View clinical trials related to Head and Neck Cancer.
Filter by:Dose-painting may increase the chance of cure at minimised radiation-induced toxicity in volumetric-arc radiotherapy (VMAT) for head and neck cancer. This trial (RADPAINT) investigates the safety of FDG-PET guided radiotherapy using VMAT dose-painting by contours for patients with head and neck cancer of poor prognosis.
An intratumoral alpha particle based approach for cancer treatment using diffusion alpha-emitting radiation therapy (DaRT)
This study aims to develop and evaluate a low-cost, portable, flexible nasopharyngeal scope (FNS) used to assess head and neck cancers (HNC) in low resource settings. The FNS will be compared to an endoscope that is used as standard of care (SOC) in terms of ease of use, image quality, and perceived pain. The ultimate goal is to compare the ease of use between the FNS to what is used in SOC.
The purpose of this study is to test the safety and tolerability of chemotherapy and radiation in combination with the investigational study drugs zimberelimab (AB122) and etrumadenant (AB928) in subjects with a locally advances head or neck cancer. The study will also ask how the study drugs change the following: - The microbiome that lives in the mouth and on the skin - Immune cells as they respond to a skin wound - Scarring (fibrosis) caused by radiation After completing a screening phase, subjects will be assigned to one of three cohorts: - Cohort 1: Subjects who will receive cisplatin, radiation and zimberelimab followed by zimberelimab only. - Cohort 2: Subjects who will receive cisplatin, radiation, zimberelimab and etrumadenant followed by zimberelimab and etrumadent. - Cohort 3: Subjects who will receive cisplatin and radiation followed by an observation period. All three cohorts will be followed for a 24 months following the conclusion of the chemoradiation.
Varian Medical Systems has recently deployed a completely novel radiation treatment system called EthosTM, a first-of-its-kind system that allows for daily adapative radiotherapy (DART), such that the treatment for that day can be created on-the-fly based on the patient's current positioning and anatomy. This system is commercially-available and FDA-approved, and UTSW Radiation Oncology has installed two such units. The ability to adjust the dose delivery every day means both that adaptive therapy is possible with every fraction and that the PTV margin can be dramatically reduced/eliminated, since investigators are treating for that day's patient setup. Investigators are therefore proposing a randomized trial using DART with near marginless (ML) setup margins (a 1 mm margin will be retained for intrafractional motion).
Adult patients undergoing a radial forearm free flap or ulnar forearm free flap will be randomized to the use of the Restrata graft in combination with split-thickness skin graft for reconstruction. Photos will document whether the Restata graft aids in the healing.
This trial is conducted by using MEAD to detect the meridian changes in patients with head and neck cancer after conventional treatment of chemotherapy or radiotherapy.
The aim of this experimental study is to evaluate the effect of nurse navigation in the management of symptoms associated with head and neck radiotherapy. All head and neck cancer patients who meet the study criteria of the Radiation Oncology Clinic of Selçuk University Medical Faculty Hospital will be included in the study. According to the previously prepared randomization list, the study group consisted of a total of 88 people, 41 in the experimental group and 47 in the control group. While the standard treatment approaches of the hospital are applied to all patients, a nursing navigation program will be applied in addition to the patients in the experimental group.Quality of life and toxicity criteria will be applied to all patients as measurement tools.
Evaluation of health-related quality of life of head and neck cancer patients undergoing immunotherapy
Assess the sensitivity of real-time near-infrared fluorescence imaging to detect microscopic residual disease in the operating room after a complete macroscopic surgical resection of head and neck cancers