View clinical trials related to Head and Neck Cancer.
Filter by:This study is an open label, single institution, Phase 1 dose-escalation study to determine the safety profile of cetuximab-IRDye800 used in subjects with head and neck squamous cell carcinoma (HNSCC) that undergo surgery with curative intent. Participants will be given a dose of an approved head and neck cancer drug (Cetuximab) along with an investigational study drug called Cetuximab-IRDye800. Cetuximab-IRDye800 is a drug that is given prior to surgery that attaches to cancer cells and appears to make them visible to the doctor when he uses a special camera during the operation. The investigators are evaluating whether or not the use of the study drug along with the special camera will better identify the cancer while patients are in the operating room.
The study will assess the safety, tolerability, PK and efficacy of different intra-tumoral dosing regimens of LTX-315; a lytic-peptide that induces long-term anti-cancer immune responses, as monotherapy or in combination with ipilimumab or pembrolizumab.
The primary and general objective of the clinical introduction of the Standard Follow-up Program (SFP) as the current standard of care is to improve the quality of radiotherapy for head and neck cancer patients by reducing radiation-induced side effects without hampering treatment efficacy in terms of locoregional tumour control and overall survival and to systematically evaluate the beneficial effect of newly introduced radiation technology for this particular group of patients. The clinical introduction of the SFP will allow for a systematic and broad scale quality improvement cycle for head and neck cancer patients treated with radiotherapy. In fact, this methodology can be considered a kind of quality circle for the clinical introduction of new radiation techniques, aiming at continuous efforts for further improvement.
The standard treatment of surgery followed by radiation therapy can stop tumors from growing in the head and neck region in most patients. However, the cancer can recur or can spread to other parts of the body. Cetuximab is a drug that may delay or prevent tumor growth by blocking certain cellular chemical pathways that lead to tumor development. It was approved by the United States Food and Drug Administration (FDA) in 2006 for the treatment of head and neck cancer. The purpose of this study is to determine how easily cetuximab can be added to treatment with radiation therapy in patients with cutaneous cancer of the head and neck. This study will also look at how well cetuximab added to radiation therapy works over time and how well this treatment is tolerated.
The primary purpose of this research is to investigate anti-tumor immune responses in patients undergoing chemotherapy and radiation for Head and Neck Cancers. Hypothesis: Treatment of HPV-associated OPSCC with concurrent chemoradiation results in changes in the tumor microenvironment. We hypothesize that these changes during daily fractionated chemoradiotherapy can lead to detectable changes in HPV-specific tumor immune responses. Hypothesis: HPV-specific cellular immune responses can still be detected during radiotherapy in the presence or absence of lymphopenia. - This study will determine whether specific anti-tumor immune responses (Specific Antibodies and Specific T-cells) can be detected in patients undergoing chemoradiation treatment for Head and Neck Cancers. - This study will evaluate the presence or absence of HPV (human papillomavirus) specific immune responses before, during, and after treatment for Head and Neck Cancers. - This study will also evaluate whether decreased white blood cell counts may affect development of immune responses in Head and Neck cancer patients undergoing treatment. Any head and neck cancer patient undergoing concurrent chemoradiotherapy is eligible if: you are older than 18 years of age, capable of providing informed consent, have a life expectancy of greater than 4 months, and have a good performance status. You are eligible irregardless of your HPV positive or negative status. People with HPV positive (human papillomavirus associated) head and neck cancer may join. People with HPV negative head and neck cancer may also join.
Rationale: Radiation-induced parotid gland dysfunction, often leading to xerostomia is the most-frequently occurring side-effect with a major impact on patient-reported quality of life after radiotherapy for head and neck cancer (HNC). Therefore, treatments for HNC are currently optimized to minimize the mean dose to the parotid glands. Though this resulted in a significant reduction of toxicity, 30%-40% of the patients still develop sustained parotid gland dysfunction and xerostomia. However, in animal studies the investigators found that the dose to the sub-volume of the gland containing the parotid gland stem cells is a better predictor for dysfunction than the mean dose to the whole gland. Subsequently, this finding was confirmed in a retrospective analysis in patients. Therefore, a reduction of dose specifically in this sub-volume of the parotid glands of patients is expected to further reduce the risk of parotid gland dysfunction and xerostomia. Objective: To test the hypothesis that parotid gland stem cell sparing intensity modulated radiotherapy in HNC patients reduces the risk of parotid gland dysfunction and xerostomia as compared to conventional parotid gland sparing intensity modulated radiotherapy. Study design: Double-blind prospective randomized trial (51 patients per arm). Study population: Patients treated for tumours in the head-and-neck region with curative radiotherapy, with or without the addition of chemotherapy or cetuximab. Intervention: Patients randomized into the experimental arm will receive a treatment in which the radiation dose to the parotid gland is re-distributed to minimize dose to the sub-volume containing the stem cells, while keeping the same mean dose to the parotid gland as a whole. Main study parameters/endpoints: Primary endpoint is parotid gland salivary secretion. Secondary endpoints are patient- and physician-rated xerostomia.
The purpose of this study is to establish the Six-Minute Walk Test, 10-Meter Walk Test, 30 Second Chair Stand, Linear Analog Scale of Function, and the Modifed Brief Fatigue Inventory as reliable and valid outcome measurements for patients with head and neck cancer.
RATIONALE: Cancers of the oral cavity represent 30% of head and neck carcinomas in the western world. The oropharynx is the posterior continuation of the oral cavity and connects with the nasopharynx (above) and laryngopharynx (below). It is also a frequent site of primary head and neck cancers. These structures play a crucial role in swallowing, breath and speech. Locally advanced oropharyngeal cancers can obstruct the air flow or infiltrate muscles or nerves, which significantly disturb local functions. The incidence of Head and Neck Squamous Cell Cancer in patients older 65 years is high, 47% occurred in this population as recorded by the Surveillance, Epidemiology, and End Results registries in the United States. Regarding the therapeutic strategies, the association of radiotherapy with chemotherapy or biologics has demonstrated significant improvement of outcomes with the drawback of higher toxicity, or as demonstrated by 2 meta-analyses, without survival improvement in older patients. NBTXR3 and radiation therapy may increase the cancer cell killing and complete tumor shrinkage allowing a definitive treatment and preservation of local structures and functions in patients older 65 years, who cannot receive cisplatin.
The project is designed to test new biomarkers that are more sensitive than the current standard in detecting injury to the proximal kidney tubule and will establish better criteria for when kidney safety concerns may halt further testing of a drug in humans.
This is a single arm study of the use of a personalized sterile humidification device for 12 weeks for head and neck cancer patients undergoing radiation therapy to determine if the usage of this humidification system will result in a decrease in severity in head and neck related quality of life as measured by the MDASI HN subscale following radiation therapy as compared with historical experience. In addition, we are exploring correlative measures using CRP, IL-1, IL-6, and TNF-alpha level measurements as these are directly related to mucositis and presumably related to quality of life as indicated by the patient.