Active clinical trials for "Squamous Cell Carcinoma of Head and Neck"

MM-310 is a liposomal formulation of a docetaxel prodrug that targets the EphA2 receptor on cancer cells. Docetaxel is an approved chemotherapeutic drug.This study is a Phase 1 open-label study of MM-310 in patients with solid tumors. In the first part of the study, MM-310 will be assessed as a monotherapy until a maximum tolerated dose (MTD) is established. After an MTD of MM-310 as a monotherapy is established, an expansion cohort and MM-310 in combination with other therapies will be assessed.

TQB2450 is a humanized monoclonal antibody targeting programmed death ligand-1 (PD-L1), which prevents PD-L1 from binding to PD-1 and B7.1 receptors on T cell surface, restores T cell activity, thus enhancing immune response and has potential to treat various types of tumors.

The goal of this project is to develop and characterise an imaging strategy for biology-guided individualisation of the proton therapy plan to improve patient outcome and quality-of-life. Positron-emission tomography (PET) studies reflecting glucose metabolism, hypoxia and physical changes of proton-irradiated tumour tissues will be performed. Patients with head and neck cancer will be studied, as these individuals frequently experience recurrences within the radiation field, often with limited therapeutic options. Severe side-effects and functional impairment, deteriorating patients' quality-of-life, limited the use of dose-escalation in recent feasibility studies of photon therapy guided by individual PET-response. However, proton therapy, currently being introduced in the Netherlands, improves the precision of radiotherapy and thereby limits the side-effects caused by irradiation of neighbouring healthy tissues. Therefore, in proton therapy dose-escalation to improve patient outcome is less restricted by toxicity. Using PET-studies of two hallmarks of radioresistance, glucose metabolism and hypoxia, side-by-side, before and early in-treatment, the predictive ability of both PET-techniques for local recurrence-free survival will be compared. A treatment plan adapted to the individual response measured by both procedures and compute tumour-dose and toxicity, will be simulated, thereby substantiating feasibility of image-guided adaptive replanning. Simultaneously to biological responses, proton therapy-induced physical changes will be studied. These atomic changes, dependent on tissue-composition and dose-deposition, are measurable by PET. It is expected that activation-PET to measure tissue-changes during therapy, a potential new biomarker of treatment efficacy, toxicity but also accuracy of treatment plan execution. Activation-PET will be related to earlier-mentioned PET-imaging of metabolism. This clinical-technological project paves the way for an interventional trial of PET-guided treatment personalisation. Activation-PET will also serve as biomarker and quality control for proton therapy and support the current development of specialised in-beam PET-technology. These PET-techniques together will help us to individualise treatment, which is of great importance for the success and cost-effectiveness of proton therapy.

The objective of this study is to evaluate the efficacy and safety of SCT-I10A plus standard chemotherapy for Recurrent/ Metastatic Head and Neck Squamous cell Carcinoma

Clinical studies related to immunotherapy of HNSCC have shown that PD1 monoclonal antibody has better clinical benefits than conventional chemotherapy. This phase II clinical study is a single arm, open, single-center study. The aim of this study is to observe and evaluate the efficacy and safety of Sintilimab combined with paclitaxel-albumin-binding for injection in patients with advanced recurrent and metastatic HNSCC who fail to receive first-line or more treatment. Participation in this study for treatment may benefit patients with advanced recurrence or metastasis of HNSCC.

Recombinant human endostatin adenovirus injection is a novel anti-tumor gene therapy drug. E10A contains a recombinant human endostatin gene with the second-generation recombinant adenovirus as its vector. After transfection tumor cells. E10A expresses human endostatin, which inhibits vascular endothelial cell proliferation and tumor angiogenesis, and blocks tumor blood supply, thereby specifically inhibiting tumor growth and inducing apoposis of tumor cells. Both pre-clinical and animal models have demonstrated the anti-tumor activities of E10A. The safety and efficacy of E10A in treating head and neck cancer has also been demonstrated in Phase I and Phase II studies.

This randomized clinical trial studies radiation therapy and MK-3475 in treating patients with head and neck cancer, kidney cancer, melanoma, or lung cancer that has returned, has spread to other parts of the body, or cannot be removed by surgery. Radiation therapy uses high-energy x-rays to kill tumor cells. Monoclonal antibodies, such as MK-3475, may block tumor growth by targeting certain cells and causing the immune system to attack the tumor. Studying the effects of MK-3475 with radiation therapy on the body may help doctors learn whether it may be an effective treatment for these solid tumors.

A phase II study to evaluate the efficacy and safety of Docetaxel-PM in recurrent or metastatic head and neck squamous cell carcinoma

This study is to evaluate disease control rate (DCR) at 8 weeks of BKM120 administered as therapy for patient with recurrent/metastatic head and neck squamous cell carcinoma.

Head & Neck squamous cell carcinomas are the commonest cancers afflicting the developing countries. Traditionally surgery or radiotherapy alone in the early stages and surgery with postoperative radiotherapy in advanced stages have been the mainstay of treatment. Of late there has been a paradigm shift in the management of these cancers, particularly those of the oropharynx and laryngopharynx, where chemoradiation has been advocated as part of organ preservation protocol with good outcomes. Conventional radiotherapy involves the use of 2 or 3 field technique with or without compensators to encompass the volume at risk to radical doses of 66-70 Gy typically needed to sterilize gross disease. This strategy however is associated with considerable acute morbidity (mucositis, dysphagia, dermatitis) and debilitating late toxicity (xerostomia). Three dimensional conformal radiation therapy (3D-CRT) and intensity modulated radiation therapy (IMRT) have the potential to improve the dose distribution, with increased doses to the target volumes and reduced doses to surrounding normal structures, thereby improving the therapeutic ratio.