View clinical trials related to Head and Neck Cancer.
Filter by:The purpose of this study is to explore the efficiency and safety of anti-Programmed death-1 (PD-1) immunotherapy, tislelizumab, combined with EGFR-tyrosine kinase inhibitor (TKI), afatinib as a new neoadjuvant treatment regimen for patients with resectable head and neck squamous cell carcinoma (HNSCC).
A Phase 1B/2A study will be conducted to establish safety and dose level of AMXT 1501 dicaprate in combination with IV DFMO, in cancer patients.
To investigate if the combination of fresh frozen sectioning based on cetuximab-800CW can enhance tumor-positive margin detection intra-operatively.
The purpose of this research study is to understand how radiation therapy may affect blood vessels in the neck called the carotid arteries. Investigators want to look at narrowing of the artery or thickening of the walls of the arteries.
Cancer care for head and neck cancers is multidisciplinary and complex and knowledge on the rare ones is limited. There is a wide consensus that to support clinical research on rare cancers, clinical registries should be developed within networks specializing in rare cancers. Our hypothesis is that our head and neck cancer registry established in the framework of the European reference network on rare adults solid cancers will help to: describe the natural history of rare head and neck cancers; evaluate factors that influence prognosis; assess treatment effectiveness; measure indicators of quality of care. The registry is a prospective observational real-world registry. It collects data from already available registries/database and/or directly from expert health care providers (HCP). Information are prospectively collected on patient characteristics; exposure, outcomes and potential confounders (https://euracan.eu/research/starter/rare-head-and-neck-cancer-registry/#codebook). The registry if federated (i.e. data are stored by the data provider). Analyses will be performed using the federated learning approach which split computations into a local part and a central part. The data providers will share sub-computations only. Data quality checks are envisioned to assess whether data value are present, valid and believable. Validity and plausibility checks are embedded in the electronic case report form (CRF) in the form of alerts and errors during the data input. Additional checks are implemented in R and run using the federated learning to ensure a central data quality monitoring. The data analyses will include descriptive statistics showing frequency and patterns of patients' and cancers' variables; analytical analyses investigating the association of patients/disease and/or treatment characteristics and health outcomes. Fondazione IRCCS Istituto Nazionale dei Tumori (INT) is the coordinator of the EURACAN registry as well as a data provider. At the INT, and at each HCP involved, responsible investigators ensure that the EURACAN registry will be implemented in compliance with the protocol, following the instructions and procedures described herein. Each HCP is a controller and will identify a data processor. The processing of patients' personal data taking part in the registry is compliant with local privacy legislation and the General Data Protection Regulation 2016/679 of the EU.
In this multi-center randomized clinical trial, head and neck cancer (HNC) survivors with clinically significant body image distress (BID) (N=180) will be randomized to BRIGHT (a brief video tele-cognitive behavioral therapy intervention) or Attention Control (AC, a manualized tele-supportive care intervention that controls for professional attention, dose, delivery method, and common factors). HNC survivors will complete IMAGE-HN (a validated patient-reported outcome measure [PROM] of HNC-related body image distress [BID]; primary endpoint), measures of psychological and social well-being and quality of life (QOL), and measures of theory-derived mechanisms of change underlying BRIGHT (mediators).
This is a monocentric, prospective, pilot study that will enrol 435 subjects with solid tumours that are treated with immune checkpoint inhibitor(s) (ICI) alone or in combination with chemotherapy or targeted therapy. For enrolled subjects, clinical and laboratory evaluations will be performed and reported at different time points: - Early (4-6 weeks after treatment start) - Midtime (8-11 weeks after treatment start) - Late (13-18 weeks after treatment start) - At the occurrence of immune-related adverse events (irAEs), clinical and laboratory evaluation will be performed at two principal time points: - For the 1st time of any grade 1 or 2 irAE if the subject developed it. - For the 1st time of any grade 3 or 4 irAE if the subject developed it.
This prospective imaging study is evaluating the feasibility of using the Halcyon 4.0 radiotherapy system for radiation therapy planning in patients with cancer. The Halcyon 4.0 system has been engineered to decrease the image acquisition time and the radiation exposure, but the system has not yet been clinically validated for use in radiation planning. This pilot study will evaluate images obtained on the Halcyon 4.0 system to assess if the quality is sufficient for radiation treatment plan construction.
By doing this study, the research team would like to learn if using a blood test that measures the amount of tumor DNA in blood can help guide how to use chemotherapy combined with immunotherapy for individuals with head and neck cancer. Using this blood test, the research team hopes to learn if intermittent (occasional) chemotherapy added to immunotherapy will work better than immunotherapy alone. Participation in this research will last about two years.
The Marathon of Hope Cancer Centres Network (MOHCCN) is a national network of cancer centres that pursue collaborative cancer research in precision medicine (an emerging approach for disease treatment and prevention that considers individual variability in DNA, environment and lifestyle) to accelerate the discovery of innovations and improve the health outcomes for cancer patients