View clinical trials related to Melanoma (Skin).
Filter by:The purpose of this study is to help prevent skin cancer by improving the use of sun protective behaviors among youths living in rural communities in Utah and West Virginia.
The goal of this study is to observe metabolic features associated with human melanoma tumors.
The goal of this observational study is to learn about if new biomarkers such as gut microbiota and molecular genetics melanoma features could predict clinical radiological and pathological response to neoadjuvant monotherapy with anti-PD1 agents in patients with resectable stage IIIB-D melanoma. The main questions it aims to answer are: - radiological and pathological response rate to three doses of antiPD1 agents; - do radiological and pathological responses correlate with gut microbiota and melanoma molecular genetics features Participants will receive three doses of aPD1 monotherapy as per center routine practice and will undergo regional lymphadenectomy. Before treatment initiation patients will be asked to bring faeces probes and fill out dietary questionnaire as well as just before the surgery. After sugery adjuvant therapy will be prescribed for 12 month and patients will be followed up according to institutional routine practice for 5 years.
This study aims to examine the isolated effect of leaderboards (scoreboards) and daily training motivation on dermatology skill acquisition and training engagement within a gamified dermoscopy training platform. Research Questions: What is the effect of leaderboards and/or daily motivation on diagnostic accuracy? What is the effect of leaderboards and/or daily motivation on self-regulated learning: time spent training and case amount? What is the effect of leaderboards and/or daily motivation on training distribution? Method: 150 danish medical students will upon inclusion and end of trial answer a Multiple Choice Questionnaire (MCQ). Participants will be asked to download the gamified training platform onto their mobile devices. Within the app participants can access quizzes on a library of 10,000+ skin lesions combined with written educational modules on histopathological skin diagnosis. Participants receive instant feedback on quiz answered. Points are awarded for correct answers and removed for incorrect answers. Participants will be randomized to one of three groups; either receiving no communication from the principal investigator, receiving a daily motivational message, or receiving a once daily updated leaderboard ranking participant's scores. The intervention will last for seven days, followed by a 14-day washout period.
The goal of this Cross-sectional analytical observational study of clinical case series is to validate a Computer-aided diagnosis software developed by AI Labs Group for the identification of cutaneous melanoma in images of lesions taken with a dermatoscopic camera. This study will be carried out in patients with skin lesions with suspected malignancy seen at the Dermatology Department of the Cruces University Hospital and Basurto University Hospital. The main questions it aims to answer are: - If the AI algorithm developed by AI Labs group is a valid tool to identify cutaneous melanoma in dermoscopic images with high reliability. - Comparing the device's performance with dermatologists, with primary care physicians' assessment to be considered in later phases. - Assessing the utility and feasibility of the device in adverse environments with technical limitations. In this way, patients with skin lesions with suspected malignancy seen at the Dermatology Department of the Cruces and Basurto University Hospitals will be recruited. Patients in this study will not receive any specific treatment as part of the research protocol. In addition, they will continue their regular prescribed medications and treatments as directed by their primary healthcare providers. This study does not require doing a follow-up of the subjects. Every patient only gets their skin lesions photographed at the time of visit.
Robust detection of single molecules in complex biological fluids is the ultimate goal in the field of disease biomarker analysis. Conventionally, to enable the quantitative analysis of individual molecules in macroscopic volumes, analyte pre-concentration and sample partitioning into fL-nL compartments has been combined with the amplification of the specific recognition events. In these setups, the positive or negative detection of fluorescence signal is triggered by enzymatic reactions occurring in each compartment. Binary readout based on Poisson statistics quantifies ultra-low concentrations of analyte molecules. This approach has been adopted for nucleic acids analysis in current digital PCR, and is also available for proteins in a technique coined as digital ELISA. The objective of VerSiLiB is to develop an enzyme-free amplification strategy for the analysis of both protein and nucleic acid analytes with the single digital platform that offers means to access additional information on target analytes not achievable with current technologies. Method is based on novel affinity-mediated-transport amplification, where affinity interaction of target analyte with a specific ligand attached to a magnetic nanoparticle transporter is accompanied with rapid shuttling of fluorescent tracers that serve as reporters. By applying external magnetic field, tracers are transported from the tracer storage side (where they are dark) to tracer active side (where they become bright) only if target analyte is present in the small reaction compartment. Tailored plasmonic nanostructures will be prepared at the storage and active sides of the compartment to render the tracer either dark or bright. The aim is to perform technology validation for the novel VerSiLiB proteogenomics amplification platform in cancer management using biobanked liquid biopsy samples.
The goal of this Interventional study aims to apply, in our Institutes, a 4p oncological model i.e. predictive, personalized, of precision and participated (Regina Elena and San Gallicano).
BDTX-4933-101 is a first-in-human, open-label, Phase 1 dose escalation and an expansion cohort study designed to evaluate the safety and tolerability, maximum tolerated dose (MTD) and the preliminary recommended Phase 2 dose (RP2D), and antitumor activity of BDTX-4933. The study population for the Dose Escalation part of the study comprises adults with recurrent advanced/metastatic non-small cell lung cancer (NSCLC) harboring KRAS non-G12C mutations or BRAF mutations, advanced/metastatic melanoma harboring BRAF or NRAS mutations, histiocytic neoplasms harboring BRAF or NRAS mutations, and other solid tumors harboring BRAF mutations. The study population for the Dose Expansion part of the study comprises adults with recurrent advanced/metastatic NSCLC harboring KRAS non-G12C mutations. All patients will self-administer BDTX-4933 orally in 28-day cycles until disease progression, toxicity, withdrawal of consent, or termination of the study.
This study is an open-label, randomized, comparative phase III study, which will include subjects with resectable stage III skin melanoma (up to 3 resectable transient metastases are acceptable).
The aim of study is to investigate the efficacy, safety, immunogenicity, pharmacokinetics, and pharmacodynamics of BCD-217 followed by prolgolimab monotherapy versus prolgolimab monotherapy as first-line therapy in subjects with unresectable or metastatic melanoma.