View clinical trials related to Melanoma.
Filter by:This is a phase Ib, open label clinical study to evaluate the safety, tolerability, PK and antitumor activities of IN10018 as monotherapy and in combination with cobimetinib in subjects with metastatic uveal melanoma and NRAS-mutant metastatic melanoma.
This is a observational study to investigate how the microbiome correlates with efficacy and toxicity of immune checkpoint inhibitors in patients with advanced cancer.
A Phase 1a/1b, multicenter, open-label, non-randomized, dose-escalation, and cohort expansion study to examine the DLTs, MTD, and RP2D of SB 11285 administered as an IV infusion in patients with advanced solid tumors.
IRFARPC is a multicenter national registry designed to study the diagnosis and predisposing factors of subjects with an inherited increased risk for pancreatic cancer.
This phase II trial studies how well polarized dendritic cell (aDC1) based therapy, interferon alpha-2, rintatolimod, and celecoxib work together in treating patients with HLA-A2 positive (+) melanoma that has not responded to previous treatment (refractory). The aDC1 cell-based treatment contains white blood cells (dendritic cells or DCs) that stimulates the immune system. Interferon alpha-2 can improve the body's natural response to infections and other diseases. It can also interfere with the division of cancer cells and slow tumor growth. Rintalolimid may stimulate the immune system. Celecoxib is a drug that reduces pain. This study is being done to find out if the combination of the study cell-based treatment (aDC1 dendritic cells) and interferon alpha-2, rintatolimod, and celecoxib can prevent the growth and/or progression of melanoma.
To evaluate the safety and anti-tumor activity of GEN1042 in patients with metastatic or locally advanced solid tumors.
This is an investigator-initiated Phase I study of a single dose of an intravitreally-administered dexamethasone implant (Ozurdex™) in subjects with uveal melanomas (UM) and exudative retinal detachments (ERD: build-up of fluid under the retina that causes it to detach) being treated with proton beam radiation (PBI) or plaque radiotherapy. Although PBI is an effective treatment for UM, ERDs may persist after radiation, leading to vision loss. Effective treatments for ERD are currently lacking. We are conducting this study to evaluate whether Ozurdex™ can help resolve ERDs that occur in patients with UM. Ozurdex™ has been approved by the Food and Drug Administration (FDA) to treat certain ocular conditions such as macular edema, non-infectious uveitis, and diabetic macular edema but it is not approved for use in patients with UM and ERD. This study will determine the safety of the dexamethasone implant and provide preliminary evidence of efficacy in this population.
The purpose of this study is to find out if a new treatment cancer vaccine called SCIB1 can be used safely when added to either nivolumab (Opdivo) with ipilimumab (Yervoy) or pembrolizumab (Keytruda), standard treatments approved for patients with advanced melanoma (skin cancer). The study will also look to see if SCIB1 can increase the likelihood that melanoma patients will respond to either nivolumab with ipilimumab or pembrolizumab, and also if SCIB1 can help to make those responses last longer. SCIB1 is considered experimental. SCIB1 has been given to melanoma patients in an earlier study. It was generally well-tolerated, and researchers saw some signs that it may help to stimulate the immune system, which is a way in which the body can fight the cancer.
This study assessed the safety and efficacy of individualized new antigen cancer vaccine combined with Programmed Cell Death Protein 1(PD1) inhibitor Toripalimab in the treatment of metastatic cutaneous melanoma. Melanoma is the most malignant skin neoplasm. Immunotherapy is the main treatment at present. PD1 is an immunological checkpoint and the inhibitors can reduce the immune escape of tumors, enhance T cell function and kill tumors. At present, PD1 antibody is the representative drug of immunotherapy, but the overall efficiency of its single drug treatment of acral melanoma is still low, and the combined treatment can significantly improve the efficiency. Melanoma has a high mutation load, which makes each patient have mutations specific to individual patients and tumors (changes in genetic material). These mutations lead to tumour cells producing proteins that are distinct from those of the body's own cells. These proteins used in vaccines may cause a strong immune response, which may help participants' bodies fight against any cancer cells that may lead to future recurrence of melanoma. Inhibition of PD1 can enhance the activity of T cells and form T cells with sustained killing activity. Tumor vaccines activate human Antigen Presenting Cells (APC) by injecting tumor antigens and adjuvants, and then activate T cells by APC to produce specific killing T cells. Therefore, the combination of "tumor vaccine + PD1 inhibitor" can produce effective specific killing and sustained activation of T cells, and prevent the establishment of inhibitory tumor microenvironment by tumor cells. The study will examine the safety and efficiency of the combined therapy at different time points and assess whether there is an immune response in the patient's peripheral blood and tumor tissue.
This study will develop an algorithm of identifying patients with stage IV NSCLC and Melanoma who could benefit from cancer treatment they receive.