View clinical trials related to Non-Small Cell Lung Cancer.
Filter by:The goal of this research study is to learn if a new type of PET scan (18F-FLT) can help to better detect changes of tumor growth rate (or how active) in esophagus cancer and lung cancer Researchers will study at what time during treatment the 18F-FLT PET scan should be given to get the best results. A Positron Emission Tomography (PET) scan is a type of scan that uses a radioactive solution to locate cancer cells inside the body. Using the PET scan, doctors can locate solid tumors and collect information about how "active" the cancer cells are. For this study, a new type of solution, [F-18]-fluoro-L-thymidine (FLT), will be used. FLT can detect actively growing tumor, and researchers hope that FLT may be able to help provide information about how well esophagus cancer treatment is working. This information could be used to help predict if the cancer will respond to treatment. All enrolled subjects will receive PET/CT imaging at pre-Neoadjuvant Therapy and post-3 weeks Neoadjuvant Therapy (3 weeks from the start of Neoadjuvant Therapy) prior to the surgery. At each time of the PET/CT procedure, the subject will receive an injection of FLT which is an investigational pharmaceutical labeled with radioactive fluorine. 45-60 mines after the FLT injection, the scan will be performed. Each scan might take 10-15 minutes. Participation in this pilot study will not change the patients normal chemotherapy, radiation treatment, and surgery recommended the patients physician as parts of their standard of care.
A Phase I/II study of an in-situ therapeutic cancer vaccine. Vaccines contain a source of antigen and and adjuvant. In this study the source of tumor antigen comes from the killing of a selected tumor by cryoablation (killing using extreme cold) and the adjuvant is intentionally mis-matched immune cells (AlloStim-TM) engineered to produce inflammatory cytokines.
The accurate staging is an essential part for the treatment and prognosis of non-small-cell lung cancer (NSCLC). Whole body MR imaging proved to be effective in staging of NSCLC as much as PET/CT. And there were organs of strength for each modality in the detection of metastasis. Therefore, integrated approach using whole body MR and PET would be more beneficial for the accurate staging of lung cancer with improved diagnostic efficacies and reduced radiation exposure. The aim of this project is to evaluate the diagnostic efficacy of side-by-side reading of whole-body magnetic resonance imaging/ positron emission tomography (MRI/PET) and to compare with that of whole-body magnetic resonance imaging (WB MRI) alone and that of integrated PET/CT in determining the stage of NSCLC. Patients with pathologically-proven NSCLC will be prospectively enrolled, if they are considered as surgical candidates for the treatment of lung cancer through conventional methods of staging, i.e. history taking, physical examination, blood tests, bronchoscopy, and enhanced chest CT scans. PET/CT will be routinely performed for the staging of lung cancer in our institution. For the purpose of this study, whole body MRI will be performed for these patients within 3 days from the date of acquisition of PET/CT. The results of TNM staging from each modality will be collected prospectively and their efficacies can be calculated based on the reference standards. Reference standards of T and N staging will be surgically confirmed. And M staging can be confirmed by biopsy, other imaging modalities, or follow-up more than 6 months. Diagnostic efficacies of coregistered MRI/PET can be evaluated with the comparison from the consecutive two-arm enrollment with random assignment of control group and study group as follows: - control group: routine staging work-up with chest CT, PET/CT, and brain MRI - study group: routine staging work-up plus whole body MRI for Coregistered MRI/PET
The purpose of this study is to understand the effects (good and/or bad) of the addition of RAD001 to standard radiation and chemotherapy (cisplatin and pemetrexed) for patients with non-small cell lung cancer.
The purpose of this research is to examine the relationship between performance status rating and the actual amount of physical activity a subject does when it is measured by an activity monitor.
Autologous Vigil™ vaccine expresses rhGMCSF and bi-shRNAfurin from the Vigil™ plasmid. The GMCSF protein is a potent stimulator of the immune system, recruiting immune effectors to the site of intradermal injection and promoting antigen presentation. The furin bifunctional shRNA blocks furin protein production at the post transcriptional and translational levels. This decrease in furin in turn decreases the conversion of the proforms TGFβ1 and TGFβ2 proteins. Also, reduced furin protein levels have a negative feedback inhibition on TGFβ1 and TGFβ2 gene expression, decreasing the levels of their mRNAs. The resulting decrease in TGFβ1 and TGFβ2 proteins reduces the local immunosuppression they cause and promotes tumor surface antigen and MHC protein display.
The purpose of the study is to estimate the rate of response for patients with ovarian, non-small cell lung, prostate, colorectal, gastroesophageal, and head and neck cancers who are administered LY2523355.
Lung cancer is the most common cancer in the western world. Only 10 to 15 % of patients diagnosed with lung cancer are suitable for potentially curative surgical treatment. Despite surgery, recurrence of lung cancer still occurs. Aspirin potentially may help increase survival by altering the biochemistry of any potential remaining lung cancer cells. Most lung cancer occurs in smokers. Smokers are at increased risk of heart attacks and strokes. Aspirin has beneficial effects on the heart and brain, potentially reducing the incidence of heart attacks and strokes.
Taxotere-Enoxaparin-(ENOXA)-Study: 1st-Line Docetaxel-Platin Chemotherapy as single therapy or in combination with Enoxaparin in patients aged older than 18 years with locally advanced or metastatic non-small cell lung cancer (stadium IIIb/IV), a phase III study. Study hypothesis: Increase of progressive free survival from 5 to 7.5 months.
This phase II trial is to compare neoadjuvant chemotherapy with concurrent chemoradiotherapy in patients with locally advanced non-small cell lung cancer (NSCLC) to address optimal induction strategy.