View clinical trials related to Oropharyngeal Neoplasms.
Filter by:This study examines patient reported outcomes post radiation therapy or chemoradiotherapy patient care in patients with oropharyngeal cancer. This study may help researchers learn about the symptoms that patients with oropharyngeal cancer have after completing radiation therapy.
This study aims to determine whether a blood test for HPV DNA can improve diagnosis of HPV-positive oropharynx cancer (HPV-OPC).
Human papillomavirus (HPV)-related oropharyngeal carcinoma are exquisitely radiosensitive. Several studies attempted to reduce the toxicities of treatments through reduced-dose radiation and showed promising results, but all data were collected from non-Chinese areas. Like nasopharyngeal carcinoma (NPC), oropharyngeal carcinoma may have different biological behavior and relationship with HPV infection. So the investigators studied whether toxicities reducing treatment with reduced radiation dose and omitted concurrent chemotherapy after good response to induction chemotherapy would maintain survival outcomes while improving tolerability for patients with HPV-positive oropharyngeal carcinoma. Immune checkpoint inhibitors (ICIs) have proved to improve outcomes of head and neck cancers including EBV-related NPC. Oropharyngeal carcinoma was considered to be similar with NPC in terms of immune environment. So we added anti-PD-1 antibody Toripalimab to induction chemotherapy in order to achieve better response rates to receive de-escalation chemoradiotherapy followed.
This phase II trial studies the effect of cemiplimab in combination with low-dose paclitaxel and carboplatin in treating patients with squamous cell carcinoma of the head and neck that has come back (recurrent) or spread to other places in the body (metastatic). Immunotherapy with monoclonal antibodies, such as cemiplimab , may help the body's immune system attack the cancer, and may interfere with the ability of tumor cells to grow and spread. Chemotherapy drugs, like paclitaxel and carboplatin, work in different ways to stop the growth of cancer cells, either by killing the cells, by stopping them from dividing, or by stopping them from spreading. Giving cemiplimab in combination with paclitaxel and carboplatin may work better in treating recurrent or metastatic squamous cell carcinoma of the head and neck.
The bridging of the gap between speech production and perception by the interlocutor would be made possible by the use of a more suitable and automatic task. An acoustic-phonetic decoding test (or DAP in French, i.e. the production of isolated pseudo-words in repetition or reading), created within the framework of the The French National Cancer Institute (InCA) C2SI project, avoids the effects of cognitive restoration by the interlocutor. An automatic score from the DAP would lead to an overall score per patient, but also to scores specific to each phonetic segment, to be correlated with the analytical scores from each anatomical oropharyngeal segment. The study hypothesis is that the automatic processing of an acoustic-phonetic decoding task during the assessment in current practice is a valid and reliable tool for diagnosing oropharyngeal analytical and dynamic deficits by highlighting deficient linguistic units. The study hypothesis is that the automatic processing of an acoustico-phonetic decoding task during the assessment in current practice is a tool for diagnosing oropharyngeal analytical and dynamic deficits by highlighting deficient linguistic units.
There are multiple treatment modalities for head and neck cancer. They include radiation therapy, chemotherapy and surgery. Radiation therapy aims to control the tumor with minimum damage to adjacent tissues. Surgery is the preferred treatment for accessible cancers. Radiation and/or chemotherapy is used as an adjunct to surgery, in inaccessible tumors, post surgery sterilization and palliation. A major complication of RT is that adjacent normal tissues are variably affected. For Oropharyngeal cancer, major and minor salivary glands are damaged by RT since they fall in the radiation pathway. Atrophy and acinar degeneration are features most commonly found histologically. Xerostomia is defined as dry mouth resulting from reduced or absent saliva flow. Xerostomia is not a disease, but may be a symptom of various medical conditions, a side effect of a wide variety of medications and a side effect of a radiation to the head and neck.The flow rate of normal unstimulated saliva is 0.3-0.5 ml/min. If it decreases to less than 0.1-0.2 ml/min, one would experience xerostomia. According to researchers, the decrease in saliva and xerostomia that results from radiotherapy plays an important role in worsening Quality of Life(QoL) among patients who undergo radiotherapy for head and neck cancers. Low level laser Therapy(LLLT) uses light energy in the form of photons to produce cellular responses in the cell. Light photons are absorbed by cytochromes and porphyrins in the mitochondria of the cell. This study aims to prove that Low level laser therapy will improve salivary flow rate, pH and the quality of life in patients who have undergone Radiation therapy for oropharyngeal cancers.
Project's goal is evaluate an online tool the research team created called Empowered Survivor (ES) against a free online self-management intervention developed for cancer survivors by the National Cancer Institute and the American Cancer Society called Springboard Beyond Cancer.
Background: Often, metastatic human papillomavirus (HPV) associated cancers cannot be cured. They also do not respond well to treatment. Some forms of colon cancer also have poor responses to treatment. Researchers want to see if a new drug treatment can help people with these types of cancers. Objective: To find a safe dose of entinostat in combination with NHS-IL12 and bintrafusp alfa and to see if this treatment will cause tumors to shrink. Eligibility: Adults ages 18 and older who have cervical, oropharyngeal, anal, vulvar, vaginal, penile, squamous cell rectal, or another cancer that may be associated with HPV infection or microsatellite stable small bowel or colorectal cancer. Design: Participants will be screened with a medical history and physical exam. Their ability to do daily activities will be assessed. They may have imaging scans of the brain and/or chest, abdomen, and pelvis. They may have nuclear bone scans. They will have an electrocardiogram to test heart function. They will have blood and urine tests. They may have a tumor biopsy. Participants with skin lesions may have them photographed. Some screening tests will be repeated during the study. Treatment will be done in 28-day cycles. Participants will get bintrafusp alfa through an intravenous catheter every 2 weeks. They will get NHS-IL12 as an injection under the skin every 4 weeks. They will take entinostat by mouth once a week. They will complete a medicine diary. Participants will get treatment for 2 years. They will have 1-2 follow-up visits in the 30 days after treatment ends. Then they will be contacted every 6 months to check on their health.
Head and neck cancers (HNSCC) are primarily squamous cell cancers represented by tumors of the upper aerodigestive tract. Locally advanced stages (stages III and IV) account for 50 to 70% of all presentations. The three main risk factors are smoking, alcohol and oropharyngeal infection with human papilloma virus (HPV). Apart from HPV status, there is no biomarker for the prognosis in HSNCC patients. Circulating Tumor Cells (CTCs) can provide "real-time" information on tumor behavior and are already used in various cancers (colon, lung). Their detection has limited sensitivity and biomarkers cannot be used for early diagnosis, but may be useful during follow-up to assess local, regional or metastatic early tumor recurrence. By using blood samples at different times (at diagnosis, after initial treatment and during follow-up), we will be able to measure the variation in quantification and establish a predictive role of these CTCs for the response to treatment. Our hypothesis is that CTCs may have a key role, in addition to clinical and radiological examination, in detecting early tumor relapse. We believe that the joint consideration of clinical parameters, treatment strategy and quantification of CTCs could optimize patient follow-up and management. The CTC extraction system, ClearCell® FX from Biolidics, is an automated microfluidic enrichment system. It has the advantage of recovering fully intact and viable CTCs from a standard blood sample. The gentle sorting principle allows to preserve cell integrity and thus the expression of surface antigens. The CTCs thus isolated can then be re-cultured or analyzed by immunostaining. This high-performance technique, in operation since December 2017 in the Biochemistry Department of Pr Claire Rodriguez-Lafrasse (HCL), has demonstrated its usefulness in lung cancer. Transcriptomic analysis of CTCs can be performed at the scale of a cell after isolation of the CTCs. CTCs can then be sequenced in RNAseq either in bulk (pool of cells) or cell by cell on our Illumina (Nextseq) sequencer, in order to define the heterogeneity of the tumor. Transcriptome analysis then provides information on the state of the cell as to its position in the epithelio-mesenchymal transition thanks to a molecular signature by phenotype. A priori-free characterization is therefore possible thanks to the RNAseq single-cell. This highly sensitive and innovative technique will allow the study of the gene expression profile of CTCs.
Following preliminary studies carried out in our department on these subject and subjective findings during clinical examinations, it has been shown that pain is a symptom that is rarely reported following treatment. Instead, neurosensory disorders such as hypoesthesia and paresthesia are found. The objective of the study is to map and qualitatively evaluate neurosensory disorders in patients treated for cancers of the oral cavity and oropharynx.