Active clinical trials for "Melanoma"

The goal of this clinical research study is to find the sentinel lymph node (SLN) (s) and biopsy it (them) to see if the patient has small or low volume metastatic disease that would otherwise have been missed.

This clinical trial is to develop an educational platform to educate and prevent melanoma in Hispanic populations. Melanoma is cancer arising in the skin. Educational platforms to increase the knowledge and practice of sun smart behaviors (sunscreen use, sun protective clothing use, self-skin examination) may help reduce risk of and incidence of melanoma and improve cancer survival.

Current imaging devices usually detect cancer prior to surgery. However, these devices cannot be used during the surgical procedure to visualize lymph nodes with cancer (called "sentinel lymph nodes"). This is a Phase II study, containing a total of 67 patients with head and neck cancer. The purpose of this study is to test if imaging, with cRGDY-PEG-Cy5.5-C dots is useful for evaluating your type of cancer. This is currently not approved by the FDA. The researchers want to see if cRGDY-PEG-Cy5.5-C dots, can improve upon the usual scans. As a part of your standard of care, you will initially undergo imaging of your lymph nodes prior to your surgery. Prior to your surgery, you will be injected with a radioactive dye around the tumor site, and images will be acquired about 2 hours later using a device to image the location of the dye. We have tested, for the first time in humans, a new, experimental dye-labeled particle (dots), cRGDY-PEG-Cy5.5-C dots for lymph node mapping. This particle, the size of a small protein, will be injected around sites of your tumor before or during your surgery to identify diseased nodes using a hand-held camera system. The dye-labeled particle can be viewed in tissues that may contain tumor. The particles will not treat your cancer and any images or information found during this study will not be used for your treatment. The information collected may be used to guide the design of future studies to detect and/or treat tumors.

In research on melanoma, translational research is the essential link between basic research and clinical research by facilitating the passage between discovery and improvement in the quality of patients care.That is the reason why it is very important to collect, and centralize clinical and biological data of patients with melanoma. The aim of the project is to provide to scientific community a structured, mixed clinical and biological database, unique in France, in order to insure accessibility to clinical data.

This is a two-center, prospective continuously accruing longitudinal cohort study in patients with non-small cell lung carcinoma (NSCLC) or metastatic melanoma eligible for standard anti-PD-1 antibody treatment. The data from this prospective longitudinal cohort will be used in the POINTING (towards patient -tailored cancer immunotherapy supported by a multifaceted predictive signature composed of integrative omics and molecular imaging) KWF Kankerbestrijding project (WP4). The goal of this project is to develop a multifaceted predictive signature, by using new techniques on tumor characteristics before and during treatment with immune therapy. To do so, researchers will use the 'omics' approach. By combining molecular omics comprising genomics, transcriptomics, proteomics with radiomics and molecular imaging a set of factors will arise which can accurately predict the outcome of the treatment. Participants in this cohort will undergo tumor biopsies, venous blood sampling and feces sampling before, during and at the end of standard anti-PD-1 antibody treatment. Also, data derived form routine procedures performed for standard-of-care anti-PD-1 treatment (ao laboratory assessments, CT and FDG-PET) will be collected.

This early phase I trial tests the use of a radioactive tracer (a drug that is visible during an imaging test) known as 18F-FMAU, for imaging with positron emission tomography/computed tomography (PET/CT) in patients with brain cancer or cancer that has spread to the brain (brain metastases). A PET/CT scan is an imaging test that uses a small amount of radioactive tracer (given through the vein) to take detailed pictures of areas inside the body where the tracer is taken up. 18F-FMAU may also help find the cancer and how far the disease has spread. Magnetic resonance imaging (MRI) is a type of imaging test used to diagnose brain tumors. 18F-FMAU PET/CT in addition to MRI may make the finding and diagnosing of brain tumor easier.

The purpose of this research is to identify biological characteristics occurring in the initiation and progression of melanoma.

Current tests to detect cancer, including CAT scans and MRI scans, are limited. PET scans use special dyes that are injected into a vein and can better localize possible cancer. The investigators have developed a new particle that can carry a radioactive dye to a very specific area of the tumor. When using a PET scan the radioactive dye can be viewed in areas of possible disease. This particle has been studied in mice and was safe. The particles will not treat the cancer and any images or information found during this study will not be used for your treatment. The information collected may be used to guide the design of future studies to detect and/or treat tumors.

The primary objective of this study is to determine the ex-vivo prognostic accuracy of the Cybrid live tumor diagnostic platform across a basket of solid tumors, using in-vivo RECIST 1.1 as the reference method.

Background: Standard treatment for stage III melanoma with lymph node metastases involves complete lymph node dissection, which is a radical surgical procedure aimed at the removal of the entire regional lymph node basin. Conservative surgery for low-burden nodal metastasis involves removal of the metastatic lymph node or nodes ("node-picking"), leaving uninvolved nodes within the regional basin. This is expected to provide adequate regional control of the disease with no negative impact on patient survival and a lower rate of surgical complications. Aims: The MelConSurg Cohort will provide the first data on conservative surgery for patients with stage III melanoma with nodal metastases detected clinically or by imaging. Methods: A multicentre, single-arm prospective cohort study. Inclusion criteria: Patients with melanoma aged between 18 and 90 years, Eastern Cooperative Oncology Group performance status 0-1, non-matted regional lymph node metastasis (N1b or N2b) in a single regional basin detected clinically or by imaging (ultrasound, CT scan, PET scan). Study period: A 3-year recruitment period and a 3-year follow-up phase. Intervention: Patients will undergo conservative nodal surgery using conventional surgery, radio-guided surgery, or imaging guided surgery. Outcome measures: 3-year nodal relapse-free survival, 3-year disease-free survival, 3-year melanoma-specific survival, rate of surgical complications, and quality of life (SF-36 questionnaire). Sample size & Statistics: the estimated sample size to be recruited is 68 patients. Survival outcomes will be analysed through the Kaplan-Meier method, with the log-rank test. Conclusions: This Project is expected to provide unique evidence regarding a less radical nodal surgery for patients with melanoma. If favourable results are obtained, controlled studies could be conducted and changes in current clinical practice could be considered.