View clinical trials related to Head and Neck Neoplasms.
Filter by:The purpose of this study is to determine the magnitude of clinical benefit achieved through machine learning assisted radiation treatment planning (MLAP) on post-treatment clinical outcomes such as acute toxicity and patient reported outcomes.
Dynamic changes in the internal environment of the body are important clues for early detection, diagnosis and even cure of head and neck tumors. This project uses the combination of proteomics technology and liquid biopsy to provide more primary prevention strategies for early intervention, secondary prevention strategies for early detection and treatment, and clues for the study of the mechanism of dynamic evolution of head and neck tumors.
Rapid On-Site Evaluation (ROSE) of cytology FNA samples performed by a Pathologist or Biomedical Scientist is a real time morphological assessment of the sample in the clinical setting with the aim of acquiring all the diagnostic material in one appointment resulting in reduction in costs, improved patient care and reduced referral to treatment time. It is not practical or possible for the ROSE team to be present in every location where an FNA is performed. Telecytology (TC) or remote ROSE is a digital form of ROSE which allows a biomedical scientist or pathologist working in a remote laboratory to review the cytology slides in real time, using microscope images fed from the location where the FNA procedure is being performed.
This phase of the project will evaluate the utility and efficacy of a personalized online patient education platform developed from efforts in Phase 1 in 1) increasing patients' and caregivers' pre- and post-operative preparedness and satisfaction, and 2) reducing readmission, ED/Urgent care/unplanned clinic visits and telephone calls to clinic staff.
This is a Phase II randomized, double-blind, placebo controlled, multi-site study of Candin. It is designed to show the efficacy and safety of a 7-dose regimen of Candin over a two-year period in terms of reducing cancer recurrence rate by comparing the recurrence rates between the Candin and the placebo arm. The ratio of the number of subjects who will receive Candin versus placebo will be 3:1. Up to 100 subjects will be screened until 68 subjects are eligible for injection.
The aim of the AURACCO study is to evaluate the association between the onset of tinnitus and hearing loss in patients with locally advanced head and neck cancer treated by concomitant chemoradiotherapy or exclusive radiotherapy
This phase I trial evaluates the safety and effectiveness of using two imaging techniques, indium In 111 panitumumab (111In-panitumumab) with single photon emission computed tomography (SPECT)/computed tomography (CT) and panitumumab-IRDye800 fluorescence imaging during surgery (intraoperative), to detect disease in patients with head and neck cancer. 111In-panitumumab is an imaging agent made of a monoclonal antibody that has been labeled with a radioactive molecule called indium In 111. The agent targets and binds to receptors on tumor cells. This allows the cells to be visualized and assessed with SPECT/CT imaging techniques. SPECT is special type of CT scan in which a small amount of a radioactive drug is injected into a vein and a scanner is used to make detailed images of areas inside the body where the radioactive material is taken up by the cells. CT is an imaging technique for examining structures within the body by scanning them with x-rays and using a computer to construct a series of cross-sectional scans along a single axis. Panitumumab-IRDye800 is an imaging agent composed of panitumumab, a monoclonal antibody, linked to a fluorescent dye called IRDye800. Upon administration, panitumumab-IRDye800 targets and binds to receptors on tumor cells. This allows the tumor cells to be detected using fluorescence imaging during surgery. Adding 111In-panitumumab SPECT/CT imaging to intraoperative panitumumab-IRDye800 fluorescence imaging may be more effective at detecting disease in patients with head and neck cancer.
The purpose of this trial is to evaluate a new drug, HTL0039732, that will be administered on its own (as a monotherapy) and in combination with atezolizumab or with other approved anti-cancer therapies, in participants with advanced solid tumours.
Evaluation of the prognostic potential of tumor-infiltrating lymphocytes and PD-L1 expression in non-metastatic squamous cell carcinoma of the head and neck
The goal of this clinical trial is to learn if treating the lymphatics in head and neck cancer survivors before clinical diagnosis of lymphedema will prevent its development or progression. The main questions it aims to answer are: - Does early lymphatic treatment, before onset of clinical symptoms, prevent the development of head and neck lymphedema? - Does dermal lymphatic backflow provide an early indication of lymphedema and its response to treatment? Over the course of one year, participants will undergo several sessions near-infrared fluorescence lymphatic imaging to assess whether they have abnormal dermal lymphatic backflow following head and neck cancer treatment. Subjects will be divided into two groups, a treated and a control group. The treated group will be asked to complete daily sessions of pneumatic compression therapy at home, while the control group will receive standard-of-card treatment after clinical diagnosis of lymphedema. Researchers will compare the incidence of lymphedema between the two groups to see if treatment before diagnosis prevents the development and progression of head and neck lymphedema.