View clinical trials related to Head and Neck Cancer.
Filter by: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 unilateral surgery. In this study, patients will be randomly assigned to receive either pre-operative stellate ganglion block or no pre-operative treatment. Blocks will be placed by a trained anesthesiologist using ultrasound guidance in the preoperative holding area prior to surgery. All patients will receive the same post-operative 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.
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.
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.
This study observes the clinical efficacy of combining proton SBRT with PD-1 blockade immunotherapy in both the locoregionally recurrent and metastatic settings.
Study to determine response rate of the combination of pembrolizumab plus epacadostat in patients with head and neck cancers that have received prior immunotherapy.
The aim of this protocol is to refine the accuracy of proton beam therapy (PT) by the use of dual energy computed tomography (DECT), in conjunction with novel iterative image reconstruction algorithms, to more precisely determine the tissue properties through which the proton beam path travels.
Fluorescent technology continues to advance in the detection of sentinel lymph nodes (SLNs). Currently, this requires switching from near-infrared light to white light to be able to identify the fluorescent tissue contrasting with normal surrounding tissue. Currently, no system has been studied specifically for head and neck sentinel lymph node biopsies using a hands free goggle system that can visualize white light (normal surgical visualization) and nearinfrared light (ICG fluorescence) simultaneously. This technology may have implications on the safety and accuracy of sentinel lymph node biopsy for head and neck mucosal and cutaneous tumors. Secondarily, this may reduce operative costs by decreasing the amount of time required to perform the SLNB procedure. Regarding parathyroid identification, this technology has the potential to identify these very small glands during procedures they are at risk. These glands are not only at risk of inadvertent removal if not adequately identified, but may also be at risk if devascularized by manipulation during the surgical procedure. Therefore, early and accurate identification may decrease the rate of temporary and permanent hypoparathyroidism and hypocalcemia. This is not only an issue during thyroid and parathyroid surgery, but during laryngectomy surgery where the anatomic region these glands are located are often resected to remove at risk lymph nodes from cancer spread. Therefore, identifying these glands may help preserve parathyroid function in this patient population as well.
The study is being performed to assess the MTD, pharmacokinetics (PK), safety, tolerability and preliminary antitumor activity of DBPR112 in patients with head and neck cancer and EGFR mutated lung cancer.
The purpose of this phase 2 study is to evaluate the efficacy and safety of NIR178 in combination with PDR001 in multiple solid tumors and diffuse large B-cell lymphoma (DLBCL) and further explore schedule variations of NIR178 to optimize immune activation through inhibition of A2aR.
The purpose of this first-in-human study of CX-2009 is to characterize the safety, tolerability, pharmacokinetics (PK), pharmacodynamics (PD) and antitumor activity of CX-2009 in adult subjects with metastatic or locally advanced unresectable solid tumors. PROCLAIM: PRObody CLinical Assessment In Man CX-2009 clinical trial 001 PROBODY is a trademark of CytomX Therapeutics, Inc