View clinical trials related to Head and Neck Cancer.
Filter by:This is a study to investigate the efficacy and safety of ADP-A2M4 in combination with pembrolizumab in HLA-A*02 eligible and MAGE-A4 positive subjects with recurrent or metastatic Head and Neck cancer.
The purpose of this research is to evaluate the result of treatment for neck lymphedema on throat pressure in patients who have received radiation therapy for head and neck cancer.
This is an open-label study designed to evaluate safety and efficacy of enoblituzumab in combination with MGA012 or MGD013 in first-line treatment of patients with recurrent or metastatic squamous cell carcinoma of the head and neck (SCCHN).
This research is studying the safety and effectiveness of AMD3100 and pembrolizumab in participants with metastatic head and neck squamous cell carcinoma.
This is a Phase II treatment, randomized 3:1 ratio, open label clinical trial to study the effect of short duration administration of N-acetyl cysteine on oral microbiome and on mucositis caused by concurrent chemotherapy and radiotherapy.
This trial is a prospective, monocentric study aiming to evaluate an adaptive radiotherapy method (automatic deformable recontouring on the daily MVCT (MegaVoltage Computerized Tomography)) using the Precise ART™ software in patients with head and neck cancer. Patients will receive helical intensity-modulated radiotherapy (IMRT) according to the standard recommendations (35 fractions during 7 weeks). Radiotherapy will include daily repositioning MVCT. For the study, patients will undergo 4 intermediate re-planning CT-scan (without injection of intravenous contrast agent) at week 3, week 4, week 5 and week 6 of treatment. 3 recontouring modalities will be evaluated for the study: - Manuel recontouring (standard method) - Precise ART™ deformed contours - Precise RTX™ deformed contours The total duration of the study for each patient will be 7 weeks.
The purpose of this study is to evaluate and reduce pain and improve quality of life in patients being treated for head and neck cancer with primary tumor resection and bilateral neck dissections. Patients will be randomly assigned to receive either pre-operative pregabalin (Lyrica) or a placebo. Patients and investigators will be blinded to which medication patients receive, and all patients will receive the same postoperative pain medication regimen with appropriate pain treatment as needed. Patients will be asked to fill out surveys prior to surgery, while in the hospital after surgery, and at each follow-up appointment for up to 24 months.
To develop a novel a mobile phone application (available on Android and IOS) for patients receiving radiation treatment for head and neck cancer. Through this application, patients will get access to their treatment calender, through a system connected with Mosiac database, which provides a timely and precise access to their treatments schedule. In addition, patients will be able to report their treatment related toxicity in real time fashion, these symptoms will be addressed daily instead of the weekly floor clinic checks. Furthermore, the radiation oncologist will receive an instant notification through the application, if there is error in patient's treatment (missing field, wrong dose, etc..)
66% of HNC patients present with advanced-stage disease at initial diagnosis. The 5-year survival rates for stages IVa, IVb, and IVc are 32%, 25%, and <4% respectively. Accurate pre-treatment staging is vital in determining the optimum procedure for the management of HNC. Early identification of non-responders may allow modification of their treatment through the introduction of more intensive therapies. Identifying prognostic factors that predict patient outcome will ultimately lead to new treatment regimens. Tumor hypoxia and proliferation are two key characteristics of cancer that were shown to correlate with poor response to treatment in HNC. In this proposal, the investigators assess the prognostic values of these two markers. Combining information from these two biological markers shall result in prognostic information superior to those of any of the two separately. Imaging those vital tumor characteristics simultaneously shall provide more coherent assessment of tumor microenvironment than does registration of corresponding images acquired in different imaging session, thus subject to uncertainties resulting from transient biologic changes and image registration process. The investigators propose to use a method that the investigators previously developed to simultaneously and non-invasively image tumor hypoxia (FMISO-PET) and proliferation (FLT-PET) within a single PET/CT study. CT Perfusion scan will be performed 1st, followed by PET imaging with staggered FMISO and FLT injections. FMISO and FLT signals will be separated retrospectively using kinetic modeling. The investigators believe imaging tumor hypoxia and cell proliferation simultaneously yield information underpinning for image-guided and radiobiological based dose painting, adaptive therapy, and patient medical management. If successful, this pilot study will constitute the basis for a NIH grant proposal that aims to improve treatment outcome assessment in HNC.
This is a study of Nivolumab in combination with experimental medication BMS-986205 compared to the standard of care EXTREME regimen in head and neck cancer that has come back after initial treatment, or is widespread when first diagnosed.