View clinical trials related to Metastatic Melanoma.
Filter by:The purpose of this study is to evaluate the safety and effectiveness of 131I-TM601 in the treatment of adult patients with progressive and/or recurrent malignant melanoma.
The purpose of this study is to determine the safety and effectiveness of MDX-1106 in patients with certain types of cancer. Another purpose is to determine how MDX-1106 is absorbed and distributed within the body, and how it's eventually eliminated.
Obatoclax Mesylate (GMX1777) is a water-soluble, intravenously-administered pro-drug of GMX1778. GMX1777 is rapidly converted to GMX1778 in vivo. GMX1778 has potent anti-tumor activity against a variety of cell lines and models from different tumor origins.
The purpose of this study is to observe the incidence of nausea with systemic chemotherapy that includes consecutive days (more than one day)of cisplatin medication.
This was a Phase 2, open-label study of KW2871 (ecromeximab) in combination with high-dose interferon-α2b (HDI) in patients with metastatic melanoma. The primary objectives of this study were to assess progression-free survival (PFS) and safety. The secondary objectives were to assess the objective response rate, KW2871 pharmacokinetics (PK), and other exploratory immunology as indicated (e.g., development of human anti-chimeric antibodies [HACA], activity of antibody-dependent cell-mediated cytotoxicity [ADCC] and complement-dependent cytotoxicity [CDC] in peripheral blood, number and functional state of tumor-infiltrating immune cells and expression of GD3 in immune and tumor cells of tumor biopsies, and markers of interferon [IFN] response/resistance and markers of resistance to ADCC/CDC in peripheral blood mononuclear cells [PBMCs]).
Transfection with siRNA targeting the immunoproteasome alters proteasome-mediated antigen processing by the dendritic cell, generating TAA-derived peptides that we hypothesize, based on preclinical results, will induce enhanced anti-melanoma immune responses. This phase I study, open to subjects with metastatic melanoma, will assess the safety of vaccination with melanoma tumor associated antigen-encoding RNA-transfected mature dendritic cells derived from monocytes that have been either untreated, transfected with control siRNA, or transfected with siRNA targeting the inducible immunoproteasome beta subunits LMP2, LMP7, and MECL1. A combination of RNAs encoding melanoma tumor associated antigens MART-1, tyrosinase, gp100, and MAGE-3 will be utilized for dendritic cell transfection. The vaccine will be administered by intradermal injection in the extremities. Clinical and laboratory toxicities will be characterized for each study arm. As a secondary objective, this phase I study will also assess the anti-melanoma immune responses, as well as clinical responses, induced by vaccination with this dendritic cell-based product.
Background: -This study uses an experimental cancer treatment that uses the patient s own lymphocytes (type of white blood cell), which are specially selected and genetically modified to target and destroy their tumor. Objectives: -To test the safety of the treatment and determine if it can cause the patient s tumor to shrink. Eligibility: - Patients greater than 18 years and less than or equal to 66 years of age whose cancer has spread beyond the original site and does not respond to standard treatment. - Patients have tissue type human leukocyte antigen (HLA)-A*0201. - Patients cancer cells have the ESO-1 gene. Design: - Workup: Patients have scans, x-rays, laboratory tests, and other tests as needed. - Patients have leukapheresis to collect cells for laboratory treatment and later reinfusion. For this procedure, whole blood is collected thorough a tube in a vein, the desired cells are extracted from the blood, and the rest of the blood is returned to the patient. - Chemotherapy: Patients have low-dose chemotherapy for 1 week to prepare the immune system to receive the treated lymphocytes. - Cell infusion and aldesleukin (IL-2) treatment: Patients receive the lymphocytes by a 30-minute infusion through a vein. Starting within 24 hours of the infusion, they receive high-dose aldesleukin infusions every 8 hours for up to 5 days (maximum15 doses). - Recovery: Patients rest for 1 to 2 weeks to recover from the effects of chemotherapy and aldesleukin. - Tumor biopsy: Patients may be asked to undergo a biopsy (surgical removal of a small piece of tumor) after treatment to look at the effects of treatment on the immune cells in the tumor. - Follow-up: After treatment is completed, patients return to the clinic once a month for several months for physical examinations, a review of side effects, laboratory tests and scans. They may undergo leukapheresis at some visits to look at the effect of treatment on the immune system and check the viability of the infused cells. Patients then return to the National Institute of Health (NIH) clinic once a year for 5 years and then complete a follow-up questionnaire for another 10 years. - Retreatment: Patients whose tumor shrinks or disappears following treatment and then recurs may receive one additional treatment, using the same regimen of chemotherapy, lymphocyte infusion and IL-2 treatment.
This is a Phase I pilot study to evaluate the toxicity of two intra-tumoral injections of GSL alpha-GAL in patients with advanced or metastatic cutaneous melanoma. Patients who have failed standard therapies or are not eligible for standard treatment will be eligible for this study.
Background: This study uses a new experimental procedure for treating melanoma that uses the patient's own lymphocytes (type of white blood cell), which are specially selected to target and destroy their tumor. Objectives: To determine whether this experimental treatment can cause the patient's tumor to shrink. To test the safety of the treatment and its effects on the immune system. Eligibility: Patients with metastatic melanoma 18 years of age and older for whom standard treatments are not effective or who cannot take high-dose interleukin-2 (IL-2). Patients must have the tissue type human leukocyte antigens (HLA-A)0201. Design: Workup: Patients have scans, x-rays, laboratory tests, and other tests as needed. Patients have leukapheresis (a procedure for collecting lymphocytes that is similar to collecting whole blood) to collect cells for laboratory treatment and later reinfusion. Chemotherapy: Patients have low-dose chemotherapy for 1 week to prepare the immune system to receive the cultured lymphocytes. Cell infusion and IL-2 treatment: Patients receive the lymphocytes by infusion through a vein and then either high-dose IL-2 infused through a vein or low-dose IL-2 injected under the skin. High-dose IL-2 is given as infusions through a vein every 8 hours for up to 15 doses. Low-dose IL-2 is given as injections under the skin daily for 5 days, followed by a 2-day rest, with this regimen repeated for a total of 5 weeks. Recovery: Patients rest for 1 to 2 weeks to recover from the effects of chemotherapy and IL-2. Tumor biopsy: Patients may be asked to have a biopsy (removal of a small piece of tumor) after receiving treatment to look at the effects of treatment in the tumor. Follow-up: After treatment is completed, patients return to the clinic for physical examinations, review of side effects, laboratory tests and scans every 1 to 6 months until the disease worsens. Retreatment: Patients whose tumor did not grow after treatment or showed evidence of shrinking may be able to be retreated if their tumor begins to grow. They receive the same regimen of chemotherapy, lymphocyte infusion and IL-2 treatment....
The purpose of this study is to investigate whether an investigational drug called sunitinib malate is safe and effective in treating metastatic melanoma in patients with KIT mutations. KIT is a gene that "codes for" (contains the genetic code that the body uses to make) a protein on the surface of cells in your body that is important in cell growth and cell division. The KIT protein seems to play a role in abnormal cell growth seen in acute leukemia, germ cell tumors, gastrointestinal stromal tumors (GIST), and certain melanomas. Melanomas that arise on acral skin (palms, soles, nail beds), mucosal membranes, and chronically sun damaged skin have recently been found to frequently contain mutations or increased copy numbers of the KIT gene. Your tumor tissue has previously been tested and has been found to contain abnormalities in the KIT gene. Sunitinib malate is drug that has been shown to inhibit the activity of the KIT protein. The FDA approved sunitinib in 2006 for patients with GIST. It has been shown that sunitinib malate works in these patients because of its activity against the KIT protein. The FDA also approved Sunitinib malate in 2006 for the treatment of metastatic kidney cancer, where its effectiveness is probably due to its ability to block a different set of proteins. Sunitinib malate has not been approved by the FDA for the treatment of metastatic melanoma.