View clinical trials related to Melanoma.
Filter by:This is a Phase 2 study designed to evaluate the combination of checkpoint blockade and aldesleukin (IL-2) therapy after a course of standard of care palliative radiation in the management of unresectable metastatic melanoma. To be eligible, a patient must have a minimum of 3 (preferably >5) radiographically distinct, measurable (>1.5 cm) lesions based on RECIST 1.1. Metastatic cutaneous melanoma must be refractory to standard immunotherapy drugs, molecular targeted agents and/or chemotherapy. Patients with ocular melanoma subtypes may enroll in this study without prior therapy, as there is no standard front-line therapy for this subset of patients.
This is a Phase 1, multiple dose, ascending-dose escalation study and expansion study designed to define a maximum tolerated dose and/or recommended dose of XmAb22841 monotherapy and in combination with pembrolizumab; to assess safety, tolerability, pharmacokinetics, immunogenicity, and anti-tumor activity of XmAb22841 monotherapy and in combination with pembrolizumab in subjects with select advanced solid tumors.
The purpose of this study is to find out what patients consider when deciding whether or not to receive adjuvant treatment, and how patients feel about their decision after one year.
FT500 is an off-the-shelf, iPSC-derived NK cell product that can bridge innate and adaptive immunity, and has the potential to overcome multiple mechanisms of immune checkpoint inhibitor (ICI) resistance. The preclinical data provide compelling evidence supporting the clinical investigation of FT500 as monotherapy and in combination with ICI in participants with advanced solid tumors.
This study is to find out if the combination of CC-122 (an investigational agent) and Nivolumab will enhance the anti-cancer activity and prevent T-cell exhaustion (T-cells are responsible for maintaining the body's immune response).
This study is designed to evaluate the safety and tolerability of treatment with oral microbiome study intervention (SER-401) or matching placebo in combination with anti-programmed cell death 1 (anti-PD-1) therapy (nivolumab) in participants with unresectable or metastatic melanoma. The study also intends to assess clinical outcomes, the impact of microbiome study intervention administration on the microbiome profile, and its association with clinical and immunological outcomes.
This research program is in keeping with the chemistry/biology/clinical interface and gathers 4 teams with complementary expertise in these respective fields. It will allow deciphering the mechanism(s) of action of new Thiazole-Benzenesulfonamide family (TZB) derivatives on metastatic melanoma sensitive and resistant to BRAF and MEK inhibitors. Investigators will use melanoma cell lines and primary cells from patients to validate these compounds in collaboration with clinical team 2 and 4. In conclusion, the investigators expect to establish the proof of concept that this new class of bioactive molecules (first in class) we developed in collaboration with Team 3 have the potential to go to the clinic for the treatment of highly aggressive cancers and particularly metastatic melanoma sensitive and resistant B-Raf and MEK inhibitors. Furthermore, the realization of this project can undoubtedly increase the knowledge of mechanisms and signaling pathways that are involved in resistant to BRAF and MEK inhibitors, and allow the selection of drug candidates capable of restoring the sensitivity of these melanoma cells.
This research study is designed to better understand the role of genetics, sun-exposure and phenotypic factors in melanoma.
This study will evaluate the safety and efficacy of combination therapy of lenvatinib (E7080/MK-7902) and pembrolizumab following approximately 2 years of pembrolizumab therapy and approximately 2 years or more lenvatinib therapy in adult participants with unresectable or advanced melanoma who have been exposed to anti-PD-1/L1 agents approved for unresectable or metastatic melanoma. No statistical hypothesis will be tested in this study.
Cancers develop in two different ways. First, cancer cells can become invisible to the immune system by stop having proteins on their surface that are required for the immune system to recognize them. In this scenario, tumors do not attract any immune cells (e.g. white blood cells) whatsoever or they do not attract specialized white blood cells against cancer cells, called lymphocytes. White blood cells are the type of immune cells that attack foreign cells, such as cancer cells or normal cells infected with viruses or bacteria. Second, cancer cells can still grow side-to-side with white blood cells but are able to hide from them. As a result, the white blood cells cannot find and attack the cancer cells. Different types of cancers have different chance of having immune cells in the tumor. For example, the possibility that immune cells are within skin melanomas is almost 50% whereas the possibility in melanoma of the eye is only 10%. As a result, the first goal of this study is to understand whether entinostat can make a melanoma tumor more visible to the immune system. To see whether entinostat makes tumor more visible to the immune system, participants will have a mandatory tumor biopsy 3 weeks after starting entinostat therapy. Tumor tissue collected before and after participating in this study will be compared to see if there are more immune cells in the tumor after receive entinostat. The second goal of the study is to see if giving a combination of entinostat and pembrolizumab can shrink melanoma tumors of patients who did not have immune cells in tumors prior to treatment. The study will determine how many subjects cancer has become better or not changed 6 months after subjects have started treatment on the study. We will also determine what type of side effects occur in subjects receiving entinostat and pembrolizumab to look at the safety of this combination. The investigators will also look at any changes in the DNA of melanoma before the study begins. As a result of these changes in DNA, there are often see differences in the proteins that work to create other proteins. In addition, the study will look into how entinostat may make melanoma cells more visible to the immune system by comparing proteins in tumors before and after treatment. Finally, the study will see if this treatment changes the numbers and types of immune cells that are found in the blood by comparing blood at different time points while patients are on the study.