View clinical trials related to Head and Neck Cancer.
Filter by:The Photobiomodulation therapy could have positive effects on quality of life and oral health in head and neck cancer survivors post-radiotherapy. The improvement in quality of life will be maintained after a follow-up period.
Head and neck squamous cell carcinoma is the 6th most common cancer worldwide with an annual incidence of 12000 cases in the UK alone. More than 60% of cases are diagnosed at the locally advanced stage. These patients are treated with radical intent, using a combination of surgery, radiotherapy and/or chemotherapy. Unfortunately 5 in 10 patients relapse within 2 years, with most relapses occurring within the first year since treatment. Unlike many other solid tumours, 80% of relapses occur locoregionally. Salvage surgery offers the best chance of long-term survival for patients with loco-regional recurrence, but this is only possible if the recurrence is amenable to resection. Salvage surgery has been estimated to improve survival outcomes in relapsed cancer by up to 73%. For salvage surgery to be feasible, relapses need to be detected early. Current surveillance strategies have little evidence base, with imaging often driven by clinical symptoms - often when the recurrence is no longer amenable to salvage surgery. With this study, we will address the unmet clinical need to develop a risk-stratified surveillance pathway to enhance detection of early relapse of radically treated head and neck cancer. At present, tumour grade and biomarkers such as HPV status have offered important but insufficient information to guide surveillance strategies.
Patients with malignant tumours of the cephalic pole have a poor prognosis, despite a wide range of treatments. prognosis despite a large therapeutic arsenal. Among this arsenal, radiotherapy (RT) is one of the standard treatments for these tumours. However, this treatment can cause damage to the surrounding healthy tissue, has limited efficacy in hypoxic However, this treatment can cause damage to the surrounding healthy tissue, has limited efficacy in hypoxic tissue and can promote pro-tumour inflammation. In these circumstances, hadrontherapy, which uses charged heavy particles, such as protons or carbon ions, is the preferred treatment. protons or carbon ions, seems more appropriate for the treatment of these tumours. However, although inflammation plays a major role in tumour development and tumour development and therapeutic response, few studies have evaluated the immune response response after proton therapy (PT) and carbon therapy (CT). The objective of this project is to study the effect of hadrontherapy on resident/circulating inflammation after brain irradiation. brain irradiation. In a first step, the impact of different PT and CT TEL on macrophages (MФ), the most abundant immune cells in malignant solid tumours, will be evaluated in vitro. malignant solid tumours, will be evaluated in vitro. In a second step, the evolution of circulating leukocytes after brain irradiation with X-rays or protons will be studied in vivo in rodents and patients. rodent and patient. In this project, we propose to study for the first time the inflammatory response after hadrontherapy in the context of a cephalic tumour. cephalic tumour. These results will allow a better understanding of the biological response response following PT and CT with the aim of optimising RT and potentially and potentially translate these data to the clinic.
Current clinical management algorithms for squamous cell carcinoma of head and neck (HNSCC) involve the use of surgery and / or radiotherapy (RT) depending on the stage of the disease at diagnosis. Radical RT, exclusive or in combination with systemic therapy, represents an effective therapeutic option according to the international guidelines. Despite the recent technological advancements in the field of RT, about 30-50% of patients will develop locoregional failure after primary treatment . Moreover, although the development of Intensity modulated radiation therapy (IMRT) and Volumetric modulated arc therapy (VMAT) techniques allowed a greater sparing of dose on healthy tissues, radiation-induced toxicity still represents a relevant concern, impacting on quality of life. The continuous effort of personalized medicine has the goal of improving patient's outcome, in terms of both disease's control and pattern of toxicity. Advanced imaging modalities appear to play an essential role in the customization of the radiation treatment as shown through the use of Adaptive Radiotherapy (ART) and radiomic. With ART we mean the adaptation of tumor volumes and surrounding organs at risk (OARs) to the shrinkage and patient emaciation during RT treatment. Adaptive radiotherapy (ART) includes techniques that allow knowledge of patient-specific anatomical variations informed by Image-guided radiotherapies (IGRTs) to feedback into the plan and dose-delivery optimization during the treatment course. Radiomic is the extraction of quantitative features from medical images to characterize tumor pathology or heterogeneity. Radiomic features extracted from medical images can be used as input features to create a machine learning model able to predict survival, and to guide treatment thanks to its predictive value in view of therapy personalization. The combination of both ART and radiomic analysis could potentially be considered a further advance in the personalization of oncological treatments, and in particular for radiation treatments. For this reason, the investigators designed the present research project with the aim to prospectively evaluate a machine learning-based radiomic approach to predict outcome and toxicity of HNSCC patients treated with ART by mean of CT, MRI and PET-scan.
Immunotherapy (IO), such as treatment with anti-PD-1, PD-L1, or CTLA-4 inhibitors, is a rapidly expanding treatment for multiple metastatic cancers with improved survival for certain cancers. However, the optimal duration of immunotherapies is currently unknown. Our hypothesis is that a reduced dose intensity of IO could be as effective as the current standard treatment in term of prevention of the disease progression. If proved right, this study will have a positive medico-economic impact by reduction of the costs associated with the treatment and the toxicity, and an increase of the patients' quality of life.
This phase I trial is designed in two parts. First as an open-label, dose escalation trial of MEM-288 monotherapy in which investigators aim to find the maximum tolerated dose (MTD) and recommended phase II dose (RP2D). Subjects with selected solid tumors including non-small cell lung cancer (NSCLC) who have a tumor lesion which is accessible for injection will undergo intratumoral injection of MEM-288. Following completion of the monotherapy study portion of the study, an expansion arm is designed to test MEM-288 with concurrent anti-PD-1 (nivolumab) therapy for patients with first relapsed or refractory advanced/metastatic NSCLC following front-line anti-PD-1/PD-L1 with or without concurrent chemotherapy. The study rationale is that the oncolytic effect of MEM-288 combined with the presence of CD40L and type 1 interferon (IFN) in injected tumors will provide a strong signal for dendritic cell (DC)-mediated T cell activation leading to generation of systemic anti-tumor T cell responses with broad specificity akin to what is observed in the abscopal effect. Further study rationale is the anti-tumor effect of MEM-288 will be enhanced by nivolumab by reversing T cell exhaustion.
The overarching long-term goal of the Integrative Medicine for Patient-reported Outcomes Values and Experience (IMPROVE) research program is to evaluate whether integrating a virtual mind-body programming, Integrative Medicine at Home (IM@Home), will improve patient perceived values, outcomes, and experiences as they undergo systemic cancer treatment such as chemotherapy, immunotherapy, radiotherapy, targeted agents, cytoreductive surgery.
Cutaneous Squamous Cell Carcinoma (cSCC) is typically associated with a high tumour mutation burden, with the majority caused by Ultraviolet (UV) exposure (Pickering et al., 2014). The use of this trial using neoadjuvant Pembrolizumab in patients with cSCC who will otherwise undergo highly morbid radical surgical resection has multiple potential advantages, including: 1. Reduction in surgical and radiotherapy morbidity by reducing tumour burden and allowing the appropriate selection of patients to undergo post-operative radiotherapy; 2. Provision of immediate information about pathological response and 3. Access to tissue to provide insight into resistance mechanisms and identification of biomarkers of response. The Investigators hypothesized that the use of neoadjuvant Pembrolizumab could reduce tumour burden allowing appropriate selection of patients undergoing radical surgical resection and adjuvant radiotherapy.
A registry-based randomized phase II trial. A total of 46 patients with metastatic head and neck cancer on systemic therapy with oligoprogression to 1-5 extracranial lesions will be randomized using a 1:1 ratio to standard of care (begin next-line systemic therapy, best supportive care, continue current systemic line, based on treating physician decision) vs. receive stereotactic ablative radiotherapy to all oligoprogressive lesions while continuing their current systemic therapy.
This open-label, First-into-Human (FIH) study will evaluate the safety, tolerability, pharmacokinetics (PK) and early efficacy of AVA6000, a FAP-activated pro-drug of doxorubicin, in patients with locally advanced and/or metastatic solid tumours. In Phase Ia, using a 3+3 design, escalating doses of AVA6000 will be administered to patients with a range of solid tumour types to determine the maximum tolerated dose (MTD) and/or recommended Phase II dose (RP2D). In Phase 1b, the selected RP2D dose will be assessed in one to three tumour types.