View clinical trials related to Head and Neck Neoplasms.
Filter by:This is a non-randomized phase II study of targeted radiotherapy (RT) administered concurrently with panitumumab in patients with locally advanced squamous carcinoma of the head and neck.
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 purpose of this study was to identify which cancer-related genes are turned on or turned off in order to determine how well a patient will respond to the study drug, panitumumab. Panitumumab was added to standard adjuvant or primary radiation therapy. There were subjects that receive surgery followed by therapy and subjects that receive radiation therapy without surgery. Subjects entering this study had locally advanced disease that can be treated with surgery and/or radiation therapy. Fresh frozen tumor tissue were available for genomics analysis prior to initiating panitumumab therapy. If fresh frozen tissue was not available at time of consent, a biopsy was required to participate in this trial.
This prospective, observational, multicentre, post marketing surveillance study will collect safety and efficacy information on patients with Locally Advanced Squamous Cell Carcinoma of the Head and Neck (LA SCCHN) treated with Cetuximab and Radiotherapy (RT) based on the locally approved label.
To examine the safety and toxicity of concurrent radiotherapy with cisplatin with the further addition of cetuximab experimental treatment
The aim of this trial is to compare the accelerated fractionation radiotherapy and concurrent chemo-radiotherapy in locally advanced head and neck squamous cell carcinoma patients in terms of loco-regional control, toxicities and quality of life.
The purpose of this study is to compare the incidence of stomatitis when treating with amifostine before radiation treatment.
Severe acute and late dysphagia is now considered as a dose-limiting toxicity of radio(chemo)therapy for head and neck cancer that significantly affects patients' quality of life. We propose to preserve swallowing function by: - adapting (individualizing) treatment (intensity-modulated radiotherapy: IMRT) to per-treatment changes occurring in the tumor and surrounding organs and tissues; - reducing the volumes of elective neck, that may result in significant decrease of severe acute and late dysphagia.
This study will examine the effects of an investigational drug called AT-101 in combination with an FDA approved cancer drug called Docetaxel. It is hoped that AT-101 will help the Docetaxel to have a better effect in slowing or stopping cancer cell growth. This study will help the researchers learn what effects, if any, the combination of AT-101 and Docetaxel has on your cancer. For instance, will the combination cause your tumor(s) to shrink or stop growing? The researchers will also learn about the safety of the combination of AT-101 and Docetaxel. For instance, are there any side effects? If so, what kind of side effects does the combination cause? How severe are the side effects, and how often do they occur?
The purpose of this study was to determine an effective and safe dose of sotatercept (ACE-011) for the treatment of chemotherapy-induced anemia (CIA) in participants with metastatic non-small cell lung cancer (NSCLC) who are being treated with first-line platinum based chemotherapy.