Active clinical trials for "Melanoma"

The purpose of this phase II study is to find out if an investigational drug called LGX818 can stop the melanoma from growing.

The goal of this study is to determine a safe dose of GR-MD-02 used in combination with the FDA-approved dose of ipilimumab (3 mg/kg) in patients who have advanced melanoma. GR-MD-02 is a galectin. Galectins are a family of proteins that have numerous functions in normal mammalian biology including the facilitation of cell-cell interactions, regulation of cell-death and regulation of immune system responses. The hypothesis is that a safe dose of GR-MD-02 when given with the FDA-approved dose of ipilimumab can be found.

Patients with metastatic melanoma who are HLA-A201+ will be immunized with a modified peptide from the gp100 molecule that contains a signal sequence designed to improve peptide presentation by antigen presenting cells. This peptide called gp100:ES209-217 (210M) will be administered either alone or in combination with high or low dose IL-2. Patients will be evaluated for clinical response, as well as undergo studies of the immunologic response to the peptide immunization.

Our proposed study will focus on addressing the feasibility, safety and benefits of a 3-month exercise intervention among individuals diagnosed with melanoma. The study will be conducted at University of Miami Miller School of Medicine. Eligible participants (n=24) will be randomized into 3 months of wellness education (n=12) or structured exercise (n=12).

This is a single arm explorative phase II clinical trial in 90 subjects with advanced stage melanoma harbouring a BRAFV600 mutation. PET imaging and molecular diagnostics are combined in order to monitor response to treatment with vemurafenib plus cobimetinib, examine development of resistance and correlate changes in metabolic/proliferative activity with extend of target inhibition.

In this open-label study of patients with advanced melanoma 20 evaluable patients will be recruited. The drug substance, AGI-101H, is a whole cell, allogeneic melanoma vaccine, representing a mixture (1:1 ratio) of two therapeutic gene modified human melanoma cell lines, referred to as Mich1H6 and Mich2H6, which has been gamma-irradiated to render the cells non-proliferative Patients will receive treatment for up to 26 weeks. Progression at any time point requiring systemic treatment with, for example with chemotherapy or cytokines will lead to withdrawal of this patient from the study. The dose chosen is 5 x 107 viable cells/dose.

In this feasibility study, [18F]dabrafenib will be used as radioactive tracer. All patients in this study are diagnosed with advanced melanoma with evidence of brain metastases and are eligible for treatment with dabrafenib, a specific V600-mutated BRAF inhibitor. Patients will undergo a dynamic PET scan of the brain to determine [18F]dabrafenib distribution and kinetics in brain metastases. In addition, a static total body PET scan will be performed to visualize whole body distribution and tracer uptake.

This study will follow-up immune cell populations, secreted factors and released nanovesicles in the blood before, during and after high dose radiation therapy which should give new information of the efficacy of the hypofractionated high dose radiation therapy and a rationale for adjuvant immunotherapy.

Our proposed study is designed to test the safety of a new vaccine against melanoma. The induction of immune activity against cancers such as melanoma is a promising approach to cancer treatment, but to date, only a few clinically significant immune responses have been seen following vaccine therapy. This is an important problem, since there are very limited treatment options for patients with metastatic melanoma (melanoma that has spread to lymph nodes and organs). Studies suggest that monoclonal antibodies (mAbs) that block inhibitory receptors on immune cells can enhance the immune responses against cancer, but the intravenous injection of such mAbs has caused severe side effects in animals and humans. In our laboratory, we have developed a method to deliver mAbs and other proteins that block such inhibitory receptors locally at the site where immune responses against melanoma proteins are stimulated by vaccination, enhancing anti-melanoma immunity while avoiding the side-effects associated with intravenous injection of these immune modulators. This is achieved by loading dendritic cells, a type of immune cell, with RNA that encodes the immune modulator. The RNA-loaded dendritic cells then make the immune modulatory proteins and release them locally. By mixing these dendritic cells with additional dendritic cells loaded with melanoma proteins, the immune modulators are released at the site where anti-melanoma immune cells are stimulated. In this phase I trial, subjects with metastatic melanoma will undergo the process of leukapheresis, in which white blood cells are removed from the body. Monocytes, a type of immune cell, will then be purified from the white blood cells and cultured under conditions that will change them into dendritic cells. Half of these dendritic cells are then loaded with melanoma antigen RNA, which will lead to the production of melanoma antigen proteins within the dendritic cells. The remaining half of the dendritic cells will be either untreated or loaded with RNA encoding immune modulators so that these dendritic cells will release immune modulators at the site of vaccination. These dendritic cells will be mixed with the melanoma antigen-loaded dendritic cells and injected as a vaccine into lymph nodes. Each subject will receive six weekly injections of their own dendritic cells. Safety and toxicity will be closely monitored. In addition, immune responses against melanoma, as well as clinical responses, will be assessed.

The purpose of this study is to determine the initial safety profile and initial antitumor activity of the combination treatments (immune checkpoint inhibitors [nivolumab, ipilimumab] with investigational drugs [TAK-580, TAK-202 (plozalizumab), vedolizumab]) in the 3 arms when administered to participants with advanced melanoma.