View clinical trials related to Head and Neck Cancer.
Filter by:The objective of this study is to assess safety and efficacy of CAB-ROR2-ADC in solid tumors
Magnetic resonance imaging (MRI) is a diagnostic technique that takes pictures of organs of the body. It uses magnetic fields and radio waves that cannot be felt. This makes specific organs, blood vessels, or tumors easier to see. Diffusion MRI lets us measure the motion of water in the tumor. The purpose of this study is to see if new MRI methods can give us more information about the tumor.
This study will evaluate the effect of an intensified oral care programme on prevalence, severity and duration of mucositis in patients undergoing treatment for cancer in the head and neck region. Patients in the control group get professional oral care once a week.
The primary purpose of the study is to observe the adherence and health seeking behavior of patients with Head and Neck cancer (HNC) certified to obtain medically certified cannabis as part of their supportive care regimen undergoing treatment with definitive or adjuvant concurrent chemoradiation (CRT).
The main idea behind MICRO-LEARNER is to provide new insights about the response of healthy tissues to radiation by using information from the micro-environment obtained by biological measurements and imaging. This new knowledge will be included in current available predictive models of radio-induced toxicity, thus allowing to add unique biological characteristics of patients to dosimetry and treatment/clinical related variables. MICRO-LEARNER focuses on prostate cancer (PCa) and head-and-neck cancer (HNCa). For both cancers, radiotherapy is effectively used as curative treatment, in single modality or within a multidisciplinary approach including surgery (PCa) and/or chemotherapy (HNCa). Prediction and reduction of radio-induced side effects are becoming a priority: for PCa, high survival rates should be accompanied by a very low rate of moderate/severe toxicities; for HNCa, there is the need to tailor radiation dose according to disease recurrence risk profile. The shared aim of both cancers is to balance the improvement in outcome with a well-tolerated toxicity profile. Recent research indicates that the intestinal/salivary bacteria are strongly suspected of being very important in mediating the response to inflammation and lesions. Although their balance deeply changes during radiotherapy, studies done so far in the field of the microbiota-host relationship in radiotherapy have not addressed their role in insurgence of radiation toxicity. In this study, the investigators will assess how microbial populations evolve and how this influences the host and radiation induced toxicity in a significant number of patients. Moreover, the individual response at the tissue microstructure level, through analysis of images with advanced bioengineering techniques, will be determined. Results from this research, besides suggesting new ways to predict patients at risk of relevant side-effects, may also suggest possible treatments to change the baseline microbiota of patients at high risk or to modify it during therapy, in order to mitigate toxicity. Understanding the microbiota-radiotherapy interaction may thus lead to novel, effective and inexpensive ways of assessing and managing complications of cancer treatment.
The purpose of this study is to see if anti-platelet therapy combined with anti-PD-1 immunotherapy can cause a more favorable immunologic response thatn with immunotherapy alone in patients with recurrent or metastatic squamous cell carcinoma of the head and neck.
CK-301 (cosibelimab) is a fully human monoclonal antibody of IgG1 subtype that directly binds to Programmed Death-Ligand 1 (PD-L1) and blocks its interactions with the Programmed Death-1 (PD-1) and B7.1 receptors. The primary objectives of this study are to assess the safety, tolerability and efficacy of CK-301 when administered intravenously as a single agent to subjects with selected recurrent or metastatic cancers.
Head and neck cancer (HNC) continues to be a significant health care problem in Taiwan and oropharyngeal squamous cell carcinoma (SCC) is the common subtype. With the concern of organ preservation in recent years, concurrent chemoradiation is the major treatment modality for oropharyngeal SCC. Endoscopy with biopsy serve as the main diagnostic tools in patients with oropharyngeal SCC. While computed tomography (CT) and magnetic resonance imaging (MRI) are commonly used to evaluate the tumor extent of HNC, MRI is more preferred in the oropharyngeal area by virtue of its high contrast resolution. With the advance of MRI technology, whole body MRI is now possible, and functional techniques become more feasible in the head and neck region, including diffusion-weighted imaging (DWI) which comprises of monoexponential DWI, IVIM (intravoxel incoherent motion) model and Kurtosis (biexponential or non-Gaussian fitting), and perfusion-weighted imaging (PWI) become feasible. Therefore, MRI can evaluate distant site status of HNC in the single examination session and provide biologic information of tumors, such as cellularity, angiogenesis and permeability, and so forth. Positron emission tomography/CT (PET/CT) is another common imaging modality to evaluate HNC, because of its ability to provide whole-body anatomic and metabolic information. Integrated PET/MRI is a novel imaging technology that combines PET and MRI in one single scanner. It can acquire both PET and MRI information simultaneously. Initial data convey that PET/MRI performed favorably in diagnostic evaluation of HNC. However, the predictive value of PET/MRI in treatment outcome of HNC has not been reported. A prospective study of integrated PET/MRI in a large cohort of patients with specific tumor origin and uniform treatment protocol is needed to fully validate the clinical usefulness of this novel integrated system. In this 3-year prospective study, the investigators will take the advantages of integrated PET/MRI scanner with diffusion-weighted MRI (DWI) and dynamic contrast-enhanced perfusion weighted MRI (DCE-PWI) to evaluate our 160 patients with oropharyngeal SCC subjected to chemoradiation. Non-contrast chest CT will also be performed on the same day. The investigators aim to (1) determine whole-body staging/restaging accurately, (2) predict treatment response and prognosis, and (3) to determine necessity of noncontrast chest CT. The investigators expect that this project will offer the validation of usefulness of integrated PET/MRI in tumor staging/restaging of oropharyngeal SCC and resultant clinical impact. The role of noncontrast chest in the workup with our PET/MRI protocol can be defined. It will also provide evidence about how and to what extent the various simultaneously acquired MRI and PET functional parameters can help prediction of treatment response and prognosis, which are important in timely modification of treatment regimen.
This trial studies how well dynamic contrast-enhanced magnetic resonance imaging (DCE-MRI) works in diagnosing osteoradionecrosis in patients with head and neck cancer that is primary, has come back, or has spread to other places in the body who are undergoing radiation therapy. DCE-MRI may help doctors to predict osteoradionecrosis in patient with head and neck cancer undergoing radiation therapy.
This study aimed to observe how a six week qigong program influence patients with head and neck cancer during active radiotherapy treatment course. The quality of life, sleep dysfunction or depression and shoulder and neck function will be accessed by questionnaire, and ANS function will be objectively investigated using heart rate variability measurement.