View clinical trials related to Head and Neck Neoplasms.
Filter by:Patients undergoing head and neck cancer surgery often have a lot of pain after surgery, which can lead to a need for a lot of narcotic pain medication. These medications can have many side effects that can make recovery more difficult including nausea, vomiting, dizziness, being overly sleepy, itchiness, inability to urinate, confusion, inability to have a bowel movement, longer time before being able to start walking. These side effects can make the hospital stay longer. The use of gabapentin, which is a non narcotic pain medication that focuses on nerve pain, has been used in smaller head and neck surgeries including removal of tonsils, sinus surgery, thyroid surgery. Studies in patients needing orthopedic or OB/Gyn surgery have shown improved pain control with gabapentin. Potential benefits to future patients include improved pain control, less narcotic associated side effects and faster functional recovery.
The study population has locally advanced or metastatic bronchial or head and neck cancer. This study assesses the value of concomitant chemo/radiotherapy with carboplatin daily during metastatic radiotherapy versus radiotherapy alone. The realization of a systemic treatment during the radiotherapy could make it possible to obtain a benefit on the control of the evolution of the metastases and thus of the pains generated, as well as on the quality of life of the patients. In addition, a benefit in overall survival is possible.
The treatment of xerostomia is aimed to increase existing saliva flow or replace lost secretions, the control of the state of oral health, the control of dental caries, and the treatment of possible infections. Therapy options in xerostomia depend on the presence of residual secretion or the absence of it. When residual secretory capacity is present, it is advisable to regularly stimulate the salivary glands by mechanical or gustatory stimuli as supportive oral care. Aqualief® is a food supplement based on carnosine and hibiscus. These two ingredients are mixed in specific proportions to form a pH buffering system which maintains the pH of the oral cavity at the proper value which is required for the regular secretion of saliva.
This early phase 1 trial studies the use of everolimus in restoring salivary gland function in participants with locally advanced head and neck cancer after concurrent chemoradiation or radiation therapy alone.
Management of pharyngoesophageal stenosis (PES) in patients after head and neck cancer (HNC) treatment remains a challenge. There are some cases of strictures refractory to dilation sessions. This study aimed to evaluate the efficacy of Mitomycin C (MMC) endoscopic injection for the treatment of refractory pharyngoesophageal stenosis. Patients and methods: This is a prospective study in patients with dysphagia following head and neck cancer treatment, without evidence suggestive of tumor recurrence, and refractory to endoscopic treatment. Theses undergo endoscopic dilation of the stenotic segment with thermoplastic bougies, followed by the injection of MMC.
This study observes the clinical efficacy of combining proton SBRT with PD-1 blockade immunotherapy in both the locoregionally recurrent and metastatic settings.
The purpose of this study is to evaluate the safety and preliminary efficacy of MK-1697. There are 2 parts in this study: dose escalation to determine the recommended phase 2 dose (RP2D) and confirm the RP2D (Part A) and cohort expansion to determine preliminary efficacy in participants with colorectal cancer (CRC) or head and neck squamous cell cancer (HNSCC) (Part B). No formal hypothesis testing will be done in this study.
Study to determine response rate of the combination of pembrolizumab plus epacadostat in patients with head and neck cancers that have received prior immunotherapy.
To derive the maximum tolerated dose of hypofractionated stereotactic body radiotherapy (SBRT) using dose painting by numbers with immunomodulating systemic therapy in patients that are reirradiated for recurrent squamous cell carcinoma of the head and neck.
It has been well established that malignant tumors tend to have low levels of oxygen and that tumors with very low levels of oxygen are more resistant to radiotherapy and other treatments, such as chemotherapy and immunotherapy. Previous attempts to improve response to therapy by increasing the oxygen level of tissues have had disappointing results and collectively have not led to changing clinical practice. Without a method to measure oxygen levels in tumors or the ability to monitor over time whether tumors are responding to methods to increase oxygen during therapy, clinician's reluctance to use oxygen therapy in usual practice is not surprising. The hypothesis underlying this research is that repeated measurements of tissue oxygen levels can be used to optimize cancer therapy, including combined therapy, and to minimize normal tissue side effects or complications. Because studies have found that tumors vary both in their initial levels of oxygen and exhibit changing patterns during growth and treatment, we propose to monitor oxygen levels in tumors and their responsiveness to hyperoxygenation procedures. Such knowledge about oxygen levels in tumor tissues and their responsiveness to hyper-oxygenation could potentially be used to select subjects for particular types of treatment, or otherwise to adjust routine care for patients known to have hypoxic but unresponsive tumors in order to improve their outcomes. The overall objectives of this study are to establish the clinical feasibility and efficacy of using in vivo electron paramagnetic resonance (EPR) oximetry—a technique related to magnetic resonance imaging (MRI)—to obtain direct and repeated measurements of clinically useful information about tumor tissue oxygenation in specific groups of subjects with the same types of tumors, and to establish the clinical feasibility and efficacy of using inhalation of enriched oxygen to gain additional clinically useful information about responsiveness of tumors to hyper-oxygenation. Two devices are used: a paramagnetic charcoal suspension (Carlo Erba India ink) and in vivo EPR oximetry to assess oxygen levels. The ink is injected and becomes permanent in the tissue at the site of injection unless removed; thereafter, the in vivo oximetry measurements are noninvasive and can be repeated indefinitely.