Clinical Research Directory

Multiparametric Imaging-based Intraoperative Navigation for Guidance of Surgical Resection and Postoperative Radiotherapy in Patients With Head-and-neck Tumors

The overarching goal of the NAVIGATORR trial is the improvement of local tumor control in head-and-neck cancer (HNC) by increasing the precision of surgical resection and individualization of radiotherapy. Squamous cell carcinomas (SCC) together with salivary gland carcinomas (adenoid cysytic Carcinoma (ACC), mucoepidermoid Carcinoma (MEC), adenocarcinoma (AC)) represent the most common entities in German head and neck oncology. In localized tumors, primary tumor resection with possible adjuvant (chemo)radiotherapy is still the treatment of choice. Advances in targeted therapy and immunotherapy have greatly expanded the repertoire of medical oncology in recent years. In particular, prognosis of patients with end-stage non-small cell lung cancer (NSCLC) has been improved and even patients with advanced head and neck disease can be offered new second line regimes. Importantly, all of these advances are based on personalized and targeted therapies. Unfortunately, surgical oncology in the head-and-neck region has not yet shown such developments towards individualized treatment, so that the rates of safe oncological resections (clear resection margins) haven been stagnating. Despite advances in reconstructive surgery that allow the resection of head-and-neck tumors that would not have been operable 10 - 15 years ago, the basic principles of the resection margin and especially margin evaluation have remained unchanged. The technique of navigation-based tumor resection and the annotation of biopsies by titanium clip-markings or special annotation have been described, but only in small case series and without proving the benefit of the method concerning clinically relevant parameters. Therefore, the NAVIGATORR trial will enroll 60 patients with HNC of the midface that will undergo navigation-based surgery. Importantly, interdisciplinary data exchange of the intraoperative navigation data between surgeons, pathologists and radiation oncologists will be established. Clear surgical margins (distance between tumor cells and resection border \> 5 mm) have been defined as primary endpoint. Secondary endpoints such as dosimetric assessment of individualized radiotherapy plans, local tumor control or overall survival should then be compared to data from the literature to further assess this multidisciplinary approach.

[212Pb]VMT-Alpha-NET in Metastatic or Inoperable Somatostatin-Receptor Positive Gastrointestinal Neuroendocrine Tumors, Pheochromocytoma/Paragangliomas, Small Cell Lung, Renal Cell, and Head and Neck Cancers

Background: Some cancers have high levels of proteins called somatostatin receptors (SSTRs) on the surface of the tumors. These tumors can be in the lung, head and neck, digestive tract, kidneys, and in or near the adrenal glands. Researchers want to know if drug treatments that target SSTRs can help shrink these types of tumors. Objective: To test a study drug (\[212Pb\]VMT-Alpha-NET) in people with tumors that have SSTRs. Eligibility: People aged 18 years and older with tumors of the lung, kidneys, head and neck, digestive tract, or adrenal glands that have SSTRs. Their tumors must have spread to other organs and cannot be removed with surgery. Design: Participants will be screened. They will have a physical exam with blood and urine tests. They will have imaging scans and a test of their heart function. A sample of tumor tissue may be collected if one is not already available. \[212Pb\]VMT-Alpha-NET is given through a tube attached to a needle inserted into a vein. The drug will be given on the first day of four 8-week cycles. Participants will stay in the hospital for a few nights after each dose. They will have blood tests once a week during each cycle. Some participants will also get a related study drug (\[203Pb\]VMT-Alpha-NET). They will receive this drug a few days before the first 2 cycles. At 4, 24, and 48 hours after each infusion, they will have whole body scans. These scans will show where the study drug went in their body. Follow-up visits will continue up to 6 years after the last treatment.

Tislelizumab Combined APF Chemotherapy in the Treatment of Locally Advanced Head and Neck Tumors

The goal of this clinical trial is to test in describe participant population. The main questions it aims to answer are: 1. evaluate the efficacy and safety of tislelizumab combined with APF sequential surgery or radical concurrent chemoradiotherapy in the treatment of locally advanced head and neck tumors. 2. the exploration of efficacy-related immune microenvironment genes Participants will receive tislelizumab combined with APF sequential surgery or radical concurrent chemoradiotherapy.

Correlation and Predictive Research of Metal Elements in Radiation-Induced Oral Mucositis

Radiotherapy is the main treatment method for head and neck tumors. However, almost all patients with head and neck tumors will develop acute inflammatory reactions such as Radiotherapy-Induced Oral Mucositis (RIOM) after receiving Radiotherapy, resulting in a decline in the quality of life of patients, hindering the smooth implementation of the treatment plan, reducing the therapeutic effect, and increasing the economic burden of patients. However, the current treatment strategies for RIOM focus on symptomatic treatment and have little impact on the course, severity and related complications of mucositis. Therefore, exploring effective strategies, predicting the incidence and severity of RIOM in patients, and providing prevention and treatment are the clinical bottlenecks and cutting-edge issues that urgently need to be solved in the current clinical practice of radiotherapy for head and neck tumors. Previous studies have shown that the steady-state of metallic elements may be closely related to the occurrence and development of RIOM. Therefore, we plan to conduct a prospective, single-center, observational study to further explore the correlation between metal elements and severe RIOM, analyze its predictive efficacy, and observe the dynamic changes of metal elements in radiotherapy.

Study of the Contribution of Mutant p53/YAP Proteins to Therapy Resistance in Recurrent Head and Neck Cancer

Multicenter, non-interventional, retrospective/prospective study of a biological nature, on patients affected by head and neck tumors, for which the collection and use of tissue samples is planned for the study of the mutational profile, the transcriptional profile and the proteomic profile.

Breathomics in the Diagnosis and Prediction of Radiotherapy-Induced Oropharyngeal Mucositis in Head and Neck Tumors

Radiotherapy-Induced Oropharyngeal Mucositis (RIOM) is one of the most distressing side effects for patients with head and neck tumors during radiotherapy, requiring clinical physicians to manage it according to the severity of mucositis to alleviate symptoms and improve quality of life. However, traditional diagnosis of RIOM overly relies on subjective evaluation, lacks early sensitivity, and existing biomarker diagnostic methods suffer from insufficient efficacy, invasiveness, and inconsistent results. This study aims to explore the diagnostic and predictive value of exhaled breathomics in RIOM of head and neck tumors. By collecting exhaled breath samples from head and neck tumor patients undergoing radiotherapy and analyzing volatile organic compounds (VOCs) using breath detection technology, we aim to develop and validate a non-invasive diagnostic and predictive model based on exhaled breathomics. The study will identify specific VOCs as potential biomarkers, providing new tools for early diagnosis, timely prediction, and personalized treatment of RIOM.