View clinical trials related to Melanoma.
Filter by:Safety evaluation of combined immunogene therapy in patients with advanced melanoma.
This is a Phase 1 study of E6201 plus dabrafenib for the treatment of CNS metastases in BRAF V600-mutated metastatic melanoma. A total of up to N=28-34 subjects with melanoma metastasized to the CNS will be included.
It has been well established that malignant tumors tend to have low levels of oxygen and that tumors with very low levels of oxygen are more resistant to radiotherapy and other treatments, such as chemotherapy and immunotherapy. Previous attempts to improve response to therapy by increasing the oxygen level of tissues have had disappointing results and collectively have not led to changing clinical practice. Without a method to measure oxygen levels in tumors or the ability to monitor over time whether tumors are responding to methods to increase oxygen during therapy, clinician's reluctance to use oxygen therapy in usual practice is not surprising. The hypothesis underlying this research is that repeated measurements of tissue oxygen levels can be used to optimize cancer therapy, including combined therapy, and to minimize normal tissue side effects or complications. Because studies have found that tumors vary both in their initial levels of oxygen and exhibit changing patterns during growth and treatment, we propose to monitor oxygen levels in tumors and their responsiveness to hyperoxygenation procedures. Such knowledge about oxygen levels in tumor tissues and their responsiveness to hyper-oxygenation could potentially be used to select subjects for particular types of treatment, or otherwise to adjust routine care for patients known to have hypoxic but unresponsive tumors in order to improve their outcomes. The overall objectives of this study are to establish the clinical feasibility and efficacy of using in vivo electron paramagnetic resonance (EPR) oximetry—a technique related to magnetic resonance imaging (MRI)—to obtain direct and repeated measurements of clinically useful information about tumor tissue oxygenation in specific groups of subjects with the same types of tumors, and to establish the clinical feasibility and efficacy of using inhalation of enriched oxygen to gain additional clinically useful information about responsiveness of tumors to hyper-oxygenation. Two devices are used: a paramagnetic charcoal suspension (Carlo Erba India ink) and in vivo EPR oximetry to assess oxygen levels. The ink is injected and becomes permanent in the tissue at the site of injection unless removed; thereafter, the in vivo oximetry measurements are noninvasive and can be repeated indefinitely.
This is an adaptive clinical trial that includes a dose escalation phase followed by a randomized controlled Phase 3 trial. The purpose of the dose escalation phase is to establish the Phase 3 dose of indoximod in combination with pembrolizumab or nivolumab in subjects with unresectable or metastatic melanoma and evaluate PK. Subsequently the efficacy, safety and tolerability of indoximod plus pembrolizumab or nivolumab versus placebo plus pembrolizumab or nivolumab will be studied in subjects with unresectable or metastatic melanoma in the Phase 3 portion of the trial. The phase 3 study will not proceed per Sponsor decision.
Background: Exomes are the parts of deoxyribonucleic acid (DNA) that make proteins. Researchers are finding a way to read the letters in the exome. Incorrect letters are called mutations. Tumors contain specific mutations. Researchers can find these mutations in tumors to make treatments. Researchers want to use pieces of participants tumors to find the tumor-specific mutations. They also will take participants white blood cells to make a vaccine that they hope will shrink the tumors. Objectives: To see if dendritic vaccine tumor-fighting cells are safe and can cause certain cancer tumors to shrink. Eligibility: Adults ages 18-70 who have metastatic melanoma or metastatic epithelial cancer Design: The first part of this study was done under protocol 03-C-0277. In that study, white blood cells and pieces of participants' tumors were taken to make a vaccine. In this study, participants will get a vaccine every 2 weeks for 8 weeks. It will be given both in a vein and under the skin. At each visit, participants will have a physical exam and have blood taken. They will talk about any side effects they have. After treatment ends, participants will have many follow-up visits for the first year, then once each year after that. Visits will last up to 2 days each. They will include lab tests, imaging studies, and a physical exam. Blood will be taken at each visit. At the first follow-up visit, participants may have leukapheresis, which they also had as part of protocol 03-C-0277. Participants may not have to return to the Clinical Center for these visits.
This is a Phase III, multicenter, open-label, randomized study designed to evaluate the efficacy, safety, and pharmacokinetics of cobimetinib plus atezolizumab compared with pembrolizumab in treatment-naive participants with advanced BRAFV600 wild-type melanoma.
This research study is studying a combination of drugs as a possible treatment for BRAF-mutant melanoma. The drugs involved in this study are: - Itacitinib (INCB039110) - Dabrafenib - Trametinib
This is a single-arm, open label, Phase II study evaluating the safety and efficacy of neoadjuvant Nivolumab and HF10 in resectable stage IIIB, IIIC, and IVM1a melanoma.
Melanoma is an immune-modulated malignancy and immune checkpoint modulators which inhibit PD-1 function (pembrolizumab, nivolumab) have demonstrated clinical efficacy as treatment for patients with stage IV melanoma. Pembrolizumab across a range of doses in phase I investigation has demonstrated clinical efficacy with RR approximately 27%. By better understanding how NK cell function and exhaustion interplays with PD1 function and activity, potentially more efficacious combination therapies can be developed. The pharmacodynamic studies to be performed as part of this trial will provide such information.
This study is meant to assess the use of intralesional IL-2 to modulate the immunological response to suspected melanoma, or melanoma in situ, in an effort to increase lymphocyte infiltration and decrease disease metastasis. Patients that are clinically diagnosed with suspected Melanoma or Melanoma in situ will be assigned to either a treatment or control arm. The treatment group will be subjected to two intralesional IL-2 injections, whereas the control group will be subjected to two intralesional injections of saline. The proteomic and metabolomic profiles of both groups will be analyzed using urine and blood samples in an effort to assess the systemic immunological response, if any, to the treatment. Also, upon disease confirmation and staging by a qualified pathologist, lesions will be assessed for lymphocyte infiltration using immunohistochemical methods. This study will determine whether pre-treatment of IL-2 on lesions (clinically diagnosed as melanoma or melanoma in situ) is effective in generating an adaptive immune response, and whether that immune response may play a role in preventing disease metastasis.