View clinical trials related to Head and Neck Cancer.
Filter by:The objective of this pilot study is to estimate the sensitivity and specificity of diffuse reflectance spectroscopy (DRS) and Raman spectroscopy (RS) at detecting treatment-resistant disease when DRS and RS are used together to measure treatment-induced reoxygenation and molecular changes in tumors of the oral cavity. This study will be performed in a total of 90 patients that have Stage 3 or 4 head and neck squamous cell carcinoma (HNSCC) with primary tumors located in the larynx or one tonsil.
More than half of the patients with head and neck cancer are locally advanced patients. Radiotherapy is the primary treatment option for many patients with stage III and stage IV diagnosed with head and neck cancer. Radiation often causes tissue reactions by increasing local symptoms of the tumor and adding new symptoms to them. The acute effects of radiation are pain and burns associated with mucosal irritations and skin irritations, the root smell of the necrotic tumor and damaged normal tissues, dry skin, skin irritation, pain and dryness of mucosal membranes, decreased appetite, loss of chewing and swallowing skills, and hoarseness. The aim of this study is to make the validity, reliability and cultural adaptation of McMaster University Head and Neck Radiotherapy Inventory in Turkish.
It can be difficult for head and neck cancer patients and their families to fully understand the impact that cancer procedures and treatments can have on the cancer patients life. Procedures used to treat head and neck cancer may result in significant changes to the patients' physical appearance and/or functional abilities (talking, eating, and breathing). The lack of understanding as it relates to the effects of cancer treatments can have a significant impact on the patients post-operative success. In an effort to help educate head and neck cancer patients and their families during this difficult time, the UIC department of Otolaryngology-HNS has created an informational website. The website is designed to educate cancer patients and their families regarding various cancer treatments and therapies.
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.
One of the long-term effects of neck dissection applied to patients with head and neck cancer is shoulder dysfunction, which directly affects the quality of life. Patients complain of different degrees of shoulder joint problems following neck dissection . Shoulder syndrome in these patients is characterized by a set of symptoms including shoulder pain, abduction limitation, and scapular winging.The aim of this study is to make the Turkish Neck validity, reliability and cultural adaptation of the "Neck Dissection Impairment Index".
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.
With this study, the investigators will investigate the epigenetic changes, which may contribute to the development of head and neck squamous cell carcinomas.
Problem: With increasing numbers of cancer survivors, strategies to prevent long-term complications in cancer patients become more important. Adolescent and Young Adult (AYA) Head and Neck Cancer survivors treated with radiotheray (RT) are prone to long-term complications, especially vascular and psychosocial complications. Although several studies point to the importance of these long-term complications, structured survivorship care for AYA HNC survivors is still lacking. Primary objective: To investigate in AYA HNC survivors treated with unilateral RT at least 5 years before, the long-term vascular complications in terms of carotid wall changes (ultrasonography, MRI), cerebral vascular complications ((silent)brain infarctions, white matter lesions) and Cardiovascular Risk Management profile. Secondary objective: To investigate in AYA HNC survivors treated with unilateral RT at least 5 years before, the long-term psychosocial complications (subjective memory complaints, Depression, Anxiety, Fatigue, Speach handicap, Anxiety for recurrence, Quality of Life, objective cognitive failure) Study design Prospective cohort study. Patient population AYA HNC survivors ≥ 5 years after unilateral RT, either alone or in combination with surgery and/or chemotherapy. Controls The ultrasonography (Intima Media Thickness, elastography) and MRI measurements of the irradiated carotid wall will be compared to the non-irradiated carotid wall. Cognitive performance will be compared to normative data. The cognitive performances of the right hemisphere tests will be compared to the cognitive performances of the left hemisphere tests. The frequency of silent brain infarcts and vascular white matter lesions of the irradiated vascular territory will be compared with the non-irradiated territory. Intervention Structured survivorship care ≥ 5 years after RT conform the Personalized Cancer Survivorship Care Model of the Radboudumc Expertisecenter of late effects after cancer, complemented with carotid ultrasonography (IMT and elastography), MRI of the carotid arteries and brain), neuropsychological assessment battery and self-reported questionnaires concerning depression, fatigue, QoL, positive health and employment status.
Open-label, single-center phase I study to evaluate first signs of efficacy and to confirm the safety and tolerability of a decitabine safe-dose treatment in two strata of patients with HPV induced anogenital and head and neck cancers (Stratum 1: patients with high rist for disease recurrence; Stratum 2: patients with failure of standard therapy). The study is expected to enroll 18 patients overall (9 patients in each stratum). The duration of the trial for each patient is expected to be 6 months (two 28 day cycles of study treatment plus four months of additional follow-up). The overall duration of the trial is expected to be approximately 42 months.