View clinical trials related to Head and Neck Cancer.
Filter by:The purpose of this clinical research is to compare new methods of identifying the locations of tumours to standard CT imaging. Analysis of the tissue removed during surgery (pathology) will be used to determine which method is more accurate. Accurately identifying the locations of tumours is especially important for radiation therapy, where the radiation needs to cover the entire tumour while minimizing the amount normal tissue that is exposed to radiation. The new method uses optical imaging (endoscopy) that can be mapped to the CT imaging using device tracking technologies. CT imaging is used to create the radiation treatment plans and so tumour locations are normally provided by CT images. The advantage of the new technology that is being tested is that it may be able to locate regions of a tumour that are at the surface of the tissue. These tumours are difficult to see using CT imaging but easy to see using optical imaging. Currently, there is no accurate way of mapping the optical imaging to the CT images used in radiation therapy. This study will enable the investigators to test the new optical imaging by comparing the tumour that the investigators identify using CT imaging alone against using CT imaging plus the optical imaging technology. The results from this imaging will be compared to pathology findings.
Veterans following treatment of head and neck cancer can be left with lasting swallowing impairment that may require diet alterations, need for feeding tubes, and risk of pneumonia. The investigators' previous trial tested a new swallowing treatment approach to target respiratory-swallow coordination. The results revealed improvements in respiratory-swallow coordination and swallowing function. The goal of this study is to determine the impact and durability of respiratory-swallow training (RST) on clinical outcomes necessary for eating, drinking, health, and quality-of-life in Veterans with swallowing impairment following treatment for head and neck cancer. A total of 50 participants will be recruited and randomly assigned to the RST or standard of care.
Patients with primary head and neck squamous cell carcinoma (HNSCC) planned for treatment with radiotherapy with or without chemotherapy in curative setting will be treated with an adaptive radiotherapy scheme. An FDG-PET/CT scan for re-delineation and re-planning will be made at the end of the second and fourth of week of radiotherapy. The non-responding part of the tumor on FDG-PET will receive a mild dose-escalation. Depending on the metabolic response, the entire tumor will receive 70 Gy or the residual FDG-avid area will receive 74 or 78 Gy.
Examining if the use of serial pHRMi to identify biomechanical changes in the swallow function of HNC patients treated with radiotherapy.
The purpose of this research is to understand if it is helpful for patients with mental illness to be connected to a psychiatrist and case manager at the time of cancer diagnosis.
Prevention of radiation-induced mucositis in patients with head and neck cancer treated with radiotherapy : A Double-blind Randomized Controlled Trial
The purpose of this study was to evaluate the efficacy and safety of pembrolizumab plus epacadostat, pembrolizumab monotherapy, and the EXTREME regimen (cetuximab + cisplatin or carboplatin + 5-fluorouracil) as first-line treatment for recurrent or metastatic head and neck squamous cell carcinoma (HNSCC).
This trial is an open-label, single arm, Phase II study using an A'Hern single stage design. The molecular prescreening step will allow to defined HPV tumor status as well as molecular status CDKN2A, CCND1 and CDK6. Following this centralized molecular screening, only patients with HPV negative status and with tumor harboring CDKN2A homozygous deletion and/or CCND1 amplification and/or CDK6 amplification could initiate abemaciclib at time of documented radiological progression. Patients will be treated with ABEMACICLIB, 400 mg/day with 2 doses of 200 mg 12 hour apart (QH12). A cycle is defined as an interval of 28 days. For each 28-day cycle, a total of 56 doses of study drug will be dispensed.
The purpose of this research study is to test the safety and efficacy of nivolumab after salvage resection in head and neck cancer in patients that have previously received definitive radiation with or without chemotherapy.
Head and neck oncologic surgery often requires the use of free tissue transfer, or microvascular reconstruction, to reconstruct defects created by tumor resections. Although there are several techniques for the reconstruction of defects, resection of large tumors leave defects that require the transfer of vascularized tissue from one part of the body to repair the defect. For example, the removal of a segment of diseased mandible requires free tissue transfer containing the component parts - skin, muscle, and bone - to reconstruct the deficit created by the resection of the tumor. Over the years, microvascular surgeons have focused their attention on maximizing the success of these technically difficult surgeries. However, now, with free flap reconstruction rates in excess of 95%, surgeons are afforded the opportunity to turn their focus toward the morbidities associated with these surgeries. While much has been published about donor site wound healing, pain control in the post-operative period has largely been neglected in the head and neck reconstruction literature. Systemic analgesia with opioids is standard of care, which has been shown to lead to increased confusion, significantly increased length of stay and increased risk of pulmonary complications. In addition, it has been shown that early mobilization and optimal wound care can decrease donor site morbidity. In this study the clinical team aims to better control donor site pain utilizing local, targeted analgesia to relieve pain at the donor site for osseocutaneous free-flaps. To reduce confounding and bias, the study will be a double-blind prospective randomized placebo controlled trial wherein patients undergoing osseocutaneous free flap surgery will be randomized to receive continuous infusion of ropivacaine or normal saline (placebo) via local continuous infusion catheter, which will be placed intraoperatively at the time of donor site closure. Patients' pain will be monitored for the first 48hrs after surgery. Donor site and global pain at rest will be evaluated every 8 hours for the first two postoperative days using a visual analogue pain scale (VAS). Essentially, there is a 100 millimeter line drawn on a piece of paper, with "no pain" marking the left end of the line and "worst pain" marking the right end of the line. Subjects mark with a pen along the line where pain is felt fits along that continuum. A researcher then measures how far along the line that mark is placed and then it is recorded. Median daily opiate use via PCA will also be tracked. Donor site-specific range of motion and strength will be assessed with a formal physical therapy evaluation on post-operative day 2 or soonest non-holiday weekday. Information on patient satisfaction, time to ambulation, and length of stay will also be collected. Subgroup analysis will be performed.