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Find 341 clinical trials for melanoma near New York, New York. Connect with research centers in your area.
Showing 321-340 of 341 trials
NCT00254579
CP-675,206 is a fully human monoclonal antibody (mAb). It binds to the CTLA4 molecule, which is expressed on the surface of activated T lymphocytes. CP-675,206 is thought to stimulate patients' immune systems to attack their tumors. CP-675,206 is not expected to have a direct effect on tumor cells. CP-675,206 been shown to induce durable tumor responses in patients with metastatic melanoma in Phase 1 and Phase 2 clinical studies.
NCT00750399
This is a Phase I clinical trial to test the safety and tolerability of intravitreal ranibizumab in the treatment of radiation retinopathy following plaque brachytherapy for patients with choroidal melanoma using the incidence and severity of events criteria. The secondary objective is to assess the efficacy of intravitreal ranibizumab on regression of radiation retinopathy by ophthalmic examination, fundus photography, fluorescein angiography, and optical coherence tomography, as well as visual acuity.
NCT00803374
The purpose of this study is to determine if BMS-663513 administered in combination with ipilimumab to patients with advanced malignant melanoma is safe and tolerable
NCT00060710
The purpose of this study is to determine the efficacy of CP-461 given twice daily orally in patients with advanced or metastatic malignant melanoma and to evaluate the safety profile of CP-461 in this patient population.
NCT00451880
The purpose of this study is to determine the safest dose of the multiple Raf kinase inhibitor (including c-Raf, B-Raf, and the activated mutant B-RafV600E) XL281, how often it should be taken, and how well subjects with cancer tolerate XL281. This study will also determine how the body reacts to XL281 when it is taken with and without food, and with and without Pepcid (famotidine), a drug that inhibits stomach acid production.
NCT00044356
The purpose of this clinical trial is to determine if Allovectin-7®, an experimental gene-based immunotherapy, can shrink melanoma tumors. The trial will also examine if this treatment can improve the time to disease progression.
NCT00471133
The purpose of this study is to evaluate the safety and immunogenicity of a DNA vaccine encoding a melanosomal antigen in melanoma patients at risk for disease progression or recurrence. In this study, the vaccine will be administered intramuscularly using a device that applies brief electrical fields to the tissue at the site of injection (a technique known as electroporation). It is expected that this device will improve the delivery of the vaccine. This study is being performed to determine if this procedure can be administered safely and if it is capable of inducing immune responses to the vaccine.
NCT00700167
Cancer cells make proteins called antigens that act as markers for the tumor cells. These antigens cannot cause the cancer itself. Special white blood cells, called T cells or T lymphocytes, recognize and respond to antigens. In many diseases, these and other cells in the immune system help your body get rid of the disease. However, T cells are normally resting, and they need other proteins on the diseased cell surface to begin working. Unfortunately, cancer cells do not usually make all the other proteins that T cells need to work. Therefore, T cells do not normally work against the cancer cells. We think this is one of the reasons that cancers grow and are not rejected by the body in the first place. Another white blood cell, called a dendritic cell, does have most if not all of the special proteins needed to make T cells work to destroy cancer cells. However, dendritic cells do not normally have the cancer proteins on their surface. The challenge then is to combine the cancer markers (antigens) with these dendritic cells to make a vaccine. We think that the body's T cells might then react against the tumor and help destroy it. This study will see if putting tumor antigens made in a lab onto dendritic cells will make T cells work against tumor cells. We want to answer this question by injecting you with dendritic cells loaded with the antigens. Then we will check for a response based on lab studies and your own clinical course. We will compare your response against melanoma with your response against a common antigen, to which almost everyone has already been exposed. Flu, for example, is a common antigen to which most people have been exposed. We also need to test your response to an antigen that your body has not likely seen before. For example, we plan to use KLH (keyhole limpet hemocyanin), which is a pigment or color protein made from a sea creature known as a keyhole limpet. Each of these, the flu and KLH antigens, which should be harmless to you, will be used along with the dendritic cell-tumor vaccine. This will help us find out if the vaccine is working, based on the lab studies we will check before and after the vaccinations.
NCT00615095
The goal of this study is to find out if some people are more likely to get melanoma, a form of skin cancer, than others. People respond to the environment in different ways. Some may be born with genes that make them more likely to get this type of skin cancer. Genes are made up of DNA. DNA damage is one of the first steps in developing cancer. Each person has many ways to repair normal damage to their genes. Some people may have a lower level of this repair and that may make them more likely to get cancer. Some genes are important for DNA repair. The genes we want to test are thought to affect the rate at which DNA can be repaired. We also want to find out if sun habits are related to these levels of DNA repair or genetic mutations.
NCT00928031
The objective of this study is to collect disease status and overall survival information for all Subjects in MDX-010 studies.
NCT00034554
Up to 24 patients with stage III or stage IV melanoma will be enrolled. Patients who are currently disease-free but at high risk for relapse are also eligible. Patients will receive vaccinations of gp75 at assigned dose levels. Patients who exhibit serologic and stable/clinical response are eligible to receive booster vaccinations. Patients will be evaluated for safety and efficacy throughout the duration of the study. In this study, the optimal biologically effective dose is defined as the lowest dose of gp75 that results in the production of anti-gp75 antibodies.
NCT00289640
The purpose of this clinical research study is to compare the best overall response rate (BORR)(as per modified WHO criteria) in patients with previously treated, therapy-refractory, or -intolerant, Stage III (unresectable) or Stage IV melanoma receiving ipilimumab doses of 0.3, 3, and 10 mg/kg. The safety of this product will also be evaluated.
NCT00733798
The purpose of this study is to evaluate the safety and effectiveness of 131I-TM601 in the treatment of adult patients with progressive and/or recurrent malignant melanoma.
NCT00003647
RATIONALE: Drugs used in chemotherapy use different ways to stop tumor cells from dividing so they stop growing or die. Injecting allovectin-7 into a person's melanoma cells may make the body build an immune response that will kill tumor cells. PURPOSE: Randomized phase III trial to compare the effectiveness of dacarbazine with or without immunotherapy in treating patients who have stage III or stage IV melanoma.
NCT00002860
RATIONALE: Surgery may be effective therapy in treating patients with metastatic melanoma. PURPOSE: This phase II trial is studying how well surgery works in treating patients with metastatic melanoma.
NCT00383851
This is a multicenter, randomized, phase II study to evaluate the safety and efficacy of oral ATN-224 plus temozolomide in patients with advanced melanoma. Patients will be randomized (1:1) between temozolomide and ATN-224 and temozolomide followed by ATN-224. Patients assigned to the sequential treatment group will receive temozolomide until progression of disease is documented and then receive ATN-224 as a single agent until documentation of progression of disease using the last tumor assessment on temozolomide therapy as the baseline assessment.
NCT00518895
This study is being performed to prospectively determine whether dacarbazine plus Genasense is significantly better than dacarbazine plus placebo in chemotherapy-naive patients with advanced melanoma and low baseline LDH (LDH less than or equal to 0.8 times the upper limit of normal). LDH is a biomarker strongly associated with improved outcomes in a recent trial of dacarbazine plus Genasense.
NCT00735332
The objective of this study is to assess the efficacy and safety of TLN-232 used to treat patients with metastatic melanoma that recur/progress after receiving first line systemic therapy.
NCT00369395
This is a Phase 2, multicenter, research study determining the effects of an investigational drug called volociximab in metastatic melanoma. The purpose of the study is to compare the clinical benefit and safety of volociximab. Pharmacokinetics and mechanism of action will also be evaluated.
NCT00423254
The present clinical trial is 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 a large number of solid cancers.
