View clinical trials related to Laryngeal Neoplasms.
Filter by:This retrospective study was to develop and verify a CT-based radiomics model, 2D deep learning model and 3D deep learning model to preoperatively predict the thyroid cartilage invasion of laryngeal cancer patients, so as to provide more accurate diagnosis and treatment basis for clinicians. And the performance of the aforementioned models was compared with two radiologists. In addition, the researchers investigated the prediction of survival outcomes of patients by the above optimal models.
Multicenter retrospective study of a cohort of patients affected by laryngeal carcinoma and subjected to total laryngectomy surgery at the centers participating in the reference period and responding to inclusion criteria.
According to statistics, in 2020, new head and neck malignancies in the world accounted for 4.9% (931931 cases) of malignant tumors in the whole body, and the new death cases were 467125, accounting for 4.7% of malignant tumors in the whole body. The high incidence rate and mortality brought great burden to the medical system. In addition, due to various types of head and neck cancer, hidden location, impact on function and quality of life, and low overall survival rate, this type of disease has seriously threatened human health and social development. The incidence of oropharyngeal cancer and laryngeal cancer is more subtle. Traditional examination methods include CT(computer tomography), MR(magnetic resonance), and laryngoscopy, but they cannot make accurate judgments on the systemic TNM(primary tumor, regional nodes, metastasis) staging of oropharyngeal cancer and laryngeal cancer. 18F-FDG(18F-2-fluoro-2-deoxy-D-glucose fluorodeoxyglucose) PET/CT examination can better diagnose and stage compared to traditional examination methods. However, due to the interference of more inflammatory lesions or physiological uptake in the pharynx, the false positive rate of 18F-FDG PET/CT examination is significantly increased, 18F-FAPI(18F-fibroblast activation protein inhibitors) is a novel broad-spectrum tumor imaging agent that can be specifically uptake by fibroblasts in the tumor microenvironment, and has lower physiological uptake and acute inflammatory lesion uptake in the larynx. 18F-FAPI PET/CT examination can more accurately stage tumors throughout the body than 18F-FDG PET/CT examination. Combined with PET/MR local scanning, it will further improve the accuracy of T and N staging of local tumors. Therefore, It is of great significance for clinical diagnosis and treatment to effectively and reliably determine the systemic TNM staging of oropharyngeal and laryngeal cancer through non-invasive methods.
In-office procedures (IOPs) are a cost-effective, and safe alternative to many operating room procedure, with benefits such as reduced anesthesia risk. One of the major causes of failed in-office procedures or requirement of conversion to the operating room is poor patient tolerance. Vibration and augmented reality (AR) can be used as non-pharmacologic treatment options to treat patient anxiety and pain by using the physiology proposed by the gate-way theory of pain as well as distraction. This study seeks to compare anxiety and pain perception with patient reported survey data, as well as physiologic indicators of stress such as heart rate variability (HRV) within patients undergoing IOPs in a laryngology office with and without vibration and AR treatment.
Prospective, multicenter observational study involving patients who will undergo total laryngectomy surgery and placement of phonatory prosthesis.
This research is conducted with the aim of improving the quality of life of laryngectomized patients and their entourage. Worldwide, there are 185,000 new cases of laryngeal cancer per year. In Europe, between 2000 and 2007, the crude annual incidence rates of these cancers were 4.6/100,000 with a 5-year survival rate of 61%. In France, about 30 to 35% of cancers of the upper aerodigestive tract are localized to the larynx, or about 43,000 cases per year. Most patients are men (89%) between 50 and 70 years old. One of the treatments for these cancers is to perform an excision of the larynx thus removing the entire tumor, it is the total laryngectomy. The trachea is thus permanently removed from the skin and the digestive tract becomes independent.
In the global landscape of cancer, head and neck malignancies are highly prevalent, with 878,000 new cases and 444,000 deaths recorded in 2020. Notably, laryngeal and hypopharyngeal cancers contribute to around 30% of these instances. More than 50% of patients are diagnosed with locally advanced disease, necessitating intensive treatments that significantly impact their quality of life. Despite these efforts, the prognosis for laryngeal and hypopharyngeal cancers remains grim, with a 5-year survival rate of 30% to 50%. Past approaches focused on preserving laryngeal function and patient well-being, including minimally invasive surgery, advanced radiotherapy, and induction chemotherapy. Our prior research highlighted the effectiveness of combining toripalimab-based induction therapy and chemotherapy, followed by concurrent chemoradiotherapy or surgery. Positive short-term outcomes and manageable side effects were observed, with encouraging larynx preservation rates after one year. Against this backdrop, the current study aims to explore neoadjuvant immunotherapy combined with chemotherapy for patients with locally advanced laryngeal and hypopharyngeal cancer. It seeks to compare the therapeutic efficacy and quality of life impacts of concurrent radiochemotherapy and organ-preserving surgery. The ultimate goal is to identify optimal strategies for future interventions.
Recruited patients are divided into two arms depending on laryngeal carcinoma's T1 and T2 stages. Two interventions were undergone, including transoral endoscopic laser cordectomy and open partial horizontal laryngectomy (OPHL). During the pre-and post-operative time, patients performed measurements of swallowing function, including direct subglottic pressure, Eating Assessment Tool-10(EAT-10) questionnaire, swallowing ability to different textures, and fiberoptic evaluation of swallowing(FEES). Patients undergo subglottic pressure measurement and swallowing function evaluation three times: 3-7 days, two months, and six months after surgery. Patients also performed measurement voice acoustic analysis and subjective assessment one-day pre-operation and six months post-operation.
This is a pilot prospective observational cohort study, comprising patients with head and neck cancer (HNSCC) treated with standard of care definitive (chemo)radiation either with photons or protons. Patients will be assigned for protons or photons based on the guidelines of the National Indication Protocol for Proton therapy of the Netherlands. Immunological function will be evaluated by the collection of peripheral blood mononuclear cells (PBMCs). Blood samples will be collected at baseline, during (chemo)radiation (end of week 3 and/or before week 4 of treatment) and after completion of (chemo)radiation (week 9, week 12, week 20, week 34 and week 60, respectively 1 week, 5 weeks, 3 months, 6 months and 12 months after completion of (chemo)radiation). To quantify immunological function, PBMCs collected during (chemo)radiation and after (chemo)radiation will be compared with that before (chemo)radiation (week 0), using IFN-γ-ELISPOT to screen for the presence of antigen-specific T-cell responses. Furthermore, flow cytometry panels will be used to determine global changes in immune cell proficiency. Histological evaluation will take place at baseline and week 3 to examine changes in immune infiltration within tumour tissue during proton versus photon (chemo)radiation. This biopsy part of the study is optional for the patient. Archival tissue from the biopsy that was taken at diagnosis will be used for the baseline assessments. Biopsy at week 3 week will be taken for all patients who agree to participate in this optional part of the study.
The investigators will obtain three-monthly voice recordings and fiberendoscopic examinations of the larynx/hypopharynx for a minimal period of 6 months from all laryngeal/hypopharyngeal squamous cell carcinoma (LSCC/HPSCC) patients, who have successfully completed curative primary treatment, except those who underwent total laryngectomy. Furthermore, the investigators will ask the patients to fill out the voice handicap index-30 questionnaire (VHI-30) during each study visit. The VHI-30 allows to make a subjective assessment of the patients' own vocal problem. The primary objective is to assess the feasibility and compliance of longterm regular voice monitoring in LSCC and HPSCC follow-up.