View clinical trials related to Non-small Cell Carcinoma.
Filter by:The investigators hypothesize that the addition of ramucirumab and N-803 will augment the clinical activity of atezolizumab, and in order to evaluate the exact mechanism of action of the combination, the investigators propose a comprehensive analysis of paired peripheral blood samples collected during this study.
Since anti-PD1, anti-TIGIT, and A2R antagonists have complementary mechanisms of action, and the latter two have shown synergism in combination with antibodies against PD-1, othis study aims to evaluate the efficacy and tolerability of the triplet combination of zimberelimab, domvanalimab, and etrumadenant in patients with non-small cell lung cancer previously treated with immune checkpoint blockade therapy.
This is a phase III clinical trial aimed to compare the efficacy and safety of Osimertinib monotherapy and combination of Osimertinib, pemetrexed and carboplatin in untreated patients with advanced non-small cell lung cancer with concurrent EGFR and TP53 mutation.
Single arm study of induction durvalumab (1500 mg IV) for 1 cycle (every 4 weeks), administered prior to starting concurrent definitive chemoradiation, followed by consolidation durvalumab (1500 mg IV every 4 weeks) for up to 12 cycles. The study will include an initial safety run-in portion. Patients in the safety run-in will be monitored through completion of induction durvalumab, chemoradiation, and 2 cycles of consolidation durvalumab for assessment of safety prior to completion of enrollment.
This study evaluates the how addition of the Nodify XL2 test result impacts the clinical management of newly identified solid lung nodules assessed as low to moderate risk of cancer.
This is a Phase I/Ib study whose purpose is to find out if combining an experimental drug called binimetinib with pembrolizumab is beneficial in people who have advanced non-small cell lung cancer. This study may also see if the combination is safe and may also find the best dose of binimetinib that should be added to pembrolizumab.
In this trial, the effect of intrapleural docetaxel administration using medical pleuroscopywill be evaluated in Lung Cancer patient with malignant effusion.
Study RGX-104-001 is a Phase 1, first-in-human, dose escalation and expansion study of RGX-104, an oral small molecule targeting the liver X receptor (LXR), as a single agent and in combination with nivolumab, ipilimumab, docetaxel, or pembrolizumab plus carboplatin/pemetrexed.
This study is being done to find out if SEA-CD40 is safe and effective when given alone, in combination with pembrolizumab, and in combination with pembrolizumab, gemcitabine, and nab-paclitaxel. The study will test increasing doses of SEA-CD40 given at least every 3 weeks to small groups of patients. The goal is to find the highest dose of SEA-CD40 that can be given to patients that does not cause unacceptable side effects. Different dose regimens will be evaluated. Different methods of administration may be evaluated. The pharmacokinetics, pharmacodynamic effects, biomarkers of response, and antitumor activity of SEA-CD40 will also be evaluated.
This 2-phase study will determine the safety of treating patients with non-small cell lung cancer with the genetically engineered HyperAcute-Lung cancer vaccine. It will establish the proper vaccine dose and will examine side effects and potential benefits of the treatment. The vaccine contains killed lung cancer cells containing a mouse gene that causes the production of a foreign pattern of protein-sugars on the cell surface. It is hoped that the immune response to the foreign substance will stimulate the immune system to attack the patient's own cancer cells that have similar proteins without this sugar pattern, causing the tumor to remain stable or shrink. Patients 18 years of age or older with non-small cell lung cancer that has recurred or no longer responds to standard treatment may be eligible for this study. Candidates will be screened with a medical history and physical examination, blood tests, urinalysis, chest x-rays, and lung function testing. CT, MRI, PET, and ultrasound scans of the chest may be obtained if needed. Participants will receive four vaccinations a month apart from each other. The vaccines will be injected under the skin, similar to the way a tuberculosis skin test is given. Phase I of the study will treat successive groups of patients with increasing numbers of the vaccine cells to evaluate side effects of the treatment and determine the optimum dose. Phase II will look for any beneficial effects of the vaccine given at the highest dose found to be safe in Phase I. Weekly blood samples will be drawn during the 4 months of vaccine treatment. In addition, patient follow-up visits will be scheduled every 2 months for the first year after vaccination and then every 3 months for the next 2 years for the following tests and procedures to evaluate treatment response and side effects: - Medical history and physical examination - Blood tests - X-rays and various scans (nuclear medicine/CT/MRI) - FACT-L Assessment questionnaire to measure the impact of treatment on the patient's general well-being. The questionnaire is administered before beginning treatment, before each vaccination, and during follow-up visits after completing the treatment. It includes questions on the severity of lung cancer symptoms and the ability to perform normal activities of daily life. In addition to the above procedures, 3 skin punch biopsies will be done at the vaccination site to look for a local immune response. For this procedure, an area of skin is numbed with an anesthetic and a 4 mm (about 1/4-inch) circular area is removed, using a sharp cookie cutter-type instrument. Also, one blood sample per year will be collected for the next 15 years to monitor the safety of the gene transfer. Patients whose lung cancer spreads to the skin, superficial soft tissues, or a superficial lymph node may be asked to undergo a biopsy of the lesion to see what effect the treatment may be having on the tumor.