View clinical trials related to Non-Small Cell Lung Cancer.
Filter by:The purpose of this study is to determine whether NRX 194204 is effective in the treatment of advanced Non-Small Cell Lung Cancer (NSCLC).
The rationale for this multicenter, phase II trial is to examine the impact of carboplatin/paclitaxel with bevacizumab in the preoperative treatment of patients with stage IB (> 4.0 cm), II, and select stage III NSCLC. If this novel regimen proves to be safe and active in this setting, this would provide rationale for further investigation in a larger, prospective, randomized setting.
This study aims to assess both the role and cost-effectiveness of EBUS in preoperative Non small cell lung cancer staging. This controlled multicentric study will be conducted in 22 centers in France. The study design includes two prospective phases. In phase 1, one investigator in each center will prospectively be evaluated for its ability to perform EBUS, with a required goal of 9 informative samplings out of 10 consecutive patients. The phase 2 will include the medico-economic assessment of the technique in the preoperative setting. A maximum of 420 patients for each phase is forecasted.
This is a phase I/II study in Japan to evaluate the safety of EMD531444 and its effects on survival time in patients with stage III unresectable non-small cell lung cancer.
1. To establish a retrospective compilation of clinical, histopathological, treatment and follow-up (clinic pathological) data of previous non-small cell lung cancer (NSCLC) cases. 2. To establish a prospective collection of clinic pathological information from NSCLC patients with corresponding blood and tissue samples 3. To discover and validate molecular biomarkers of survival and treatment outcome in NSCLC One of the current difficulties in the management of lung cancer is the decision to treat and the type of treatment to select. Thus there is a need for additional prognostic (indicative of disease aggressiveness) and predictive (indicative of likely response to treatment) markers for lung cancer. To conduct a successful prognostic and predictive marker program, several factors are required, including: a comprehensive database linking clinical, histopathological, treatment and outcome characteristics of each case, a collection of samples linked to the database that is suitable for the testing of candidate markers, and a multi-disciplinary, interdepartmental level of expertise in the management of lung cancer. Objective 1: A review of the case records will be conducted to extract clinical, treatment and follow-up data Objective 2: Patients aged 21 years or more with newly diagnosed, untreated non-small cell lung cancer shall be approached for consent. Patients will be identified through the pathology records, and from the study investigators' clinic. After subject consent, baseline characteristics will be obtained. Follow up data on therapies received and toxicities encountered will be obtained. Tumor samples will be obtained only from patients with NSCLC undergoing surgery as part of routine clinical care. The surgical specimen will be sent to Pathology to verify the adequacy of the diagnostic sample as per usual practice. Blood will be collected at the baseline (or prior to any anti-cancer treatment) and will be sampled again at the time of relapse or disease progression. Collection will entail drawing 7ml blood into a Vacutainer CPT tube (Becton Dickinson, USA), centrifugation, extraction of a separated layer of mononuclear cells (MNC), labeling followed by storage below -80oC. The frequency of blood drawn will be about 1-5 times (7-35mls total). The number of times depends on whether the lung cancer relapses and in the advanced stage, how often the lung cancer relapses after treatment. DNA and RNA will be extracted by CSIS and stored in freezer space there. Stored samples will be used for investigation of prognostic and predictive markers of outcome and for discovery of novel molecular alterations Objective 3: Biomarker analysis of tumor and blood. Blood will be enriched for circulating tumor cells (CTC) using previously optimized methods (11) and DNA will be extracted from CTC and tumor using the Tri-Reagent (Molecular Research Center, Cincinatti, OH). DNA will be extracted from tumor, CTC and mononucleated cells and tested for somatic lung mutations by sequencing (2). Germline DNA will be analysed for genes linked to genetic risk for NSCLC and, for treatment toxicities, for genes related to NSCLC chemotherapy metabolic pathways. Tissue microarray (TMA) is a high-throughput method of analysing large numbers of formalin-fixed, paraffin-embedded tumor at a minimal cost and effort. To analyse the expression of proteins of putative relevance to EGFR function, cell proliferation, angiogenesis, apoptosis, metastasis, and hormonal, TMA will be utilised. PTEN and C/EBPa will also be analysed.
The purpose of this study is to characterize the demographic and clinical aspects, and describe the frequency and type of KRAS mutation in a Brazilian population sample with advanced non-small cell lung cancer (NSCLC).
This study will provide treatment with erlotinib to participants with advanced NSCLC who have received at least one course of standard chemotherapy or radiation therapy, or who are not medically suitable for either. Efficacy and safety will be monitored throughout the study.
This 2 arm study will compare the efficacy and safety of sequential treatment with Tarceva and gemcitabine, and of gemcitabine monotherapy, as first line treatment of elderly patients, or patients with ECOG performance status of 2, with advanced non-small cell lung cancer.Patients will be randomized to receive either sequential gemcitabine 1250mg/m2/day on days 1 and 8 + Tarceva 150mg po on days 15-28 of each 4 week cycle, or gemcitabine monotherapy 1000mg/m2/day on days 1, 8 and 15 of each 4 week cycle. The anticipated time on study treatment is 3-12 months, and the target sample size is 100-500 individuals.
The investigators performed a multicenter, open trial of using TS gene polymorphism to predict advanced lung adenocarcinoma effect to pemetrexed combined with cisplatin regiment as first-line treatment.
Dose finding part: A phase I clinical trial to evaluate the safety of combined sorafenib and everolimus treatment in patients with relapsed solid tumors (finished). Extension part:Treatment of non-small cell lung cancer (NSCLC) with KRAS mutation after ≥ 1st relapse (recruiting)