View clinical trials related to Head and Neck Neoplasms.
Filter by:To evaluate the tumour response rate of squamous cell carcinoma of the head and neck following stereotactic body radiotherapy (SBRT) of 45Gy in 5 fractions delivered once every 3-4 days, such that treatment is completed within 15 days.
The objective of this study is to demonstrate the feasibility of novel MRI-guided ultrasound stimulated microbubble treatment to enhance radiation effects in humans receiving external beam radiotherapy delivered using a LINAC (linear accelerator) radiation therapy device.
The investigational drug to be studied in this protocol, BCA101, is a first-in-class compound that targets both EGFR with TGFβ. Based on preclinical data, this bifunctional antibody may exert synergistic activity in patients with EGFR-driven tumors.
In this study, PA imaging will be used to examine the physiological and physical changes in lymph node involvements of head and neck cancer during radiotherapy with or without chemotherapy. Our objective in this pilot study will be to evaluate if PA parameters change within the lymph node involvements during chemoradiation therapy over time. Our hope is to use this information to correlate the changes in measured PA parameters with radiological response.
The purpose of this study is to test the safety of palliative "QUAD SHOT" radiotherapy combined with pembrolizumab and evaluate the effects of the combination treatment patients with recurrent cancer of head and neck.
To use novel methods for quantitative analysis of VFSS (videofluoroscopic swallow study, also known as modified barium swallow) to study and compare dysphagia in patients treated for head and neck carcinoma with concurrent radiation therapy and chemotherapy (cisplatin) or targeted therapy (cetuximab) vs. immunotherapy (pembrolizumab, nivolumab, or durvalumab). Our hypothesis is that pharyngeal constriction will be greater (lower ratio) with concurrent immunotherapy compared to chemotherapy, as measured by the pharyngeal constriction ratio (PCR).
This study aims to improve the peri- and postoperative care regimen for patients undergoing microvascular reconstruction after head and neck cancer by introducing an enhanced recovery after surgery (ERAS) programme.
A pilot-stage device feasibility study investigating a mask-free motion-monitoring patient immobilisation system for use during radiation therapy treatment of head and neck cancer (HNC). This mask-free system combines the standard radiation therapy (RT) head rest to help the patient remain still with a surface guidance detection system that uses sensors to detect and track patient movement. Patients who will have RT treatment for head and neck cancer involving an immobilisation mask will be asked to lie on the treatment couch for the normal treatment fraction time while the surface monitoring system is activated. We will then assess: i) The level of acceptance of the system by HNC patients currently being treated with RT using an immobilisation mask, and ii) The ability of the surface guidance system to monitor movement of the patients
The primary treatment option of many patients with head and neck cancer is surgery, radiotherapy and chemotherapy. In the literature, functional problems that occur after surgical interventions applied to head and neck cancer patients are frequently mentioned. Morbidities resulting from the combined application of radiotherapy and chemotherapy are based on more anecdotal information and critical data on long-term functional outcomes in this patient group are scarce. The aim of this study is to make the validity, reliability and cultural adaptation of the Head and Neck Cancer Inventory in Turkish.
The emergence of tumor organoid cultures in recent years has made it possible to widen the repertoire of available preclinical tumor models and to bridge the gap between cell lines and tumors of xenografted patients in mice (PDXs).These organoids have the advantages of being able to be amplified fairly quickly after resection of the tumor, of having unlimited proliferation potential, a high rate of establishment success, and the possibility of being transfected and cryopreserved. These characteristics therefore allow them to summarize the clinical spectra of cancers, but also to be models for studying tumor progression as has been done with organoids for colorectal cancer. They are also very close morphologically and genetically to the tumor from which they derive.Finally, clinical trials are underway to determine whether the organoids of mammary, pulmonary and colorectal cancers can predict the response to patients' treatments and guide the therapeutic decision.It would therefore be possible to test multiple treatments on different samples. This would allow screening of a panel of treatments on a given tumor type but also to test a treatment ex vivo before administering it to the patient in vivo. This prospect is very interesting in particular in the tumors of the VADS where more than two thirds of the operated patients will benefit from a complementary treatment by radiotherapy and / or chemotherapy whose consequences can be important. Despite this adjuvant management, up to 30% of patients will relapse, highlighting a variable tumor chemosensitivity. This screening could make it possible to refine the choice of treatments adapted to each patient and thus limit the undesirable effects.The feasibility of establishing head and neck squamous cell organoid lines seems encouraging, with organoids derived from squamous cell carcinoma of the oral cavity and oropharynx having been recently established.