View clinical trials related to Carcinoma, Squamous Cell.
Filter by:This is a Phase 1, multiple dose, ascending dose escalation study to define a MTD/RD and regimen of XmAb20717, to describe safety and tolerability, to assess PK and immunogenicity, and to preliminarily assess anti-tumor activity of XmAb20717 in subjects with selected advanced solid tumors.
The goal of this project is to develop and characterise an imaging strategy for biology-guided individualisation of the proton therapy plan to improve patient outcome and quality-of-life. Positron-emission tomography (PET) studies reflecting glucose metabolism, hypoxia and physical changes of proton-irradiated tumour tissues will be performed. Patients with head and neck cancer will be studied, as these individuals frequently experience recurrences within the radiation field, often with limited therapeutic options. Severe side-effects and functional impairment, deteriorating patients' quality-of-life, limited the use of dose-escalation in recent feasibility studies of photon therapy guided by individual PET-response. However, proton therapy, currently being introduced in the Netherlands, improves the precision of radiotherapy and thereby limits the side-effects caused by irradiation of neighbouring healthy tissues. Therefore, in proton therapy dose-escalation to improve patient outcome is less restricted by toxicity. Using PET-studies of two hallmarks of radioresistance, glucose metabolism and hypoxia, side-by-side, before and early in-treatment, the predictive ability of both PET-techniques for local recurrence-free survival will be compared. A treatment plan adapted to the individual response measured by both procedures and compute tumour-dose and toxicity, will be simulated, thereby substantiating feasibility of image-guided adaptive replanning. Simultaneously to biological responses, proton therapy-induced physical changes will be studied. These atomic changes, dependent on tissue-composition and dose-deposition, are measurable by PET. It is expected that activation-PET to measure tissue-changes during therapy, a potential new biomarker of treatment efficacy, toxicity but also accuracy of treatment plan execution. Activation-PET will be related to earlier-mentioned PET-imaging of metabolism. This clinical-technological project paves the way for an interventional trial of PET-guided treatment personalisation. Activation-PET will also serve as biomarker and quality control for proton therapy and support the current development of specialised in-beam PET-technology. These PET-techniques together will help us to individualise treatment, which is of great importance for the success and cost-effectiveness of proton therapy.
The study evaluates the effects of the drug Metformin on the oxygen content in cancer tissue. Low oxygen concentration in cancer tissue accelerates cancer growth. Moreover, the response to radiation therapy is worse when tissue oxygen is low, because radiation therapy depends on oxygen to unfold therapeutic effects. Metformin has been used to treat type II diabetes for over 50 years and features additional properties that could slow down cancer growth. One of these properties is the improved oxygen concentration in cancer tissue. This effect has been proven for various cancers. This study was planned to verify this effect in head and neck cancer. Patients who suffer from cancer of the mouth and are planned for surgical removal of the cancer will be given Metformin for 9 to 14 days. The tissue removed in the subsequent surgery will be compared to a tissue sample that had been taken from the same patient prior to Metformin intake. To evaluate the oxygen content in the tissue samples, the expression of genes that react to oxygen levels will be measured and compared between the samples taken before and after treatment with Metformin. A secondary aim is to evaluate whether changes in the oxygen content within the tumor can be visualized by means of magnetic resonance imaging (MRI). Therefore, participants undergo an MRI scan, before and after Treatment with Metformin. The changes in the MRI will be correlated to the changes measured in gene expression.
The purpose of this study is to examine how different messages about risk of melanoma can impact the way people protect themselves against developing these diseases.
This is an open-label, multicenter, phase I study to evaluate the safety and tolerability of durvalumab ± tremelimumab in combination with chemoradiation in patients with advanced solid tumors
Up to 31 subjects diagnosed with oral squamous cell carcinoma received one application of a permeation enhancer 3 treatment applications of a Cisplatin drug-loaded patch to the tumor site at each of the 4 treatment visits. These 4 treatment visits were scheduled to occur during the 3 weeks prior to the standard of care tumor resection. Funding Source: FDA OOPD
This is a phase 2, open-label efficacy study of VGX-3100 administered by intramuscular (IM) injection followed by electroporation (EP) in adult men and women who are human immunodeficiency virus (HIV) negative with histologically confirmed anal or anal/peri-anal high-grade squamous intraepithelial lesion (HSIL) associated with human papilloma virus (HPV)-16 and/or HPV-18. Approximately 24 participants will receive at least 3 doses of VGX-3100.
The purpose of the study is to find out if the study drugs Avelumab, Cetuximab, and Palbociclib will slow or stop your cancer from getting worse, and whether it causes side effects. The second purpose is to measure whether your cancer responds to the study drugs Avelumab, Cetuximab, and Palbociclib. The study drugs Avelumab, Cetuximab, and Palbociclib are types of drugs called a monoclonal antibody. Monoclonal antibodies are made to recognize, target, and bind to specific proteins on cells the building blocks making up your tissues.
The objective of this program is to provide access to cemiplimab (REGN2810) to patients with metastatic cutaneous squamous cell carcinoma (mCSCC) or locally advanced cutaneous squamous cell carcinoma (laCSCC) who are not candidates for surgery prior to cemiplimab (REGN2810) being commercially available.
As a 2nd generation EGFR-TKI that irreversibly binds to EGFR receptors, afatinib is currently recommended as the standard first-line treatment for EGFR mutation-positive lung cancer, and clinical studies are also being actively conducted in other types of carcinomas characterized by EGFR gene mutation and overexpression. The overall results from previous studies of gefitinib and erlotinib as EGFR TKIs , as well as from preceding studies of afatinib - a 2nd generation EGFR TKI - suggest the possibility of an effective therapy in esophageal cancer or squmaous lung cancer. In this phase II trial, afatinib shall be administered to patients with squamous cell carcinoma of esophagus or lung squamous cell carcinoma to evaluate its effects and toxicity. Also, biomarkers to predict responses to afatinib shall be explored through further studies.