View clinical trials related to Melanoma.
Filter by:Prospective, monocentric clinical study. Patients selected for nivolumab therapy in AP-HM for melanoma and non-small cell lung cancer will be eligible. Do not include patients with conditions that do not allow MRI, prior cardiovascular disease with LVEF<50%, cardiomyopathy, history of cardiac arrhythmia, history of cardiovascular toxicity under anticancer therapy, coronary artery disease or stroke less than 3 months Therapeutic management will not be modified and treatment will be administrated as usual. Cardiovascular follow up will be identical to that recommended and realized in current care in the Cardio-Oncology unit of AP-HM. It will include clinical, biological (BNP and troponin) and trans-thoracic echocardiography (TTE) at baseline and then at 1, 3 and 6 months. Auto-antibodies against troponin I assay will be performed to avoid false negatives of normal blood level of troponin I at baseline and then at 6 months. Cardiac MRI will be performed as well at baseline and at the end of the study (6 months). MRI is the gold standard for ventricular function evaluation. Primary endpoint will be left ventricular function evolution evaluated by global longitudinal strain (GLS, 2D speckles tracking) in TTE. Secondary endpoints will be left and right ventricular function parameters: LEVF by TTE and MRI, left ventricular indexed volumes by TTE and MRI, right ejection ventricular function and indexed volumes by TTE and MRI, systolic pulmonary arterial pressure by TTE, serum troponin I and BNP, arrhythmias and conduction disorders on the electrocardiogram (ECG). Number of required subjects: GLS is recommended for following up left ventricular function under anticancer treatments. Based on the hypothesis of a significant GLS decrease (15%) in 20% of cases with alpha risk of 0.05 and accuracy of 0.12 which means expected confidence interval of 0.08-0.32, then the number of required subjects is 50 patients. The inclusion period will be 18 months with a follow up if 6 months, ie a total duration of the study of 24 months.
Rationale: Ipilimumab, a monoclonal antibody targeting CTLA-4, is approved for the treatment of metastatic melanoma and significantly increases median overall survival. However, use of this drug is associated with immune related adverse events (IRAEs) like colitis, hepatitis, dermatitis, alveolitis and hypophysitis in 10-40% of the patients. In general IRAEs are manageable by cessation of ipilimumab in combination with treatment with corticosteroids or TNF-alpha blockade but they can be severe or even life-threatening. In addition, treatment with ipilimumab is expensive. Because of the high costs and the potential serious toxicity of ipilimumab, it is of great importance to identify biomarkers that correlate with clinical activity and can be used to select patients that will benefit from CTLA-4 blockade therapy. The investigators hypothesize that differences in response to treatment with ipilimumab are due to variability in the pharmacodynamics and -kinetics of the antibody. It is hypothesized that patients who do not respond to treatment with ipilimumab have lower drug levels in tumor tissues as compared to patients with a good response to therapy. In addition, the investigators hypothesize that IRAEs are associated with high drug levels in the affected tissue. To visualize molecular interactions a novel technique is used in which positron emission tomography (PET) is combined with labeled monoclonal antibodies. Because ipilimumab induces activation of T-lymphocytes it is hypothesized that uptake of 89Zr-ipilimumab in tumor lesions and normal tissue is different (i.e. higher) after the second administration of ipilimumab (3 weeks after first injection). Therefore immuno-PET scans will be performed after the first and after the second injection of ipilimumab. Objective: Part one: The primary objective is: 1. To assess uptake (visual and quantitative) of 89Zr-ipilimumab in tumor lesions and biodistribution at two timepoints (at start of ipilimumab therapy and after the second injection 3 weeks later). The secondary objectives are: 1. To determine the correlation between tumor targeting of ipilimumab and response to therapy. 2. To assess uptake (visual and quantitative) of 89Zr-ipilimumab in normal tissues. 3. To determine de correlation between organ targeting and toxicity
The main objective will be to estimate the disease free survival (DFS) of patients with resectable head and neck mucosal melanomas treated by neo-adjuvant anti-PD1 (in combination or not with lenvatinib) followed by surgery, radiotherapy and maintenance immunotherapy in order to compare it to historical DFS results of this kind of patients treated by surgery and radiotherapy. Our primary end-point will be disease-free survival at 2 years
The purpose of this study is to evaluate the effectiveness and safety of the combination of Pembrolizumab (KEYTRUDA®) and the investigational drug, Metformin.
CK-301 (cosibelimab) is a fully human monoclonal antibody of IgG1 subtype that directly binds to Programmed Death-Ligand 1 (PD-L1) and blocks its interactions with the Programmed Death-1 (PD-1) and B7.1 receptors. The primary objectives of this study are to assess the safety, tolerability and efficacy of CK-301 when administered intravenously as a single agent to subjects with selected recurrent or metastatic cancers.
The reference treatment of ocular melanoma is a conservative treatment by proton therapy. Its goal is to treat the tumor while preserving the eyeball and visual acuity. However, ablation of the eyeball is sometimes necessary after proton therapy in the case of neovascular glaucoma. This complication occurs in 7 to 47% of cases (depending on the size of the tumor) and is associated with hypersecretion of Vascular Endothelial Growth Factor (VEGF) related to necrotic and inflammatory tumor tissue after proton therapy or ischemic retina. The intravitreal injections of anti-VEGF are used in the treatment of neovascular radicular glaucoma without avoiding enucleation in all cases. The investigators propose to study the prevention of neovascular glaucoma by intravitreal prophylactic administration of anti-VEGF.
Adoptive cell therapy (ACT) with tumor-infiltrating lymphocytes (TILs) in combination with lymphodepletion and high-dose interleukin 2 (IL-2) has demonstrated reproducible objective response rates of approximately 50 percent in patients with highly advanced, refractory metastatic melanoma. Recent developments in theTIL ACT procedure facilitate the use of a reduced-intensity, non-myeloablative, lympho-depleting preparative regimen which is expected to be both less toxic and equally efficient compared to previous regimens. Recently patients recruited post Anti PD-1 therapy had inferior responses in comparison to the pre immune checkpoint inhibitors era. Therefore 2 new arms were added: 1. TIL-ACT with combination of 2 doses of Nivolumab fixed dose 480mg, pre and post TIL. 2. TIL-ACT with FMT given using colonoscopy once and 2 maintenance doses of 12 orally ingested capsules, concurrently with a single dose of Ipilimumab 1 mg/kg up to 100 mg.
Cancers attract myeloid-derived suppressor cells (MDSCs) that prevent our own immune responses from destroying the cancer. This study will be the first study to begin to determine if the newly discovered drug SX-682 can block cancers from attracting MDSCs. This first study will enroll participants with melanoma, as melanoma cancer has been shown to be able to attract MDSCs. The study will begin to determine if SX-682 is a safe and effective treatment of melanoma. It is thought that SX-682 will block MDSCs from going to the cancer, and thus will allow a patient's own immune system to attack the cancer. The first participants enrolled in the study will receive for 21 days SX-682 as monotherapy. After 21 days participants will receive pembrolizumab therapy (an approved immunotherapy for melanoma) in combination with SX-682 for up to approximately 2 years. Once the safe dose level of SX-682 in combination with pembrolizumab is determined, the remaining participants will be enrolled at the highest safe dose level of SX-682, in combination with pembrolizumab. These participants will receive the combination therapy and be evaluated in the study for approximately 2 years.
In China, mucosal melanoma of head and neck (MMHN) account for 30-40% of all melanoma and the incidence is on the rise. The prognosis of MMHN is poor with the 5-year survival in a range between 20-30%. The evidence for the treatment of MMHN was weak since large-sample clinical researches are rare and no prospective clinical trial is reported. Surgery is the primary treatment modality for MMHN. However, it is difficult to extend the necessary surgery range for MMHN due to its limitation of being adjacent to the important anatomical structure in head and neck or by the considerations of the protection for organ function. As a result, the recurrence rate for surgery along was over 50%. Radiotherapy(RT) is the main approach for the multidisciplinary treatment for MMHN. Benlyazid et al. conclude the data from 13 centers and find that compared to surgery alone, the addition of post-surgery RT improve the survival; The 5-year locoregional failure rate for the surgery alone group and the RT+surgery group were 55.6% and 29.9%, respectively. Currently, the research into the prognosis factors is spare for the non-metastatic MMMHN received extended resection to primary tumor. It is necessary to undertake a prospective clinical research for MMHN in the endemic area to estimate efficacy and safety of primary surgery plus postoperative radiotherapy with or without adjuvant chemotherapy, as well as to recognize the risk distribution in this cohort of patients, provide the evidence to improve the stratification treatment strategies in the clinic.
The choice of treatment of patients with metastatic melanoma depends on the status of B-RAF of the tumor: in the absence of mutation, treatment with immunotherapy (currently anti-PD1) is proposed in the first line; When B-RAF is mutated, treatment with targeted therapies is retained: B-RAF and MEK inhibitors are prescribed in combination (vemurafenib + cobimetinib or dabrafenib + trametinib). Patient response rates for targeted therapies range from 50 to 60%, and the occurrence of sometimes severe side effects is not predictable. There are currently no predictive biomarkers of patients' response to targeted therapy molecules. The in vitro evaluation of the intrinsic sensitivity of the cells of patients to different combinations of targeted therapy molecules would make it possible to propose the best therapeutic combinations. The cutaneous metastases are chosen in the model because of easy access to collect tumor tissue. The most relevant in vitro models for mimicking cutaneous melanoma metastases are explant cultures and human skin equivalents.