View clinical trials related to Head and Neck Cancer.
Filter by:In this study, we aim to assess whether Patient Derived Organoids can be used to predict treatment sensitivity in HNSCC patients.
As the head and neck cancer (HNC) survival rate has increased and therefore, the focus of post-treatments is to improve the quality of patients' life by decreasing the side effects. Treatment of HNC leads to acute and chronic soft tissue damage, and functional loss. However, patients with HNC need having rehabilitation throughout the post-treatment phase so as to improve functional outcomes because of the long term side effects. Chronic shoulder morbidity is one of the complications after surgery due to spinal accesory nerve injury. Moreover, pain, dysphonia, and musculoskeletal impairments are observed in the individuals after the treatments and the patients also have trouble swallowing problems, loss of taste, dry mouth, trismus, nausea, vomiting, and fatigue during and after therapy. Since there is limited research on the usage of manual therapy techniques in HNC patients, this study aims to investigate muscle changes after surgery and the effectiveness of physiotherapy on muscle material behaviour from a biomechanical perspective by using shear wave elastography. In this respect, the hypothesis is: H0: Physical therapy interventions do not impact mechanical properties of muscle, pain, quality of life, cervical and shoulder functionality in HNC patients after neck dissection. H1: Physical therapy interventions will improve mechanical properties of muscle, pain, quality of life, cervical and shoulder functionality in HNC patients after neck dissection.
InGReS is a phase I pilot study of adaptive dose-escalated radiotherapy in combination with platinum-based chemotherapy (CRT) for locally advanced head and neck cancer. InGReS will assess the feasibility of adapting the radiotherapy (RT) plan for each patient, based on anatomical and metabolic changes in the tumour seen on MRI and FDG-PET-CT performed after 2 weeks of CRT in a multicentre setting. The overall aim of the trial is to determine the safety and feasibility of delivering dose-escalated Intensity Modulated Radiotherapy (IMRT) to the residual primary tumour, as seen on intra-treatment imaging, in the final 3 weeks of RT.
The purpose of this study is to demonstrate the superior efficacy of Xevinapant (Debio 1143) versus placebo when added to radiotherapy in the treatment of high-risk participants with resected locally advanced squamous cell carcinoma of the head and neck (LA SCCHN) who are ineligible to receive cisplatin-based chemoradiation concurrently. Study details include: Study duration: Participants will be followed until the last on-study participant reaches his/her 60-month post-randomization visit, a decision to end the study has been triggered, or until premature discontinuation from study, whichever occurs first. Treatment duration: 18 weeks, consisting of six 3-week cycles. Health measurement/observation: Improved Disease-Free Survival. Visit frequency: Weekly visit during combination therapy period, once every 3 weeks during monotherapy period, and every 3, 4, or 6 months during the Disease-Free Survival Follow-up period in Year 1, 2 and 3, or 4 and 5 (with telephone contact in between), respectively, and every 3 months (telephone visits allowed) during the Overall Survival Follow-up period.
This pilot study evaluates offering Head and Neck Cancer (HNC) patients a choice between standardized and individualized follow-up after HNC treatment. Following treatment, the patient will be educated about self-examination of the head and neck and which physical symptoms require a follow-up visit. After completing 1.5 years of uncomplicated guideline-prescribed follow-up, patients will be offered the option to switch to individualized follow-up through a tailored decision aid. Standardized follow-up entails continuing the guideline-prescribed follow-up schedule until five years after treatment. Individualized follow-up consists of follow-up visits based on symptoms and other needs at the patient's initiative. We hypothesize that giving patients the choice between standardized and individualized follow-up is feasible and saves costs while maintaining quality of life.
The aim of this prospective non-interventional multi-center trial is to study the prognostic value of intratumoral and systemic immune biomarkers in newly diagnosed non-metastatic head and neck cancer. Furthermore, the local immunological processes in the tumor will be correlated with the systemic immune status determined in the peripheral blood to identify prognostic immune signatures. In addition, tumor organoids will be generated ex vivo for functional biological analyses. The main objective is to create a prognostic score determined by clusters based on tumor immunologic criteria.
This is an observational case-control study to train and validate a genome-wide methylome enrichment platform to detect multiple cancer types and to differentiate amongst cancer types. The cancers included in this study are brain, breast, bladder, cervical, colorectal, endometrial, esophageal, gastric, head and neck, hepatobiliary, leukemia, lung, lymphoma, multiple myeloma, ovarian, pancreatic, prostate, renal, sarcoma, and thyroid. These cancers were selected based on their prevalence and mortality to maximize impact on clinical care. Additionally, the ability of the whole-genome methylome enrichment platform to detect minimal residual disease after completion of cancer treatment and to detect relapse prior to clinical presentation will be evaluated in four cancer types (breast, colorectal, lung, prostate). These cancers were selected based on the existing clinical landscape and treatment availability.
The purpose of the research is to evaluate a new schedule of alternating cycles of induction chemoimmunotherapy (chemotherapy plus pembrolizumab) and immunotherapy (pembrolizumab) alone for the initial treatment of patients with advanced lung or head and neck cancers.
Hypoxia occurs in about 80% of head and neck tumors. Based on experimental and clinical data, hypoxia is a useful parameter for pretherapeutic stratification. These radioresistant regions can be detected with FMISO PET/CT. Moreover, hypoxic subvolumes of tumors can be evolving as target volumes for radiotherapy ("dose painting") in hypoxia imaging-based dose escalation.
This project aims to organise the sampling of blood and tumor at key points of the standard of care of patients with recurrent or metastatic squamous-cell carcinoma of the head and neck (HNSCC). This will allow to identify new potential predictive biomarkers of efficacy of immunotherapy and to investigate the evolution of the tumoral microenvironment after successive systemic treatments.