View clinical trials related to Head and Neck Cancer.
Filter by:The goal of this randomized treatment study is to formally compare quality of life in patients with at least one pN0 hemi-neck after resection of a squamous cell carcinoma of the oral cavity treated with a primary radiation therapy versus a secondary targeted radiation therapy approach, to provide a high level of evidence to guide the selection of treatment options.
This study will examine the combination of pembrolizumab and tadalafil for safety and efficacy in advanced head and neck cancer.
In France, 11 316 new cases of upper aero-digestive tract cancer were estimated in 2012. These cancers are treated with a triple-therapy combining surgery, radiotherapy and chemotherapy/targeted therapies. Treatment-induced sequelae are often burdensome: reduction in mouth opening, eventually on to trismus, limitation of lips and tongue mobility, deterioration in oral hygiene, pain due to inflammation and muscle fibrosis. Trismus is defined as a mouth opening of less than 35mm in patients with head and neck cancers. It can be induced by treatments (surgery or radiotherapy) but is also reported at the time of diagnosis, due to the local evolution of the tumour. Management of trismus and its consequences is currently mostly based on physiotherapy of maxillary constrictions in order to limit or decrease the reduction of mouth opening in these patients. Exercise protocols have been set up and evaluated in the literature, but with various results. The benefit of a physiotherapy intervention on trismus prevalence, mouth opening, and patients' quality of life has not yet been shown. Our hypothesis is that at least 30% of patients treated with radiochemotherapy are affected by trismus. According to the nutrition national recommendations in oncology, patients the most at-risk of loco-regional complications are those who receive radiotherapy doses of 54Gy or more in the oropharynx and concomitant chemotherapy. It is thus essential to provide these patients with an early and preventive management of trismus and its consequences, during the whole duration of the treatment.
Radiotherapy is the main treatment for locally advanced squamous cell carcinoma of the head and neck (SCCHN). Many advances regarding tumor control and patient survival have been made over the past decades. However, treatment-induced toxicity remains a crucial problem, leading to reduced quality of life and permanent impairment for many survivors. Xerostomia is up to this day the leading cause of late toxicity for these patients. Toxicity has been reduced by implementation of modern image guided radiotherapy (IGRT) and intensity-modulated radiotherapy (IMRT), but the low soft-tissue contrast of routine x-ray image guidance does not allow exact planning adaptation and daily imaging is associated with high radiation exposure. Furthermore, despite the routinely use of IMRT, rates of clinically relevant xerostomia (i.e. grade 2 or worse) are still common and reported in approximately 38%. Recently developed hybrid machines (MRidian®-CE approval since 2016), consisting of a linear accelerator and an integrated low-field MRI, could allow a) better visualization of tumor and organs at risk, such as parotid glands during patient positioning and daily treatment, b) daily imaging without additional radiation exposure, c) narrowest established safety margins for the treatment volumes, and finally d) repetitive adaptation of target volumes according to changes in patient weight and tumor anatomy during the radiotherapy course. These procedures would facilitate a high-precision treatment and help reduce dose exposure of critical structures.
This study aims to explore the safety and outcome of lymph drainage mapping(LDM) to individually tailor the elective nodal irradiation (ENI) to the ipsilateral neck only. The goal is to exclude the contralateral negative neck from the irradiation fields when there is no contralateral draining sentinel node. In case contralateral lymph drainage is found on SPECT/CT, a contralateral sentinel node procedure (SNP) is performed to remove the draining node. The patient will only receive contralateral ENI if (micro/macro)metastasis are found in this contralateral sentinel node.
This trial is a translational, open-label, multicentric, prospective cohort study of 900 patients aiming to describe the PD-1 (programmed death) expression in T cells (T lymphocytes) in different solid tumors. The study will be conducted on a population of patients with local and/or metastatic malignant solid tumor and who are followed within a standard of care procedure or clinical trial. Patients with any of the following tumor types may be enrolled in the trial: - Head and neck cancer, - Ovarian cancer, - Cervical cancer, - Pre-invasive CIN III cervical cancer (Cervical Intra-epithelial Neoplasia III cervical cancer), - Other solid tumor types (including glioblastoma, NSCLC (Non-small cell lung cancer), anal cancer) Each tumor type will be considered as an independent cohort. For each included patient, biological specimen (tumor sample, blood samples and ascites samples if applicable) will be collected. Study participation of each patient will be 5 years.
This study investigates if head and neck squamous cell carcinoma can be tracked with cell-free tumor DNA, RNA or HPV-DNA, in blood samples from patients referred with suspicion of cancer, and if it can be used in detecting recurrence in patients already diagnosed and treated for head and neck squamous cell carcinoma.
Weekly electronic reporting of patient-reported outcomes will be tested in a national trial in participants undergoing radiotherapy for head and neck cancer. The study is a national study under the Danish Head and Neck Cancer Group (DAHANCA) and all 6 centers in Denmark will participate. The clinical endpoints will be: - Quality of life - Objective toxicity score (DAHANCA) - Opioid treatment - Tube feeding - Weight loss - Hospitalization - Compliance to treatment
Our objective in this study is to identify an optimal ultrasound spectroscopy parameter that can be used as an early predictor of pathological complete or partial response in men with prostate cancer and men and women with rectum and head and neck cancers receiving treatment radiotherapy. We have previously demonstrated that high-frequency ultrasound and spectroscopy, and recently conventional-frequency ultrasound and spectroscopy may be used to detect cell death in vitro, in situ and in vivo. The method can detect different forms of cell death and has been demonstrated to be sensitive to apoptotic, necrotic and mitotic cell death. The main goal, as described above, is to select the best ultrasound spectroscopy parameter to use as an early predictor of pathological complete response
This is a Phase 1, open-label, first-in-human study of CTX-471 administered as a monotherapy or in combination with pembrolizumab in patients with metastatic or locally advanced malignancies that have progressed while receiving an approved PD-1 or PD-L1 inhibitor. The study will be conducted in 2 treatment arms (Monotherapy Arm 1 and Combination Arm 2). Each arm will have two parts: Part 1 Dose Escalation and Part 2 Dose Expansion.