 4 weeks or as close to this interval as permitted due to practical or logistic considerations. The dose interval could be modified at the discretion of the Investigator provided the minimum period between doses was no less than 14 days. The overall objective was to determine the long term safety profile of IMM-101 administered intradermally for extended use.
RATIONALE:Anti-melanoma activity of Ipilimumab both as a single therapy and in association with melanoma peptides has been shown as well as synergy between radiation therapy and anti-CTLA-A mAb in several tumor animal models for both local tumor control and distant effects.Radiotherapy increases tumor immunogenicity in several preclinical models by increasing MHC molecules expression and is able to induce significant tumor reduction in around 30% of cases. Thus, combining radiotherapy and administration of ipilimumab could elicit systemic antitumor response. Radiation therapy will expose tumor-associated antigens (TAA) and facilitate antigen presentation, and further blockade of CTLA-4 could amplify the immune antitumor response. In this therapeutical model, the use of the own patient tumor as a source of tumor antigens (in opposition with other vaccination protocols, where TAA are exogenic) is particularly adapted. PURPOSE: This Phase I trial determines the side effects and best dose of radiation therapy administered in combination with ipilimumab.
The aim of the study is to assess if treatment with IDO/Survivin peptide vaccine can enhance the efficacy of temozolomide chemotherapy in patients with metastatic malignant melanoma.
Background: - Studies of melanoma tumor samples have shown that tumor cells from approximately 20 percent of melanoma patients contain a specific mutation of a gene involved in making a protein called ERBB4, and that changes in this gene have been associated with cancer. Lapatinib, a drug that is currently approved for the treatment of breast cancer, has been shown in the laboratory to significantly slow the growth of melanoma cells that contain this specific ERBB4 gene mutation. Researchers are interested in determining whether lapatinib can be effective against melanoma in individuals who have the ERBB4 mutation. Objectives: - To evaluate the safety and effectiveness of lapatinib as a treatment for melanoma with ERBB4 mutation that has not responded to standard therapy. Eligibility: - Individuals at least 18 years of age who have stage 4 melanoma that has not responded to standard therapy. Design: - Participants will be screened with a full physical examination and medical history, as well as tests of tumor tissue taken from previous surgeries or biopsies or from a new biopsy that will be conducted before the start of the study. Test results to determine eligibility will be available within about 2 weeks. - Participants will take four lapatinib tablets daily (two in the morning, 1 hour before or after breakfast and two in the evening, 1 hour before or after dinner) during every 28-day cycle of treatment. Participants will keep a medication diary to record tablets taken and any side effects from the medication. - After the first 2 weeks, and every 2 to 4 weeks afterward for the first 12 weeks, participants will have clinic visits with blood samples and other tests to determine if lapatinib is causing their disease to shrink or be controlled. If the disease has not progressed, participants will continue to receive a new lapatinib supply every 28 days for up to 2 years (27 cycles), and will continue to have regular clinic visits to monitor the progress of treatment. - When tumor tissue is easily accessible and can be easily biopsied, researchers will collect two additional biopsies, one after 2 weeks of treatment and one after 12 weeks of treatment....
The study is an investigation of a novel immunotherapy, SCIB1, for the treatment of melanoma. SCIB1 is a solution of plasmid DNA molecules which will express a modified antibody in human cells. The antibody modifications are designed to stimulate the patient's immune T cells to have a strong and specific reaction against melanoma cells which should then be eliminated. SCIB1 is injected into muscle using a device which simultaneously delivers an electrical impulse to enhance the transfer of SCIB1 into muscle cells. The trial will assess the safety and tolerability of SCIB1, the safety and performance of the injection device and the immunological effects of SCIB1. This is the first study of SCIB1 in humans and the trial has two parts, in the first part the dose will be escalated to determine a safe and tolerable level up to a maximum of 8 mg per dose. In the second part patients will receive the dose determined in the first part. Patients will have stage III or IV melanoma, be HLA type A2 and have a life expectancy of at least three months. All patients will receive 5 injections of SCIB1 over 5.5 months. At the discretion of the investigator, patients may continue to receive SCIB1 at 3-6 month intervals for 5 years. The study will be conducted at major cancer centres in the UK only and is expected to last for seven years. Patients will be followed up for five years after they have completed the trial.
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.