View clinical trials related to Non-Small Cell Lung Cancer.
Filter by:The purpose of this trial is to evaluate changes in immune activity relative to baseline following treatment with Toca 511 and Toca FC in patients with solid tumors (including recurrent high grade glioma [rHGG]) or lymphoma. This is a multicenter, open-label study of Toca 511 and Toca FC. Patients with advanced solid tumors or lymphoma, for whom curative options are not available, will be enrolled into the study, subject to all entry criteria. Tumors must be accessible to biopsy and/or resection. Patients will be qualified based on the presence of specific molecular characteristics, documented by Foundation Medicine (or equivalent) genomic profile report, and specific tumor types. Toca 511 will be administered by IV injection followed by (1) intratumoral injection following biopsy or (2) injection into the resection cavity wall following planned resection in the case of rHGG or brain metastases. Toca FC will be administered orally in cycles of therapy. Patients not undergoing resection of brain tumors will undergo 2 biopsies to allow assessment of baseline and follow-up immune activity in the tumor. Changes in immune activity in peripheral blood will be measured in all patients.
This study is a dose escalation of GR-MD-02 with the standard therapeutic dose of pembrolizumab in patients with advanced melanoma, non-small cell lung cancer, and head and neck squamous cell cancer.
The purpose of this study is to determine whether nivolumab monotherapy or in combination with Standard of care (SOC) therapies will provide clinical benefit (i.e., PFS, OS, and DOR) without unacceptable toxicity in advanced Non-Small Cell Lung Cancer patients.
This Phase II study is to determine the efficacy of split-course irradiation with concurrent chemotherapy in locally advanced none-small cell lung cancer patients.
The main purpose of this study is to evaluate the safety of ramucirumab plus MEDI4736 in participants with locally advanced and unresectable or metastatic gastrointestinal or thoracic malignancies including gastric or gastroesophageal junction (GEJ) adenocarcinoma, non-small cell lung cancer (NSCLC), or hepatocellular carcinoma (HCC).
Lung cancer is the leading cause of cancer deaths worldwide. However, if diagnosed at an early stage (tumor <2 cm), lung cancer is highly curable with a 5-year survival rate greater than 80% after surgical resection. Screening tests have made it easier to identify small lung tumors. However, these tumors are often not visible to the naked eye, and surgeons cannot feel them, making them difficult to precisely locate and remove. For this reason, surgeons have become more reliant on image guided surgery for the removal of these tumors. The standard of care for locating and removing small lung tumors is microcoil-guided video-assisted thoracoscopic surgery (VATS). This is a two-step procedure performed by two separate physicians. - First, patient is taken to radiology suite and radiologist inserts a microcoil near the lung tumor - Second (usually occurs a few hours later), patient is taken to operating room; a surgeon uses an x-ray arm to find the microcoil within the lung and remove it surgically. A pathologist reviews the resected tissue to make sure that the tumor and the microcoil were both removed. Until this evaluation, the surgeon does not know whether the tumor has been removed or not. While this method is safe, it is time consuming, uses staff resources, and requires bulky equipment to complete. In this study, we plan to develop and test a new method of identifying and removing small lung tumors. This procedure is called Electromagnetic Navigational Bronchoscopy (ENB) Robotic Indocyanine Green Guided Surgery (RIGGS) or ENB-RIGGS for a short name. The purpose of this study is to test the safety and reliability of the ENB-RIGGS surgery in the form of a pilot study. ENB-RIGGS surgery is done in the operating room by a surgeon under general anesthetic. ENB-RIGGS begins by creating a 3-D GPS map of the lung which guides the surgeon directly to the tumor. A fluorescent green dye called indocyanine green is then injected into the tumor, and when viewed by the special robotic camera the tumour will fluoresce with a green hue allowing the surgeon to easily see the tumour. The surgeon then uses the robot to remove the tumor and surrounding tissue. The lung tissue specimen will be evaluated immediately by a pathologist.
Lungs are made up of individual lobes. When a lung cancer tumour is detected in one of these lobes, surgeons typically perform a Lobectomy. A Lobectomy is the surgery most commonly done to treat early-stage lung cancer and requires removal of an entire lobe of the lung, which removes a large amount of lung tissue For patients with small tumours saving as much healthy lung tissue as possible is important. Each lobe of the lung has smaller sections called segments. When a lung cancer is in one of these segments, it is possible to remove that segment, without removing the entire lobe. This surgery is called a segmentectomy. Compared to a lobectomy, a segmentectomy saves a larger amount of healthy lung tissue. With the advances in screening technology for lung cancer tumours, an increasing amount of very small lung cancer tumours are being found, and the demand for segmentectomy is increasing. A segmentectomy is a hard surgery to perform robotically because it is difficult to view the tissue lines that separate each segment within the lobe. As a result, it is difficult for the surgeon to see exactly which pieces of tissue should be removed. Because of these challenges, many patients having robotic surgery will have a lobectomy, even if a full lobectomy is not needed. Near-Infrared Fluorescence (NIF) using indocyanine green (ICG) fluorescent dye is a recent advancement in the robotic platform of robotic surgery. The surgeon will view the CT scan to determine which segment the tumour is located in. Once identified, the surgeon will isolate the segment by cutting off the blood supply to that segment. Then ICG will be injected into a vein. It is expected that the entire lung, except the isolated segment, which will remain 'dark' as it was isolated from blood supply, will fluoresce, giving off a green hue when viewed with the da Vinci Firefly camera. The surgeon will identify 'dark' segment, and will remove it. A pathologist will examine the excised tissue to ensure that the tumour was removed in its entirety. Once confirmed, the surgeon will end the procedure. If the pathologist determines that the segment removed did not contain the entire tumour, then the surgeon will perform a routine lobectomy. This ensures patient safety and confirms that all participants will have the entire tumour removed from their lung.
This is an open-label, multicenter, global Phase 2 basket study of entrectinib (RXDX-101) for the treatment of patients with solid tumors that harbor an NTRK1/2/3, ROS1, or ALK gene fusion. Patients will be assigned to different baskets according to tumor type and gene fusion.
This is a pilot study looking at using stereotactic radiosurgery and full dose chemotherapy to treat stage II and III lung cancer that is not amendable to surgical resection.
Natural killer T (NKT) cells are a unique subset of lymphocytes that present a mixed T-NK phenotype. Our hypothesis is that Natural killer T cells may decrease the tumor burden and improve overall survival. The purpose of this study is to determine whether Natural killer T (NKT) cells are effective and safe in the treatment of patients with unresectable advanced solid tumor.