View clinical trials related to Melanoma.
Filter by:The overall goal of this study is to find out about the safety of injecting the genes (DNA) for human and mouse tyrosinase in patients with melanoma. There is no evidence yet that injection of tyrosinase DNA results in any clinical benefit. Tyrosinase is the substance found in melanoma cells that helps to produce their black color. The DNA used in this study was purified from bacteria which contains the gene for tyrosinase. DNA is material which contains the information needed to produce many substances in the body.
A dose comparison of a multi-component active immunotherapy designed to stimulate an immune reaction to specific tumor associated antigens which are highly expressed on melanomas.
The purpose of this study is to investigate a method of using dendritic cells (a kind of white blood cell) as a vaccine to stimulate your own immune system to react to your melanoma cells.
The goal of this study is to find out about the safety of injecting the gene (DNA) for mouse TYRP2 in patients with melanoma. DNA is a material that contains the information needed to produce many substances in the body. TYRP2 is a substance found in melanoma cells that helps to produce their black color. The DNA used in this study is the gene for mouse TYRP2. The gene is introduced into bacteria, which are grown in large quantities. The DNA vaccine is then made from bacteria that is inactive. We would like to see if we can immunize patients against TYRP2 by injecting mouse TYRP2 DNA. We will also follow the patients closely to see if there are any side effects. Mouse TYRP2 DNA is very similar to human TYRP2 DNA. We believe, based on lab experiments, that injection of mouse TYRP2 DNA could result in the production of immune substances (antibodies and T cells) that recognize melanoma cells. Antibodies are substances produced by your immune system to defend your body against bacteria and viruses. T cells are a type of white blood cell that can also fight infections. The small differences between mouse and human TYRP2 may allow your immune system to make the antibodies and T cells against melanoma. There is no evidence yet that injection of TYRP2 DNA results in any clinical benefit in patients.
To report preliminary results on safety and tolerability of intravitreal injection of Ranibizumab (Lucentis) combined with Transpupillary Thermotherapy (TTT)+ Indocyanine Green (ICG)-based photodynamic therapy (PDT) in the treatment of choroidal melanoma.
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.
Data from this pivotal clinical trial will be used to support a marketing application (i.e., NDA) for Navidea's Lymphoseek for use in intraoperative localization of lymph tissue (nodes) in the lymphatic pathway draining the primary site of a tumor.
This phase II trial is studying how well saracatinib works in treating patients with stage III or stage IV melanoma that cannot be removed by surgery. Saracatinib may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth
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.