View clinical trials related to Head and Neck Cancer.
Filter by:This is a phase I dose escalation study of CUDC-101 in combination with concurrent cisplatin and radiation therapy in patients with locally advanced head and neck cancer. CUDC-101 is a multi-targeted agent designed to inhibit epidermal growth factor receptor (EGFR), human epidermal growth factor receptor Type 2 (Her2) and histone deacetylase (HDAC). The study is designed to establish the safety, tolerability and maximum tolerated dose (MTD) of CUDC-101 when administered in combination with concurrent cisplatin and radiation over an 8-week treatment course, consisting of a one week run-in period of CUDC-101 administered alone, followed by seven weeks of combination treatment with CUDC-101, cisplatin and radiation therapy.
The purpose of this study is to obtain preliminary information on the potential of 99m Tc-EC-DG SPECT imaging to distinguish cancer from non cancer.
The purpose of this study is to investigate the role of the immune system in the response of squamous cell cancers of the head and neck to treatment that includes radiation therapy. Current research demonstrates that several natural immune cells and molecules affect the way the body's immune system interacts with a cancerous growth. Some cancers may be related to infection with a virus, such as the Human Papilloma Virus (HPV). Studying the activity of the immune system in head and neck cancers, especially cancers related to HPV infections, can provide valuable information to better understand the body's interaction with cancer cells.
The purpose of this study is to help us to better understand the effects of two different types of surgical techniques on pain and quality of life in patients with precancerous lesions or early stage mouth cancers.
RATIONALE: Everolimus may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth and by blocking blood flow to the tumor. Drugs used in chemotherapy, such as carboplatin and paclitaxel, work in different ways to stop the growth of tumor cells, either by killing the cells or by stopping them from dividing. PURPOSE: This phase I/II trial is studying the side effects and best dose of giving everolimus together with carboplatin and paclitaxel in treating patients with locally advanced head and neck cancer that cannot be removed by surgery.
The purpose of this feasibility study is to examine the safety and effect of resistance training on muscle strength, lean body mass, physical functioning, fatigue, and quality of life in head and neck cancer patients receiving radiation therapy.
The goal of this clinical research study is to learn if armodafinil can reduce fatigue and other common symptoms in patients that have received treatment for head and neck cancer.
This study will test whether it is possible to introduce new genetic material into a small portion of a tumor and have the product of the new gene not only kill those tumor cells that were infected initially, but also the surrounding tumor cells as well with limited or no harm to the patient. The desired effects of this approach are achieved by focusing potent chemotherapies directly within the tumor itself and, as a result, avoiding injury to the remainder of the body. In this study, we will use two components, the first of which is a virus, known as an adenovirus, that has been crippled (i.e., it cannot make more of itself) and loaded with a bacterial gene called E. coli purine nucleoside phosphorylase (PNP). Adenoviruses are considered to be relatively safe vehicles for gene delivery and are presently being used in numerous human trials and therapies worldwide, including a head and neck cancer therapy approved for use outside the United States. The loaded adenovirus will be used to deliver the PNP gene directly into a tumor in patients. This gene is not expected to have an effect itself. However, the gene produces PNP inside the tumor and this protein will activate the second component of the therapy, a drug called fludarabine phosphate, which is approved by the FDA for certain types of blood-cell cancers, but has not been shown to be effective against most solid tumors. The proposed therapy gives the patient several infusions of fludarabine following the injection of the virus carrying the PNP gene and, as the fludarabine enters the tumor, it will be converted by PNP into a second compound, fluoroadenine. Numerous studies in mice and rats have shown that fluoroadenine is a very potent anti-cancer agent and that it will kill the tumor cells where it is made as well as those in the immediately surrounding area.
The proposed study is a first-in-human pilot of a novel anti-cancer strategy: Metnase inhibition to potentiate DNA damaging chemotherapy. The investigators will conduct serial tumor biopsies in subjects with HNSCC at three timepoints: baseline, after cisplatin, and after cisplatin-raltegravir. The investigators will investigate immunohistochemical expression changes of γH2AX, Chk2, and Annexin V, three biomarkers of DNA damage and apoptosis. The study is designed to identify an intermediate signal of the potentiation of cisplatin chemotherapy by raltegravir in HNSCC, which will justify a future phase I/II study.
The clinical hypothesis of this study is that the first-line treatment with the combination of panitumumab and paclitaxel will provide benefit for patients with metastatic or current Squamous Cell Carcinoma of the Head and Neck (SCCHN)