View clinical trials related to Head and Neck Neoplasms.
Filter by:Doctors leading this study hope to learn about the safety and effectiveness of combining medications HB-201 and HB-202 (also known as TheraT® vectors) with chemotherapy using carboplatin and paclitaxel in the beginning of the study (induction) and if combining these medications can increase tumor shrinkage after therapy and reduce the amount of radiotherapy and chemotherapy that will later be needed. In addition, the study is looking at ways to reduce side effects overall using robotic surgery, chemotherapy and radiotherapy, or radiotherapy alone. Your participation in this research will last about 2 years. HB-201 and HB-202 are experimental (meaning the US Food and Drug Administration (FDA) has not approved these drugs), and therefore they can only be given in a research study.
This study examines how head and neck cancer treatment affects quality of sleep over time and factors that contribute to sleep quality. Sleep plays a critical role in healing and quality of life, and recent studies investigating sleep disorders in head and neck cancer patients reveal sleep quality is a major determinant of post-treatment outcomes. Information from this study may help researchers better understand how treatment impacts sleep quality so that they can make changes that may help improve patient sleep quality.
The Photobiomodulation therapy could have positive effects on quality of life and oral health in head and neck cancer survivors post-radiotherapy. The improvement in quality of life will be maintained after a follow-up period.
This study evaluated the benefits of immunonutrition regarding the prevention of severe mucositis. Patients with head and neck cancer (HNC) undergoing definitive concurrent chemoradiation including 3-week cycles of cisplatin were enrolled in this double-blind phase II study. Patients were randomly assigned to receive an immunonutrition containing omega-3-fatty acids, arginine, dietary nucleotides, and soluble fiber or an isocaloric isonitrogenous control. All patients received the assigned product 5 days before each chemotherapy session. The proportion of patients with severe mucositis was compared between the immunonutrition and control groups.
This study allows head and neck cancer surgeons to specifically visualize cancerous cells apart from normal healthy tissue. 5-aminolevulinic acid (5-ALA) is a safe and effective FDA-approved agent successfully used by neurosurgeons for FGS of different brain tumors is given to the patients preoperatively. Using specific wavelengths of light as well as specialized magnified lenses the surgeons use this technique to assist in tumor resection.
This clinical trial studies the effect and underlying mechanisms of sleep and circadian rhythm factors on oral mucositis pain in head and neck cancer patients treated by chemoradiotherapy. Poor sleep may have a correlation to increased pain. A behavioral intervention, Brief Behavioral Therapy for Cancer related Insomnia, may improve patients' sleep and may also reduce oral mucositis pain.
Head and neck squamous cell carcinoma is the 6th most common cancer worldwide with an annual incidence of 12000 cases in the UK alone. More than 60% of cases are diagnosed at the locally advanced stage. These patients are treated with radical intent, using a combination of surgery, radiotherapy and/or chemotherapy. Unfortunately 5 in 10 patients relapse within 2 years, with most relapses occurring within the first year since treatment. Unlike many other solid tumours, 80% of relapses occur locoregionally. Salvage surgery offers the best chance of long-term survival for patients with loco-regional recurrence, but this is only possible if the recurrence is amenable to resection. Salvage surgery has been estimated to improve survival outcomes in relapsed cancer by up to 73%. For salvage surgery to be feasible, relapses need to be detected early. Current surveillance strategies have little evidence base, with imaging often driven by clinical symptoms - often when the recurrence is no longer amenable to salvage surgery. With this study, we will address the unmet clinical need to develop a risk-stratified surveillance pathway to enhance detection of early relapse of radically treated head and neck cancer. At present, tumour grade and biomarkers such as HPV status have offered important but insufficient information to guide surveillance strategies.
Immunotherapy is widely administrated as anticancer treatment in metastatic setting. Despite a proved efficacy in several cancer types and clinical situations, it exists a wide variability of responses in terms of efficacy and toxicity. The rate of responders depends mostly on the type of pathology, with 40% of responders among melanoma patients, 20-30% among lung and head and neck cancer patients and only 1% of responders among pancreatic cancer patients. Thus, the main challenge today is to be able to select patients for whom the treatment is likely to be effective. Several studies suggested that tumors with a high mutational burden and expressing PD-L1 are better responders to immunotherapy. However, a proportion of PD-L1 negative cancers responds to immunotherapy, suggesting that other parameters have to be considered together with PD-L1 expression. Of that, the immunotherapy clearance seems to have an impact on overall survival, but larger studies, including different molecules and cancer types, are needed to better understand the correlation between the clearance and the response to immunotherapy. Tumor cells released from the primary tumor in the blood circulation (CTCs, for circulating tumor cells) are considered as "liquid biopsies", as they contain the entire genetic and phenotypic information representative of the tumor, including PD-L1 expression. Thus, the variation of PD-L1 expression under treatment can be easily followed-up on blood samples collected during the time. The objective of MADMAS is to study the correlation between the immunotherapy clearance, measured at the different times during treatment, and the variation of the number of CTCs expressing PD-L1 after two cures of treatment. MADMAS will enroll patients with lung or head and neck cancers, treated with an immunotherapy-based therapy. Blood samples will be collected at the baseline and before the first two cures of treatment. The immunotherapy clearance will be measured with an innovative approach of Mass Spectrometry, and PD-L1 expression will be measured on CTCs, purified with a highly sensitive microfluidics technology.
This study aims to evaluate if eating within an 8-10-hour window during the day, without any caloric restriction, can lead to better response rates to immunotherapy in head and neck cancer patients.
Patients with malignant tumours of the cephalic pole have a poor prognosis, despite a wide range of treatments. prognosis despite a large therapeutic arsenal. Among this arsenal, radiotherapy (RT) is one of the standard treatments for these tumours. However, this treatment can cause damage to the surrounding healthy tissue, has limited efficacy in hypoxic However, this treatment can cause damage to the surrounding healthy tissue, has limited efficacy in hypoxic tissue and can promote pro-tumour inflammation. In these circumstances, hadrontherapy, which uses charged heavy particles, such as protons or carbon ions, is the preferred treatment. protons or carbon ions, seems more appropriate for the treatment of these tumours. However, although inflammation plays a major role in tumour development and tumour development and therapeutic response, few studies have evaluated the immune response response after proton therapy (PT) and carbon therapy (CT). The objective of this project is to study the effect of hadrontherapy on resident/circulating inflammation after brain irradiation. brain irradiation. In a first step, the impact of different PT and CT TEL on macrophages (MФ), the most abundant immune cells in malignant solid tumours, will be evaluated in vitro. malignant solid tumours, will be evaluated in vitro. In a second step, the evolution of circulating leukocytes after brain irradiation with X-rays or protons will be studied in vivo in rodents and patients. rodent and patient. In this project, we propose to study for the first time the inflammatory response after hadrontherapy in the context of a cephalic tumour. cephalic tumour. These results will allow a better understanding of the biological response response following PT and CT with the aim of optimising RT and potentially and potentially translate these data to the clinic.