View clinical trials related to Lung Cancer.
Filter by:This research study is studying a new imaging method that will show lymph nodes in the lung during lung cancer surgery. The name of the study intervention involved in this study is: -- The combination of the FluoSCOPE device and Indocyanine Green
Correlation of epithelial growth factor receptor mutation in blood of lung cancer patient and clinical outcome.
Motive: In order to improve the treatment technique, a comprehensive follow-up program is needed to obtain all relevant patient, treatment and toxicity data from lung cancer patients. Goal: To set-up and maintain a database containing treatment results in terms of tumor control, side effects, complications and patient-reported quality of life. A standard database of patients receiving photon treatment will be created. These data are then linked to dose-volume data of radiotherapy, with the aim to build prediction models for both tumor control and toxicity after radio (chemo) therapy that can later be used for selecting patients for proton treatment.
The objective of the study was to compare the value of routine gene testing and next-generation sequencing (NGS) in detecting gene mutations of small specimens obtained by endobronchial ultrasound transbronchial needle aspiration (EBUS-TBNA) and get the knowledge of how many EBUS-TBNA samples were adequate for NGS.
The objective of the study was to compare the gene mutation status among the primary tumor, matched metastatic lymph node (LN) and peripheral blood in advanced nonsquamous non-small cell lung cancer (NSCLC) using next-generation sequencing (NGS).
This study aims to identify if clarithromycin (CLM) has potential as a widely available and inexpensive treatment for cachexia (the loss of muscle mass) in people with non-small cell lung cancer (NSCLC). Half the participants will receive clarithromycin and half will receive a placebo.
The CareSTEPS intervention fills an important service gap by providing education, skills training, and support to the caregivers of advanced lung cancer patients on active treatment. The home-based delivery format will facilitate future dissemination and outreach. By empowering families with the skills they need to provide care and meet the challenges of lung cancer, this intervention holds great promise for improving caregiver quality of life (QOL), patient QOL, and the quality of palliative and supportive care services offered to patients with advanced cancer and their families.
The purpose of this Phase I study is to test the safety of different doses of specially prepared immune cells (called "T cells") collected from blood. The Investigators want to find a safe dose of these modified T cells for patients who have malignant pleural disease. They want to find out what effects these T cells have on the patient and the cancer (MPD). Phase 2 part of the study, the investigators will test the dose in combination with another drug, pembrolizumab, to see what effects the study treatment has on malignant pleural mesothelioma.
The purpose of this study is to explore the detection of circulating tumor DNA, soluble immune markers, and the evaluation of peripheral blood mononuclear cells (PBMC).
In Part I of the study VS-6766 will be given twice weekly or three times per week in treatment cycles of 4 weeks to investigate a safe and tolerable dose of the drug. Once the optimal dosing schedule is defined, the following patients with BRAF, KRAS and/or NRAS mutations will be enrolled: 26 patients with solid tumours (Parts IIA & IIC) and 10 patients with Multiple Myeloma (Part IIB). Up to 44 patients with solid tumours containing BRAF, KRAS and/or NRAS mutations will take VS-6766 in combination with everolimus (Part IID). Of these, 20 patients will comprise the Part IID dose expansion and will all have KRAS-mutant lung cancer.